2,4,6-tris(dimethylaminomethyl)phenol

Administrative data

Endpoint:

extended one-generation reproductive toxicity - with F2 generation (Cohorts 1A, and 1B with extension)

Type of information:

experimental study

Adequacy of study:

key study

Study period:

2019-03-13 to 2019-10-11

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

guideline study

Justification for type of information:

According to the ECHA final decision on a compliance check from 2018-10-29 (Decision number: CCH-D-2114447795-35-01/F and submission number: MJ448798-11) the study design of the EOGRTS according to OECD 443 is as follows:

Based on Article 41 of Regulation (EC) No 1907/2006 (the REACH Regulation), ECHA requests you to submit information on:

Extended one-generation reproductive toxicity study (Annex X, Section 8.7.3.; test method: OECD TG 443) in rats, oral route with the registered substance specified as follows:
- At least two weeks premating exposure duration for the parental (P0) generation;
- Dose level setting shall aim to induce systemic toxicity at the highest dose level;
- Cohort 1A (Reproductive toxicity);
- Cohort 1B (Reproductive toxicity) with extension to mate the Cohort 1B animals to produce the F2 generation.

Data source

Referenceopen allclose all

Materials and methods

GLP compliance:

yes (incl. QA statement)

Limit test:

no

Justification for study design:

According to the ECHA final decision on a compliance check from 2018-10-29 (Decision number: CCH-D-2114447795-35-01/F and submission number: MJ448798-11) the study design of the EOGRTS according to OECD 443 is as follows:

Based on Article 41 of Regulation (EC) No 1907/2006 (the REACH Regulation), ECHA requests you to submit information on:

Extended one-generation reproductive toxicity study (Annex X, Section 8.7.3.; test method: OECD TG 443) in rats, oral route with the registered substance specified as follows:
- At least two weeks premating exposure duration for the parental (P0) generation;
- Dose level setting shall aim to induce systemic toxicity at the highest dose level;
- Cohort 1A (Reproductive toxicity);
- Cohort 1B (Reproductive toxicity) with extension to mate the Cohort 1B animals to produce the F2 generation.

Test material

Test animals

Species:

rat

Strain:

other: CD® / Crl:CD(SD)

Details on species / strain selection:

Based on the extent of background data and the comparability to general toxicity tests, the rat is the preferred species, and criteria and recommendations given in the TG refer to this species.

Sex:

male/female

Details on test animals or test system and environmental conditions:

DETAILS ON ANIMALS

Species / Strain / Stock: Rat / CD® / Crl:CD(SD)
Breeder: Charles River Laboratories Germany GmbH, Sandhofer Weg 7,97633 Sulzfeld, Germany
Body weight (at start of dosing): Male: 386.8 g – 472.0 g
Female: 214.4 g – 291.4 g
Age at start of dosing: 78 days

Age (at start of mating): Males: 91 days, females: 91 days (young adults; sexually mature)
Selection of species: The rat is a commonly used rodent species for such studies and required by the guideline.
Number of parental animals: Pre-exposure period:
At least 120 female animals were evaluated pre-exposure for oestrus cyclicity to yield 96 females with a regular oestrus cycle for the study.
Main study:
192 animals (96 males and 96 females)
A sufficient number in order to grant at least 20 pregnant females per group for evaluation of the F0 generation.
Adaption period: 7 days

ENVIRONMENTAL CONDITIONS
Diet: Commercial diet ssniff® R/M-Z V1324 (ssniff Spezialdiäten GmbH, 59494 Soest, Composition of the diet will be stated in the report)
Drinking Water: Tap water is offered daily ad libitum.
Housing: Animals are kept singly in MAKROLON cages (type III plus) with a basal surface of approx. 39 cm x 23 cm and a height of approx. 18 cm
at a room temperature of 22°C ± 3 °C (maximum range) and a relative humidity of 55% ± 15% (maximum range).
The rooms are alternately lit (about 150 lux at approx. 1.50 m room height) and darkened in a 12 hours dark/12 hours light cycle.

Administration / exposure

Route of administration:

oral: gavage

Vehicle:

polyethylene glycol

Remarks:

PEG400

Details on exposure:

Route of administration: Oral, via gavage
Frequency of administration: Once daily
Vehicle: PEG400
Administration volume: 4 mL/kg b.w.
Dosages: 0, 15, 50, 150 mg/kg bw/d
Selection of route of administration: According to international guidelines.

Details on mating procedure:

Sexually mature male and female rats of the same dose group were paired randomly monogamously, i.e. 1 male and 1 female animal were placed in one cage during the dark period. The female was placed with the same male until evidence of mating was observed or two weeks had elapsed.
The females were examined each morning for the presence of sperm. The day of conception (day 0 of gestation) was considered to be the day on which sperm was found.
Females without a positive mating sign were separated from its male partner after 2 weeks without further opportunity for mating. After a pseudo gestation period of approx. 24 test days these females were laparotomized and their non-pregnancy status was confirmed by Salewski Staining. F0 Females without a positive mating sign after 2 weeks of mating were noted in group 2 (no. 93) and in group 4 (no. 189).
If there would have been insufficient males, for example due to male death before pairing, then males which had already mated would have been paired with a second female such that all females would have been paired. However, as no male died prematurely, sufficient male animals were always available in this study.
For the establishment of the F2 Generation, males and females of the same dose group were paired, sibling mating was avoided.

Analytical verification of doses or concentrations:

yes

Details on analytical verification of doses or concentrations:

The test item formulations were freshly prepared every day.
The test item was diluted in the vehicle to the appropriate concentrations. The dosing formulations were administered orally at a constant volume/kg b.w..
The amount of the test item was adjusted daily to the animal’s current body weight.
The control animals received the vehicle at the same administration volume daily in the same way.
The stability, homogeneity and the concentration of the administration formulations were monitored (see section 3.7 'Test item-formulation analysis').
The F1 animals of Cohort 1A and Cohort 1B received the same concentration of the test item in the test item formulations, only the in-life periods of the different cohorts were of different lengths.
For the test item that was mixed with a vehicle, tests by appropriate analytical methods were conducted to determine the concentration, stability and homogeneity of the test item in the test item-vehicle formulations.
For the analysis of the test item-vehicle formulations, two (2) samples of approximately 3 mL each were taken according to the following schedule and stored at -20°C ±10% until analysis at LPT.

At start of the treatment period of the F0 animals
(first dosing day)

Analysis of stability and concentration
Immediately after preparation of the test item-vehicle formulation as well as after 8 and 24 hours storage at room temperature.
(3 samples / dose level group; groups 2 - 4).
Number of samples: 3 x 3 = 9

Analysis of homogeneity
At the start of administration, during (middle) administration and before administration to the last animal of the dose level group.
(3 samples / dose level group; groups 2 - 4).
Number of samples: 3 x 3 = 9

At the time when most F0 females had littered

Analysis of concentration
During treatment always before administration to the last animal/dose level group
(1 sample / dose level group; groups 2 - 4)
Number of samples: 3

At termination of the F0 dosing period at a time when the majority of animals was dosed

Analysis of concentration
During treatment always before administration to the last animal/dose level group
(1 sample / dose level group; groups 2 - 4)
Samples were not taken (see section 2.13)

Sum of all samples: 21

Sampling for the F1 Generation

At start of the treatment period of the F1 animals
(first dosing day)

Analysis of stability and concentration
Immediately after preparation of the test item-vehicle formulation as well as after 8 and 24 hours storage at room temperature.
(3 samples / dose level group; groups 2 - 4).
Number of samples: 3 x 3 = 9

Analysis of homogeneity
At the start of administration, during (middle) administration and before administration to the last animal of the dose level group.
(3 samples / dose level group; groups 2 - 4).
Number of samples: 3 x 3 = 9

At termination of Cohort 1A at a time when the majority of animals was dosed

Analysis of concentration
During treatment always before administration to the last animal/dose level group
(1 sample / dose level group; groups 2 - 4)
Number of samples: 3

At termination of Cohort 1B at
a time when the majority of animals was dosed

Analysis of concentration
During treatment always before administration to the last animal/dose level group
(1 sample / dose level group; groups 2 - 4)
Number of samples: 3

Sum of all samples: 24

Duration of treatment / exposure:

The study animals were treated during the following periods:

F0 animals
Males: 2 weeks prior to mating, during the mating period, and at least until weaning of the F1 generation (up to and including the day before sacrifice).
Females: 2 weeks prior to mating, during the mating, gestation and lactation period and until termination after weaning of their litters (up to and including the day before sacrifice).

F1 animals
F1 Pups Until weaning: F1 pups were indirectly exposed to the test item through the breast milk.
After weaning: the selected F1 pups for the F1 cohorts were individually dosed via gavage.
Cohort 1A The male and female animals of cohort 1A were dosed for 10 weeks (up to and including the day before sacrifice (sacrifice of males on TD 71 and 72 (PNDs 91 to 96); sacrifice of females on TD 67 and 68 (PNDs 88 to 92).
Cohort 1B The male and female animals of cohort 1B were dosed until sacrifice of their F2 pups (up to and including the day before sacrifice (males and females on TD 99 to TD 131 (PNDs 120 to 152)).
F2 animals Until sacrifice on PBD 21: The male and female F2 pups were indirectly exposed to the test item through the breast milk.

Frequency of treatment:

daily

Details on study schedule:

The study animals were treated during the following periods:
F0 animals
Males 2 weeks prior to mating, during the mating period, and at least until weaning of the F1 Generation (up to and including the day before sacrifice).
Females 2 weeks prior to mating, during the mating and lactation period and until termination after weaning of their litters (up to and including the day before sacrifice).

F1 animals
F1 Pups Until weaning: F1 pups were indirectly exposed to the test item through the breast milk.
After weaning: the selected F1 pups for the F1 cohorts were individually dosed via gavage.
Cohort 1A The male and female animals of cohort 1A were dosed for 10 weeks (up to and including the day before sacrifice (sacrifice of males on TD 71 and 72 (PNDs 91 to 96); sacrifice of females on TD 67 and 68 (PNDs 88 to 92).
Cohort 1B The male and female animals of cohort 1B were dosed until sacrifice of their F2 pups (up to and including the day before sacrifice (males and females on TD 99 to TD 131 (PNDs 120 to 152)).
F2 animals Until sacrifice on PBD 21: The male and female F2 pups were indirectly exposed to the test item through the breast milk.

Doses / concentrationsopen allclose all

No. of animals per sex per dose:

20 males and females in P generation and 20 males and females in Cohort 1A and Cohort 1B

Control animals:

yes, concurrent vehicle

Details on study design:

The dose levels had been selected in agreement with the Sponsor based on available toxicological data and the results of an OECD 408 study in rats (LPT Study No. 34962), an OECD 414 study in female rats (LPT Study No. 34964) as well as an OECD 422 study in rats (SafePharm laboratories, project no. 936/068). In all studies, dose levels of 15, 50 and 150 mg/kg b.w. per day were employed.
In the OECD 408 study, animals treated with 150 mg/kg showed multiple adverse test item-related effects such as decreased serum levels of albumin, globulin and total protein, increased serum levels of urea, reduced food consumption and body weight, increased organ weights for liver and spleen, decreased organ weights of epididymis, the prostate and the seminal vesicles of the male animals and of the ovaries and uterus of the female animals and very frequent histopathological changes (vacuolation). After further investigation by Dr. Weber from AnaPath, it was concluded that the alterations were not associated with further inflammatory and/or degenerative lesions, and showed partial or complete recovery. Thus, by morphology and distribution, the findings are indicative for phospholipidosis. Female animals treated with 150 mg/kg also displayed pilo-erection, while male animals showed reduced water consumption. At 50 mg/kg, histopathological changes (vacuolation) were only seen in some organs/tissues, and female animals showed reduced water consumption. No effects occurred at the 15 mg/kg b.w. dose level.
In the OECD 414 study, adult animals treated with 150 mg/kg showed slightly reduced food consumption and body weight gain as well as a high incidence of salivation. Furthermore, one animal died. No test item-related changes were noted in the macroscopic examination during laparotomy; reproductive parameters and the offspring were unaffected by the test item. No effects occurred at the 50 mg/kg and 15 mg/kg dose level, therefore the NOAEL was considered to be 50 mg/kg b.w./day for the dams. However, the NOAEL for the fetal organism was above 150 mg/kg b.w./day.
In the OECD 422 study, adult animals treated with 150 mg/kg b.w. displayed a non-significant increase in pre-implantation loss and a lower corpora lutea count. No further adverse effects were noted on the adult animals or their offspring. For animals treated with 50 mg/kg, a non-significant increase in pre-implantation loss was also observed, however adult animals and their offspring showed no further adverse affects. No effects occurred at the 15 mg/kg b.w. dose level.
Hence, 150 mg/kg b.w./day was considered the maximum tolerated dose for the F0-generation of the OECD 443 study, with no systemic effects to be expected in the F1 Generation. 

Deviations:
-No samples were taken at the termination of the F0 dosing period since already samples for the start of the treatment period of the F1 animals (1stt dosing day) were taken
-Food consumption for the males of the F0 Generation and the males of the F1 Cohort 1B was only regularly determined until start of mating. The following weekly determination of food intake during mating was not carried out as this examination as specified in the Study Plan had been overlooked.
-No sampling of urine was carried out for the male and female animals at the end of the F0 dosing period as this examination as specified in the Study Plan had been overlooked
-Male animals were euthanized under ether narcosis to guarantee best possible results for sperm analysis.
-Pup no. 79 7 (F1 Pup) was scheduled for culling on PND 4 (Provantis randomisation program: reduction of litter size to 10 pups per litter). However, pup no. 79 7 was not culled as scheduled due to the fact that another pup of the same litter (no. 79 13) had died on PND 4.
-The relative food consumption of the F1 Cohort 1B females on PND 21 was not determined due to the fact that the Provantis food intake is based on data input on PND 21. However, the respective body weight had already been measured on PND 20 instead of PN 21 as stated in the Study Plan.
These minor deviations do not invalidate the results of the study.

Positive control:

no

Examinations

Parental animals: Observations and examinations:

CLINICAL SIGNS
All animals
Throughout the test period, each animal was observed for clinical signs at least once daily.
Individual animals were observed before and after dosing at each time of dosing for any signs of behavioural changes, signs of difficult or prolonged parturition, reaction to treatment or illness. Any signs of illness or reaction to treatment were recorded for each individual animal.
Cage side observations included skin/fur, eyes, mucous membranes, respiratory and circulatory systems, somatomotor activity and behaviour patterns. The onset, intensity and duration of any signs observed were recorded.
In addition, animals were checked regularly throughout the working day from 7:00 a.m. to 3:45 p.m. On Saturdays and Sundays animals were checked regularly from 7:00 a.m. to 11:00 a.m. with a final check performed at approximately 3:30 p.m.
Dated and signed records of appearance, change and disappearance of clinical signs were maintained on clinical history sheets for individual animals.

Clinical signs - Detailed clinical observations
F0 animals and F1 animals after weaning
Additionally, a more detailed examination of the F0 animals and the F1 animals of Cohort 1B was performed on a weekly basis.
This more detailed examination started for the F0 main study animals on test day 14 (one day before the start of treatment) to allow for within-subject comparisons. Thereafter the examination was performed weekly 2 hours post administration until termination.
The F1 animals of Cohort 1B were examined weekly after weaning until termination.
These observations were made outside the home cage in a standard arena and at the same time, each time preferably by observers unaware of the treatment. Signs observed included changes in skin, fur, eyes, mucous membranes, occurrence of secretions and excretions and autonomic activity (e.g. lacrimation, piloerection, pupil size, and unusual respiratory pattern), as well as changes in gait, posture and response to handling as well as the presence of clonic or tonic movements, stereotypy (e.g. excessive grooming, repetitive circling), difficult or prolonged parturition and bizarre behaviour (e.g. self-mutilation, walking backwards).
Dated and signed records of appearance, change, and disappearance of clinical signs would have been maintained on clinical history sheets for individual animals.

MORTALITY
Further checks were made early in the morning and again in the afternoon of each working day to look for dead or moribund animals. This allowed post mortem examination to be carried out during the working period of that day. On Saturdays and Sundays, a similar procedure was followed with a final check at approximately 3.30 p.m..
In the case of prematurely sacrificed animals, laboratory examinations are performed, if possible. However, no animal of the F0 Generation and no animal of the F1 Generation (after weaning) was sacrificed prematurely.
For the prematurely deceased pups during the lactation period an external macroscopic examination for gross abnormalities was performed.

BODY WEIGHT
F0 animals
The male and female animals were weighed on the first day of dosing (test day 15) and daily thereafter for dose adjustment, and at sacrifice. The individual body weights were recorded.
The report includes weekly values as well as those of the female animals determined on gestation days 0, 7, 14 and 21 and on post-natal days (PND) 1, 4, 7, 14 and 21.
F1 animals
Live pups were weighed during the lactation period on their post-natal days (PND) 1, 4, 7, 14 and 21. Starting on PND 22, the animals were weighed daily for dose adjustment, and at sacrifice.
The report includes the values determined on post-natal days (PND) 1, 4, 7, 14 and 21. After weaning they were weighed weekly. The female animals of Cohort 1B were additionally weighed on their gestation days 0, 7, 14 and 21.

F2 animals
The F2 Pups were weighed on their post-natal days (PND) 1, 4, 7, 14 and 21 (at sacrifice).

FOOD CONSUMPTION
Food consumption is recorded weekly during pre-mating period in males and females and during gestation period on GD 7, 14, 21 and during lactation period on PND 1, 7, 14, 21 in females.
In males food consumption ois further recorded during post mating period on a weekly basis.

Food consumption
Food intake per rat (g/rat/week) was calculated using the total amount of food given to and left by each rat in each group
The days on which food start (or total food given) and food residue (or total food left) were weighed for the calculation of the relative food consumption are listed in Table below.

Food consumption of parental animals.
Study period F0 Males F0 Females
Pre-mating period Weekly Weekly
Mating period None#1 None#1
Gestation period Not applicable GD 7, 14, 21
Lactation period Not applicable PND 1, 7, 14, 21
Post-mating period Weekly#2 See gestation and lactation period

#1: No food consumption was measured during the mating period, as the animals were housed together.
#2: Starting on a suitable day after the mating period to consolidate all male animals.

Food consumption of offspring animals started after weaning and was performed weekls for 1A and 1B.
Water Water consumption is monitored by visual appraisal daily throughout the study.

HAEMATOLOGY
10 males and 10 females randomly selected from each F0 group.

Differential blood count (relative)
Differential blood count (absolute)
Erythrocytes (RBC)
Leucocytes (WBC)
Haematocrit value (HCT)
Haemoglobin content (HGB)
Platelets (PLT)
Reticulocytes (RET)
Mean corpuscular volume (MCV)
Mean corpuscular haemoglobin (MCH)
Mean corpuscular haemoglobin concentration (MCHC)

CLINICAL CHEMISTRY
Sodium
Potassium
Calcium
Chloride
Albumin
Total bilirubin
Total cholesterol
Glucose
Total protein
Blood urea (BUN)
Creatinine
Alanine amino-transferase (ALAT/GPT)
Alkaline phosphatase (aP)
Aspartate aminotransferase (ASAT/GOT)
Bile acids
Lactate dehydrogenase (LDH)
Sodium/Potassium ratio
Globulin
Albumin/globulin ratio
BUN/creatinine ratio

T4 and TSH Determination
From 10 males and females of F0 at sacrifice

Urinanalysis
At the end of the F0 dosing period and at the end of the F1 cohort 1 A dosing

Parameters: Volume, pH and specific gravity
Protein, Glucose, Bilirubin, Urobilinogen, Ketones, Haemoglobin, Nitrite
The deposit will be examined for the presence of the following parameters:
- Epithelial cells
- Leucocytes
- Erythrocytes
- Organisms
- Further constituents (i.e. sperm, casts)
- Crystalluria

Reproductive performance for F0 and 1B
Reproductive parameters
- Number of pregnant females
- Pre-coital time
- Gestation length calculated from day 0 of pregnancy
Implantation sites
- number per dam
- distribution in the uterine horns
- absolute number per group
- mean per group
Number of pups per group and per dam
- at birth (live and dead)
- on post-natal day 4
- on post-natal days 7, 14 and 21
Number of male and female pups per group and per dam
- at birth (alive and dead)
- on post-natal day 4
- on post-natal days 7, 14 and 21
Number of stillbirths
- per group
- per dam
Number of pups with malformations (see Appendix 4)
- per group
- per dam

Reproductive indices
For each group of the F0 females and the females of Cohort 1B the fertility index and the gestation index was determined:
Female Fertility Index [%] = (Number of pregnant rats / Number of rats paired with a male) x 100


The female fertility index reflects the total number of dams that had achieved pregnancy, including dams which delivered at term, aborted or had fully resorbed litters.

Gestation Index [%] = (Number of dams with live pups) / Number of pregnant rats) x 100


For each litter and group the following indices were determined for the F0 females and the females of Cohort 1B:
Birth Index [%] = (Total number of pups born (alive + dead) / Number of implantation scars) x 100


Live Birth Index [%] = (Number of pups alive on PND 0/1 / Total number of pups (alive + dead)) x 100


Viability Index [%] pre-cull = (Number of pups alive on PND 4 (pre cull) / Number of pups alive on PND 0/1) x 100


Post-implantation loss [%] = (Implantations - number of pups born alive / Implantations) x 100


Viability Index [%] post cull =(Number of pups alive on PND 21 / Number of pups alive on PND 4 (post cull)) x 100
 

Oestrous cyclicity (parental animals):

Vaginal smears were taken and the stages of the estrous cycle were determined on the following time points.
F0 animals 14-day pre-exposure period to select 96 animals with regular oestrus cycles (4-5 days)
During 2 weeks of premating until evidence of mating.
F1 animals, cohort 1A Start after onset of vaginal patency until first appearance of cornified cells and two weeks starting around PND 75.
F1 animals, cohort 1 B starting from the time of paining until mating evidence is detected.
F0 and F1 animals On the day of sacrifice, Shortly before necropsy.

Sperm parameters (parental animals):

All F0 males and all F1 Cohort 1A males:
One epididymis and one testicle were used for the sperm count. The sperm viability was determined and the sperm morphology was examined according
to the method described by I. Chahoud and R. Franz (1993) as well as by S. Plassmann and H. Urwyler (2001).
Additionally, from each F0 male animal one drop of sperm was collected and preserved in an Eppendorf tube with 500 μL of 2.5% glutaraldehyde11.

Litter observations:

Examinations of F1 Pups
As soon as possible after delivery, each litter was examined to establish the number and sex of pups, stillbirths, live births, runts (pups were considered as runts if their weight was less than 70% of the mean litter weight) and the presence of gross abnormalities. Any abnormal behaviour of the offspring would have been recorded. However, no abnormal behaviour was noted for the pups.
The following examinations/observations were done for the offspring.

Counting, sexing, weighing
Live pups were counted, sexed and weighed on post-natal days (PND) 1, 4, 7, 14 and 21.

Ano-genital distance
On PND 4 before litter adjustment the ano-genital distance (AGD) of all pups was determined using a scale.

Litter adjustment on PND 4
After counting on PND 4, the litters were adjusted to 10 pups per litter (5 pups per sex and litter) by eliminating (culling) surplus pups using a randomization scheme generated by Provantis®. Selective elimination of pups e.g. based upon body weight is not appropriate and was not performed. In case of unequal gender distribution, a partial litter size adjustment was performed (e.g. 6 male and 4 female pups).

Blood sampling for thyroid hormone determination
On PND 4 (determination of T4) and on PND 22 (determination of T4 and TSH) blood samples for thyroid hormone level determination were taken from 2 selected pups per litter, if possible from one male and one female pup.
On PND 4 the culled surplus pups were used for blood collection and on PND 22 those pups were used which were not selected for the cohorts of the F1 Generation.

Nipples/areolae counting
Nipples/areolae were counted in all male pups on PND 13.
 
Sexual maturation
All F1 Pups that were selected for the Cohorts of the F1 Generation were evaluated daily for balano-preputial separation or vaginal opening before expected achievement of these endpoints to detect if sexual maturation occurred early. Any abnormalities of the genitals were recorded.
Sexual maturity of the F1 animals was compared to physical development. The body weight of the animals at the time point of balano-preputial separation or vaginal opening was recorded.

Postmortem examinations (parental animals):

Gross necropsy (see table Necropsy Schedule in "Any other information on methods")
For adult F0 and F1 animals a vaginal smear taken on the day of sacrifice, shortly before necropsy, was examined to determine the stage of the estrous cycle and allow correlation with the histopathology of the female reproductive organs.
The female animals were euthanized by carbon dioxide (CO2) inhalation, the male animals were euthanized under ether narcosis to guarantee best possible results for sperm analysis. Immediately thereafter, the animals were exsanguinated by cutting the aorta addominalis and weighed as scheduled.

Dissection
At the time of sacrifice or premature death during the study, the adult animals were examined macroscopically for any abnormalities or pathological changes. Special attention was paid to the organs of the reproductive system.
During necropsy the number of implantation sites was recorded in the female animals.
Apparently non-pregnant uteri were placed in a 10% aqueous solution of ammonium sulfide for about 10 minutes to stain possible implantation sites in the endometrium according to SALEWSKI
All superficial tissues were examined visually and by palpation and the cranial roof removed to allow observation of the brain, pituitary gland and cranial nerves. After ventral midline incision and skin reflection all subcutaneous tissues were examined. The condition to the thoracic viscera was noted with due attention to the thymus, lymph nodes and heart.
The abdominal viscera were examined before and after removal; the urinary bladder was examined externally and by palpation. The gastro-intestinal tract was examined as a whole and the stomach and the caecum were incised and examined. The lungs were removed and all pleural surfaces were examined under suitable illumination.
The liver and the kidneys were examined. Any abnormalities in the appearance and size of the gonads, adrenals, uterus, intra-abdominal lymph nodes and accessory reproductive organs were recorded.
The weights of the organs listed below were weighed from all male and female animals of the F0 Generation and the Cohort 1A. With the exception of the thyroid weight (determined after fixation), all organs were weighed before fixation. Paired organs were weighed individually and identified as left or right.

Organ weights
Adrenal gland (2)
Ovary (2)
Brain
Spleen
Epididymis (2)
Testicle (2)
Heart
Thyroid (fixed)
Kidney (2)
Thymus
Liver
As a whole: prostate, seminal vesicles with coagulating glands
Lymph node (1, cervical)#
Pituitary
Lymph node (1, mesenteric)#
Uterus including cervix

HISTOPATHOLOGY

Full histopathology was performed on the preserved organs of:
• F0 animals: groups 1 and 4
• F1 animals: groups 1 and 4 of Cohort 1A
• all deceased or prematurely sacrificed animals
Histopathology of the following organs:
Fixative: Davidson’s solution
Eye with optic nerve (2)
Fixative: modified Davidson’s solution
Epididymis (1)#
Testicle (1)#
Fixative: 7% buffered formalin
Adrenal gland (2)
Oesophagus
Bone
Ovary and oviduct (2)
Bone marrow (os femoris)
Pituitary
Brain (cerebrum, cerebellum, pons)
Prostate
Gross lesions observed
Seminal vesicles with coagulating glands
Heart (3 levels: right and left ventricle,septum)
Spinal cord (3 sections)
Intestine, small (duodenum, jejunum, ileum, including Peyer’s patches, Swiss roll method)
Spleen##
Intestine, large (colon, rectum)
Stomach
Kidney and ureter (2)
Thyroid (including parathyroids)
Liver
Thymus
Lungs (with mainstem bronchi and bronchioles), preserved by inflation with fixative and then immersion
Trachea (including larynx)
Lymph node (1, cervical)
Urinary bladder
Lymph node (1, mesenteric)
Uterus (including cervix)
Mammary gland
Vagina
Muscle (skeletal)
Vas deferens
Nerve (sciatic)

Histopathological evaluation
The preserved organs/tissues, labelled with study number, species, and animal number, were shipped on 29 October 2019 to the Test Site for histopathology (see section 2.6) following advance notice.
The histotechnique and the histopathological examination is performed at the Test Site under the responsibility of the PIs according to all relevant AnaPath SOPs.
All observations upon final assessment will be reported per animal and the findings considered relevant for the treatment in an incidence and occurrence table. All microscopic findings are recorded, reported and archived with the PathData system version 6.2e2.
The report of this phase of the study comprises a description of objective, materials and methods, results (including results of macroscopic and microscopic changes) and conclusions. The unaudited Draft Phase Report will be presented electronically to the Study Director for comments/review. Comments will be addressed and the Draft Final Phase Report of the histopathology phase of the study will be presented to the TSQAU for auditing.
The audited Draft Final Phase Report of the histopathology phase of the study will be sent electronically to the Study Director who will provide documented approval on the contents of the Phase Report by e-mail to the Principal Investigator. An original of the final, signed Phase Report will be sent (on paper and electronically) to the Study Director; a copy will be archived by AnaPath Services GmbH.
The AnaPath Phase Report will be given in Appendix 7 'Histopathological Phase Report' of the final LPT Study Report No. 37260.


Bone marrow
During dissection fresh bone marrow was obtained from the os femoris (3 airdried smears / animal) form 10 male and 10 female animals from all groups of the F0 Generation and the F1 Generation Cohort 1A animals and stained according to PAPPENHEIM. The same animals were used as those that were selected for the laboratory examinations and the hormone level determinations.
The myeloid:erythroid ratio was determined from animals of groups 1 and 4 by cell differentiation (counting of 200 nuclei-containing cells).
Following a randomization scheme, the animals were euthanized by carbon dioxide (CO2) inhalation and exsanguinated by cutting the aorta abdominalis.

Phenotypic analysis of spleen cells
After weighing at necropsy, the spleen of the selected Cohort 1A animals was split in 2 parts (see Text table 4-5. The part of the spleen not preserved for histopathololgy (histopathology of the spleen was only performed for Cohort 1A) was minced using a mechanic dissociator to prepare single cell suspensions.
The prepared spleen samples were used for the determination of the following lymphocyte subpopulations via flow cytometry using the MACSQuant®Analyzer 10 :
- CD4+ T-Lymphocytes helper T cells
- CD8+ T-Lymphocytes suppressor / cytotoxic T cells
- Pan T-Lymphocytes (CD3+) T cells
- B-Lymphocytes (CD45RA+) B cells
- Natural killer cells (CD161+) NK cells

Evaluation was performed by LPT.

Postmortem examinations (offspring):

Gross necropsy (see table Necropsy Schedule in attachment)

Dissection

The weights of the following organs of all adult F0 and F1 cohort 1A animals were determined before fixation, where applicable. Thyroid weight was determined after fixation. Paired organs were weighed individually and identified as left or right.

Organ weights
Adrenal gland (2)
Ovary (2)
Brain
Spleen
Epididymis (2)
Testicle (2)
Heart
Thyroid (fixed)
Kidney (2)
Thymus
Liver
As a whole: prostate, seminal vesicles with coagulating glands
Lymph node (1, cervical)#
Pituitary
Lymph node (1, mesenteric)#
Uterus including cervix

HISTOPATHOLOGY

Full histopathology was performed on the preserved organs of:
• F0 animals: groups 1 and 4
• F1 animals: groups 1 and 4 of Cohort 1A
• all deceased or prematurely sacrificed animals
Histopathology of the following organs:
Fixative: Davidson’s solution
Eye with optic nerve (2)
Fixative: modified Davidson’s solution
Epididymis (1)#
Testicle (1)#
Fixative: 7% buffered formalin
Adrenal gland (2)
Oesophagus
Bone
Ovary and oviduct (2)
Bone marrow (os femoris)
Pituitary
Brain (cerebrum, cerebellum, pons)
Prostate
Gross lesions observed
Seminal vesicles with coagulating glands
Heart (3 levels: right and left ventricle,septum)
Spinal cord (3 sections)
Intestine, small (duodenum, jejunum, ileum, including Peyer’s patches, Swiss roll method)
Spleen##
Intestine, large (colon, rectum)
Stomach
Kidney and ureter (2)
Thyroid (including parathyroids)
Liver
Thymus
Lungs (with mainstem bronchi and bronchioles), preserved by inflation with fixative and then immersion
Trachea (including larynx)
Lymph node (1, cervical)###
Urinary bladder
Lymph node (1, mesenteric)###
Uterus (including cervix)
Mammary gland
Vagina
Muscle (skeletal)
Vas deferens
Nerve (sciatic)

F1 Cohort 1B animals
Determination of organ weight and preservation of the F1 Cohort 1B animals
Endocrine system:
Pituitary
Reproductive system:
Epididymis (2)
Testicle (2)
Ovary and oviduct (2)
Uterus (including cervix)
Prostate
Vagina#
Seminal vesicles with coagulating glands
Target organs:
Liver
Spleen
In case of test item-related changes in group 4, the Sponsor was given sufficient notice before the corresponding organs of the F0 and F1 Cohort 1A of the intermediate and the low dose level groups are sectioned and examined histopathologically.

Statistics:

Parametrical data
The statistical evaluation of the parametrical values was done by Provantis (Provantis® integrated preclinical software, version 10.2.1, Instem LSS Ltd) using the following settings:
Homogeneity of variances and normality of distribution were tested using the BARTLETT’s and SHAPIRO-WILK’s test. In case of heterogeneity and/or non-normality of distribution, stepwise transformation of the values into logarithmic or rank values was performed prior to ANOVA. If the ANOVA yielded a significant effect (p ≤ 0.05), intergroup comparisons with the control group were made by the DUNNETT’s test (p ≤ 0.01 and p ≤ 0.05) (see the decision tree on the following page).

Non-parametrical data
The statistical evaluation of non-parametrical values was done with the following software:
Bone marrow: statistical evaluation of the myeloid / erythroid ratio using the Chi2 test with StatXact 4.0.1 software.

Histopathology data
The statistical methods that were used in the Histopathology Report (e.g. for the quantitative evaluation of ovary follicles and corpora lutea) are described in the Histopathology Report.

Significantly different data are indicated in the summary tables of the result sections (Sections 7 to 9) and the result tables in the tables section (Section 12) of this report.
The mean values and standard deviations were calculated to the highest possible degree of accuracy and then rounded to the reported number of decimal places. Hence, deviations to the last decimal place of up to ± 1 may occur caused by rounding.

Reproductive indices:

Gestation Index, Female Fertility Index, Birth index, Live birth index

Offspring viability indices:

Birth Index, Live Birth Index, Viability Birth Index, Post Implantation loss

Results and discussion

Results: P0 (first parental generation)

General toxicity (P0)

Clinical signs:

no effects observed

Description (incidence and severity):

Males and females
No test item-related changes in behaviour, external appearance or the faeces were noted for the male and female animals of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
The male animal no. 107 dosed with 50 mg test item/kg b.w./day was noted with piloerection on TD 67 to TD 71 and with breathing sounds on TD 67 and TD 68.
In the high dose group (150 mg test item/kg b.w./day), the female animal no. 183 displayed piloerection from GD 8 until LD 18. Furthermore, the female animal no. 177 was noted with breathing sounds on LD 4 to LD 8. However, as only one animal displayed piloerection or breathing sounds, piloerection and breathing sounds were considered to be spontaneous and not test item-related.

Dermal irritation (if dermal study):

not examined

Mortality:

mortality observed, non-treatment-related

Description (incidence):

No premature death was noted in the control group and in the intermediate and high dose groups (50 or 150 mg test item/kg b.w./day) for the male and female animals.
In the low dose group (15 mg test item/kg b.w./day), the female animal no. 78 was found dead in the morning of LD 13. Necropsy revealed dark red discoloured lungs and the thorax being filled with clear liquid. The single occurrence of one prematurely deceased low dose animal was considered to be due to a misgavage and not test item-related.

Body weight and weight changes:

effects observed, treatment-related

Description (incidence and severity):

Males:
Pre-mating-, mating- and post-mating period:
No test item-related changes in body weight and body weight gain were noted for the male animals between the control group and the low and intermediate dose groups (15 or 50 mg test item/kg b.w./day). In the high dose group (150 mg test item/kg b.w./day), the body weight and also the body weight gain were decreased from TD 22 until termination of the male F0 animals on TD 85 or TD 86 (at maximum 9.1% below the value of the control group on TD 71, statistically significant at p ≤ 0.01). The distinctly and constantly decreased body weight for the male animals of the high dose group was considered to be test item-related and was considered as a sign of general toxicity.

Females:
Pre-mating, gestation and lactation period
No differences in body weight and body weight gain were noted between the female animals of the control group and the female animals of the treatment groups (15, 50 or 150 mg test item/kg b.w./day) during the pre-mating period.
However, a decreased body weight in comparison to the control group was noted for the high dose group (150 mg test item/kg b.w./day) between GD 7 and LD 14 (at maximum 11.5% below the value of the control group on LD 4, statistically significant at p ≤ 0.01 for all time points evaluated between GD 7 and LD 14). This constantly decreased body weight that was also noted for the male animals was considered to be test item-related and a sign of general toxicityd.

In accordance with the development of the body weight, the body weight gain was decreased during the gestation period for the female high dose animals. As the body weight of the high dose females recovered during the lactation period, the body weight gain of the high dose group was above the values of the control group.

Food consumption and compound intake (if feeding study):

effects observed, treatment-related

Description (incidence and severity):

Males
No test item-related difference in food consumption was noted between the control group and the low and intermediate dose group (15 or 50 mg test item/kg b.w./day).
In the high dose group (150 mg test item/kg b.w./day), a reduced food consumption was noted in the week between TD 15 and TD 22 and between TD 22 and TD 29 (7.3% and 6.7% below the value of the control group, statistically for both at p ≤ 0.01). This reduction of the food consumption was considered to be test item-related. No food intake of male animals was recorded during the mating period as both sexes were housed together.

Females:
Pre-mating, gestation and lactation period
No test item-related difference in food consumption was noted between the control group and the low and intermediate dose group (15 or 50 mg test item/kg b.w./day).
In the high dose group (150 mg test item/kg b.w./day), a decreased food consumption in comparison to the control group was noted starting in test week 3 (TD 15 to TD 22) until the first week of the lactation period (LD 1 to LD 7). The decrease was at maximum 13.5% below the value of the control group in the week of GD 7 to GD 14 (statistically significant at p ≤ 0.01 for all evaluated time points between TD 15 and LD 7). The constantly decreased food consumption that was also noted for the male animals was considered to be test item-related. No food intake of female animals was recorded during the mating period as both sexes were housed together.

Food efficiency:

not examined

Water consumption and compound intake (if drinking water study):

no effects observed

Description (incidence and severity):

Males and females
The water consumption for the male and female animals was monitored by visual appraisal. No influence on the water consumption was noted for any animal of the F0 generation.

Ophthalmological findings:

not examined

Haematological findings:

effects observed, non-treatment-related

Description (incidence and severity):

Males and females
No test item-related differences for the examined haematological parameters were noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
Statistically significant changes in comparison to the control group were noted at the intermediate dose males and for the male and female animals of the high dose group.
However, as the differences were only observed for one sex and/or no dose response-relationship was noted, the differences were considered to be spontaneous.

Clinical biochemistry findings:

effects observed, non-treatment-related

Description (incidence and severity):

General biochemical parameters
Males and females
No test item-related differences for the examined biochemical parameters were noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
Statistically significant changes in comparison to the control group were noted for the male animals of the intermediate dose group and for the male and female animals of the high dose group. However, these differences were considered to be spontaneous.

Thyroid hormone levels :
Males and females
No test item-related differences for the examined thyroid hormone levels (T4 and TSH) were noted between the females of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day) and for the male animals of the low and intermediate dose group.
A statistically significantly decreased T4 level in comparison to the control group was noted for the high dose males (34.6% below the value of the control group, statistically significant at p ≤ 0.01). As a dose-dependence relationship is present and also a decrease for the T4 levels was noted for the male animals of Cohort 1A the decreased T4 levels were considered to be a secondary effect due to observed vacuolisation in almost all organs

Urinalysis findings:

not examined

Behaviour (functional findings):

not examined

Immunological findings:

no effects observed

Organ weight findings including organ / body weight ratios:

effects observed, non-treatment-related

Histopathological findings: non-neoplastic:

effects observed, treatment-related

Description (incidence and severity):

Males and females
Histopathologic examination was conducted for the organs listed in Table 4-5 of the male and female animals of the control group and the high dose (150 mg test item/kg b.w./day). The examination revealed test item-related changes in form of vacuolation or vacuolar changes in smooth muscle cells/fibers of several organs.
The observed a vacuolation was already observed and examined in more depths in the LPT Study 34962 (OECD 408/ Repeated Dose 90-Day Oral Toxicity Study of 2,4,6-tris[(dimethylamino)methyl]phenol in Rats). In the latter study, electron microscopy was performed on selected organs and tissues. The cause of vacuolation at the doses 50 and 150 mg/kg/day was proven to be related to phospholipidosis. However, for the dose 15 mg/kg/day no vacuolation was observed. Due fact that the same concentrations were tested in the OECD 408 as well as in the OECD 443, the similar histopathology results in the present study at 150 mg/kg/day are deemed to represent phospholipidosis. The results of the dose 50 mg/kg/day in the OECD 443 are comparable to the ones for the treatment with 50 mg/kg/day in the OECD 408, which indicates that the observed effects are also related to phospholipidosis in this case. The doses 15 and 50 mg/kg/day have not been investigated histopathological in the present OECD 443. Since the doses 15 and 50 mg/kg/day were already examined in more depth in the OECD 408 and the examination of the doses 15 and 50 mg/kg/day were omitted for the OECD 443.

Histopathological findings: neoplastic:

no effects observed

Other effects:

no effects observed

Description (incidence and severity):

Bone marrow
Males and females
No test item-related differences for the myeloid/erythroid ratio of the bone marrow were noted between the control group and the high dose group (150 mg test item/kg b.w./day).

Reproductive function / performance (P0)

Reproductive function: oestrous cycle:

no effects observed

Description (incidence and severity):

Stage of estrous cycle at necropsy
During necropsy, a vaginal smear was taken for determination of the estrous stage from the female animals of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day). The stage of diestrus was the predominantly noted in groups 1 to 3. However, the numbers of female animals in the diestrus stage decreased and the number of animals in the estrus stage increased gradually from group 1 to 4. Thus, in group 4, the number of animals in the diestrous stage was equal to the number of animals in the estrous stage.
However, the numbers of female animals in the different estrous cycles differ from the numbers given in the histopathological phase report. This was due to different methods of evaluation (evaluation of a vaginal smear versus histopathological examination of the vagina).
The histopathologic evaluation of the vagina revealed similar numbers for the control group (4 animals in diestrus and 9 animals in lactational diestrus) and the high dose group (1 animal in diestrus and 10 animals in lactational diestrus). Therefore, the different numbers of animals in diestrus determined by evaluation of vaginal smears was considered to be spontaneous.

Reproductive function: sperm measures:

no effects observed

Description (incidence and severity):

Sperm number
No test item-related difference was noted between the rats of the control group and the rats treated with 15, 50 or 150 mg test item/kg b.w./day for the number of ultrasound-resistant sperm heads (sperm count) per gram testicular tissue.

Sperm motility
No test item-related differences were noted between the rats of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day) for the percentage of motile spermatozoa in the epididymal cauda on the total number of motile and non-motile spermatozoa.
A decrease was noted for the sperm motility of the high dose group (150 mg test item/kg b.w./day) (24.2% below the value of the control group, statistically significant at p ≤ 0.01). However, as no influence on the fertility and the reproductive performance was noted the decreased sperm motility was considered to be spontaneous and not test item-related. Furthermore, this observation did not recurrence in the Cohort 1A .

Sperm morphology
The examination of spermatozoa from the epididymal cauda revealed no increased number of spermatozoa with a malformation in the treatment groups (15, 50 or 150 mg test item/kg b.w./day) in comparison to the control group.
In detail, the examination of 200 spermatozoa per animal from each test group revealed 51 spermatozoa with a malformation in the control group, 32 in the low dose group, 31 in the intermediate dose group and 6 in the high dose group. In all cases, the observed malformation was in the form of a banana-like sperm head.

Reproductive performance:

no effects observed

Description (incidence and severity):

Female fertility
No test item-related influence on the fertility index of the female rats was noted for any of the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
One female of the low dose group (no. 93) and one female of the high dose group (no. 189) did not show a positive mating sign. Furthermore, one female animal of the low dose group (no. 82) and one female of the high dose group (no. 176) were not pregnant although a positive mating sign was noted. However, the occurrence of single not mated/non-pregnant females in the low and high dose group was considered to be spontaneous. A fertility index of 92 % is in the range of normal variability.

Gestation index
No test item-related influence on the gestation index was noted for the female rats of the treatment groups (15, 50 or 150 mg test item/kg b.w./day).

Pre-coital time
No test item-related differences were noted in the length of the pre-coital time between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
A statistically significantly decreased pre-coital time was noted for the animals of the intermediate dose group (39.0% below the value of the control group, statistically significant at p ≤ 0.05). However, a decreased pre-coital interval was considered to be not test item-related.

Gestation length
No test item-related differences were noted for the length of the gestation period between the rats of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).

Details on results (P0)

General toxicity
Parental male and female animals (F0 Generation)
No test item-related deaths of the animals were noted for any of the treatment groups.
No test item-related changes were noted for the behaviour, the external appearance or the faeces.
Reductions were noted for the body weight and body weight gain of the male high dose animals from TD 22 until sacrifice and for the female high dose animals from GD 7 until LD 14.
A decreased food consumption was noted for the male animals of the high dose group for all evaluated time points and for the female high dose animals from test week 3 until lactation week 1.
No test item-related influence was noted for the male and female animals drinking water consumption, the haematological and biochemical parameters, the levels of the thyroid hormones and the sperm parameter.
No test item-related changes were noted during the macroscopic examination, the examination of bone marrow and for the relative and absolute organ weights.

Reproductive toxicity
Parental females
No test item-related influence was noted on the length and numbers of the estrous cycles during the pre-mating period, the fertility index, the gestation index, the duration of the pre-coital time interval and the gestation period

Effect levels (P0)

Target system / organ toxicity (P0)

Results: P1 (second parental generation)

General toxicity (P1)

Clinical signs:

no effects observed

Description (incidence and severity):

Cohort 1A:
MALES and FEMALES
No test item-related changes in behaviour, the external appearance and the consistency of the faeces were noted for the male and female animals of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
Breathing sounds were noted for one male animal (no. 321) of the high dose group on 3 consecutive test days and salivation was noted for one female animal (no. 360) of the high dose group on 6 consecutive test days. As both observations were only noted for one animal each, these observations were considered to be spontaneous.

Cohort 1B:
MALES and FEMALES
No changes in behaviour, the external appearance were noted for the male and female animals of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
The female high dose animal no. 502 was noted with diarrhea on TD 59 and TD 60. However, the observation of diarrhea for two days for one animal was considered to be spontaneous.

Dermal irritation (if dermal study):

no effects observed

Mortality:

mortality observed, non-treatment-related

Description (incidence):

Cohort 1A:
No premature death was noted in the control group and in the treatment groups (15, 50 or 150 mg test item/kg b.w./day) for the male and female animals.

Cohort 1B:
MALES and FEMALES
In the low dose group (15 mg test item/kg b.w./day), the male animal no. 404 was found dead in the morning of TD 101. Necropsy revealed a dark-red discoloured and thickened liver and a reddened brain.
Furthermore, the male animal no. 457 dosed with 50 mg test item/kg b.w./day was found dead on TD 112. The post mortem examination revealed reddened cervical and mesenterial lymph nodes, reddened lungs and the thorax filled with clear liquid.
In the high dose group (150 mg test item/kg b.w./day), the female animal no. 510 was found dead on its lactation day 21. No pathologic changes were noted during macroscopic examination. Furthermore, the female animal no. 516 was found dead during its lactation day 16. During the external examination opacity of both eyes was noted. Also, necropsy revealed reddened lungs, thymus and cervical lymph node as well as a brownish discoloured uterus and ovaries and diffuse haemorrhagic foci in the stomach.
However, as no dose-response relationship was noted for the mortality of the male animals of Cohort 1B and necropsy revealed no common pathologic changes, the premature deaths were considered to be not test item-related.

Body weight and weight changes:

effects observed, treatment-related

Description (incidence and severity):

Cohort 1A:
MALES
Body weight:
No test item-related changes in body weight and body weight gain were noted for the male rats between the control group and the low and the intermediate dose group (15 or 50 mg test item/kg b.w./day).
A marginally to slightly reduced body weight (statistically not significant) was noted at the low and the intermediate dose level during the later course of the study until test day 70 (last reported live weight). At the low dose level the maximum difference to the control was noted on test day 70 (3.9% below the control) and at the intermediate dose level the maximum difference to control was noted on test day 64 (6.0% below the control). These marginal to slight differences were considered to be spontaneous.
At the high dose level (150 mg test item/kg b.w./day) a statistically significantly (p ≤ 0.05 or 0.01) reduced body weight was noted from test day 22 (8.9% below the value of the control group) onwards. The maximum difference was noted on test day 70 (last reported live weight) (13.8% below the control, statistically significant at p ≤ 0.01).
However, it has to be considered, that a slightly reduced body weight was already noted for the high dosed male animals at the start of the F1 Generation study on test day 1 (7.3% below the value of the control group, statistically not significant). Nevertheless, the increasing difference between the body weight of the high dosed animals and the control animals from test day 22 onwards was considered to be test item-related.

Body weight gain:
A slightly reduced body weight gain in comparison to the control group was noted for all treatment groups.
Though there was a more pronounced reduction in body weight at the high dose level on test day 70 as at the low and the intermediate dose level (see above), body weight gain at the high dose level was nearly the same as at the low and the intermediate dose level. This was due to the slightly reduced body weight that was already noted at the high dose level on test day 1 (7.3% below the control) in comparison to the low and the intermediate dose levels (3.4% or 4.7% above the control on test day 1).

FEMALES
Body weight
No differences in body weight and body weight gain were noted between the female animals of the control group and the female animals of the treatment groups (15, 50 or 150 mg/kg b.w./day). However, at the high dose level a constantly reduced body weight was noted from test day 1 (6.6% below the value of the control group, statistically not significant) until test day 66 (last reported live weight) (6.7% below the value of the control group, statistically significant at p ≤ 0.05). The maximal difference was noted on test day 8 (7.9% below the value of the control group, statistically significant at p ≤ 0.05).
As the reduced body weight of the high dosed animals was already noted on test day 1 and the difference remained at the same level during the course of the study, a test item-related influence on the body weight of the growing females could not be detected.

Body weight gain
No test item-related differences in body weight gain were noted. Body weight gain in the control group was the same as in the high dose group.

Cohort 1B
MALES
No test item-related changes in body weight and body weight gain were noted for the male rats between the control group and the low and intermediate dose groups (15 or 50 mg test item/kg b.w./day).
In the high dose group (150 mg test item/kg b.w./day), a reduced body weight was noted from TD 22 until the end of body weight recording TD 115 (at maximum 18.3% below the value of the control group on TD 99, statistically significant at p ≤ 0.01 for all time points between TD 22 and TD 113).
The body weight of the high dose group was already slightly decreased on TD 1 (5.8% below the value of the control group, statistically not significant). However, the body weight further decreased and did not recover throughout the whole examination period. Therefore, the reduced body weight was considered to be test item-related.
No differences in body weight gain were noted between the control group and the low and intermediate dose group (15 or 50 mg test item/kg b.w./day).
In the high dose group (150 mg test item/kg b.w./day), in accordance with the reduced body weight, also a reduction was noted for the body weight gain. Although also the percentages of the low and intermediate dose group are decreased, the absolute body weight gain shows the decrease only in the high dose group. Therefore, the decreased body weight gain in the high dose group was considered to be test item-related.

FEMALES
No differences in body weight and body weight gain were noted between the female animals of the control group and the female animals of the dose groups (15, 50 or 150 mg test item/kg b.w./day) during the pre-mating period. The weight of the high dose group on LD 1 was already decreased by 6.2% (statistically not significant) in comparison to the control group. During the pre-mating period, no further decrease was noted and the transiently statistically significant differences on TD 15 and TD 64 (6.9% or 6.6% below the value of the control group, statistically significant at p ≤ 0.05) were considered to be spontaneous.
During the gestation and lactation period, a more pronounced decrease in comparison to the control group was noted for the female animals of the high dose group from GD 0 until LD 14. In detail, between GD 0 and LD 14 the difference of the body weight between the high dose group and the control group ranged between -7.2% and -10.4% (statistically significant at p ≤ 0.05 or 0.01). Therefore, the decreased body weight was considered to be test item-related.
No influence on the body weight gain was noted for any of the dose groups.

Food consumption and compound intake (if feeding study):

effects observed, treatment-related

Description (incidence and severity):

Cohort 1A
MALES
No test item-related difference in food consumption was noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
A slightly but statistically significantly increased food consumption was noted at the intermediate dose level between test days 1 to 8 (4.8% below the value of the control group, statistically significant at p ≤ 0.05) and at the high dose level between test days 1 to 8 and test days 36 to 43 (8.2% or 5.2% below the value of the control group, statistically significant at p ≤ 0.01 or 0.05) (see figure 3 Co1A below). These slight and transient differences were considered to be spontaneous.

FEMALES
No test item-related difference in food consumption was noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
A slightly but statistically significantly increased food consumption was noted at the high dose level between test days 1 to 8 (8.4% above the value of the control group, statistically significant at p ≤ 0.01). These slight and transient difference was considered to be spontaneous.

Cohort 1B
MALES
No test item-related difference in food consumption was noted between the control group and the treatment groups (15 or 50 mg test item/kg b.w./day). The transiently statistically significantly decreased food consumption between TD 8 and TD 22 for the intermediate dose group (5.3% or 4.3% below the value of the control group, for both p ≤ 0.05) were considered to be spontaneous.
In the high dose group (150 mg test item/kg b.w./day), a decreased food consumption was noted between TD 64 and TD 71 (6.4% below the value of the control group, statistically significant at p ≤ 0.01). As a decreased food consumption was already noted between TD 50 and TD 64 (4.0% or 3.3% below the value of the control group, statistically not significant), the decreased food consumption between TD 64 and TD 71 was considered to be test item-related.


FEMALES
No test item-related difference in food consumption was noted between the control group and the dose groups (15, 50 or 150 mg test item/kg b.w./day). No food intake of female animals was recorded during the mating period as both sexes were housed together. Statistically significant differences in food consumption which were considered to be not test item-related but spontaneous.

Food efficiency:

not examined

Water consumption and compound intake (if drinking water study):

not examined

Ophthalmological findings:

not examined

Haematological findings:

no effects observed

Description (incidence and severity):

Cohort 1A
MALES
No test item-related differences for the examined haematological parameters were noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
Statistically significantly increased numbers of white blood cells, lymphocytes and basophilic granulocytes were noted at the intermediate dose level. However, no dose response-relationship was noted.
Furthermore, the mean values of the white blood cells and the lymphocytes at the high dose level were nearly identical with the mean values of the LPT background data.
Finally, the individual values of all test groups were in the range of the LPT background data.
Values above the LPT background range were only noted for the number of basophilic granulocytes (see Appendix 5). However, the population of basophilic granulocytes is very small and the values from the individual animals showed a high variability (for example between 0.1 and 0.6 x 10³ cells/µL at the high dose level).
Taken together, the observed changes that were noted for the number of white blood cells, lymphocytes and basophilic granulocytes were considered to be spontaneous.

FEMALES
No test item-related differences for the examined haematological parameters were noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
Statistically significantly increased values were noted at the high dose level and / or the intermediate dose level for the number of white blood cells, lymphocytes, neutrophilic granulocytes, monocytes, large unstained cells and basophilic granulocytes.
However, the increased values were considered to be spontaneous, due to the following reasons:
All individual values of the white blood cells and the lymphocytes from all test groups were in the range of the LPT background data.
The mean values at the high dose level for the number of white blood cells and lymphocytes were nearly identical with the mean values of the LPT background data, leading to the assumption, that the increased values at the high dose level were due to low values in the control group.
Mean values that were above the mean values of the LPT background data were only noted for the number of neutrophilic granulocytes, monocytes, large unstained cells and basophilic granulocytes (see Appendix 5). However, these populations are small and the individual values showed a high variability, which made a comparison with the LPT background data difficult. Due to these reasons the observed changes for these cell populations were considered to be spontaneous.

Clinical biochemistry findings:

effects observed, non-treatment-related

Description (incidence and severity):

Cohort 1A
MALES and FEMALES
No test item-related differences for the examined biochemical parameters were noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
However, slight but statistically significant differences in comparison to the control group were noted for the males and / or females at the low or the high dose group for the following parameters: albumin (males and females), protein (females), calcium (males and females) and potassium (females) concentrations, the sodium / potassium ratio (females) and the ALAT activity (females).
The observed differences were considered to be spontaneous due to the following reasons:
The differences were only slight and only noted for one sex (differences in the albumin concentration were noted for both sexes, but with different plus / minus signs).
Additionally, the statistically significant differences for the potassium concentration and the sodium / potassium ratio were noted at the low dose level and no dose response relationship was noted.
Finally, an increased ALAT activity is a sign of organ damage and a decreased ALAT activity, as noted in this study, cannot be explained by a toxicological mechanism and has to be considered as spontaneous.

Thyroid hormone levels
MALES
No test item-related differences for the examined thyroid hormone levels (T4 and TSH) were noted between the control group and the low and the intermediate dose group (15 or 50 mg test item/kg b.w./day).
A statistically significantly decreased T4 level in comparison to the control group was noted at the high dose level (150 mg test item/kg b.w./day) and statistically significantly increased TSH values were noted at the intermediate and the high dose level . As also the males of the F0 generation were noted with decreased T4 levels and also the females of Cohort 1A displayed increased levels for TSH. The differences in T4 and TSH levels of the male animals were considered to be a secondary effect. The slight (T4 and TSH) and dose independent (T4) changes in T4 or TSH cannot be considered due to a primary effect by the test item inducing hormonal dyshomeostasis but are secondary to morphological changes, i.e., degeneration of thyroid cells due to the phospholipidosis.

FEMALES
No test item-related differences for the examined thyroid hormone levels were noted between the control group and the dose groups (15, 50 or 150 mg test item/kg b.w./day).
An increased TSH level was noted at the high dose level (150 mg test item/kg b.w./day). The distinctly increased TSH levels in the high dose group were considered to be a secondary effect based on the observed vacuolisation of smooth muscle fibers in the arterial media in nearly all organs .test item-related. The increase in TSH can not be considered due to a primary effect by the test item inducing hormonal dyshomeostasis but as a secondary to morphological changes, i.e., degeneration of thyroid cells due to the phospholipidosis.

Urinalysis findings:

no effects observed

Description (incidence and severity):

Cohort 1A
MALES and FEMALES:
No test item-related differences for the examined urinalysis parameters were noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day) for the male and female animals.
A statistically significantly increased specific gravity, a decreased pH value and a decreased relative urine volume (statistically significant or not) in comparison to the control group were noted for the male animals of all treatment groups. However, no dose response-relationship was noted (the difference in comparison to the control was nearly equal for all treatment groups) and no statistically significant changes were noted for the female animals.
Hence, the changes that were observed for the male animals were most probably due to unusually high values at the control group and considered to be spontaneous.

Behaviour (functional findings):

not examined

Immunological findings:

no effects observed

Description (incidence and severity):

Cohort 1A
MALES and FEMALES
No test item-related influence was noted in the proportion of the examined lymphocyte subtypes to each other between the male and female animals of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).

Organ weight findings including organ / body weight ratios:

effects observed, non-treatment-related

Description (incidence and severity):

Cohort 1A
MALES and FEMALES
No primary toxic effect of the test item on the absolute and relative organ weights of the examined organs was noted for all treatment groups (15, 50 or 150 mg test item/kg b.w./day).
Statistically significant differences that were noted for different organs at the intermediate and the high dose level were considered to be secondary effects that were due to a decreased body weight at autopsy.
The nourishment of the organs is not given any longer, which results in an organ weight decrease. The histopathological observation did not show changes in sperm cells. Therefore, a primary effect on male reproductive organs was not considered. The same was considered for the effects in endocrine organs, i.e., the pituitary gland and adrenal glands. A primary affection of the endocrine system was excluded.

Cohort 1B:
MALES
Males
No test item-related differences for the examined absolute and relative organ weights were noted between the control group and the dose groups (15, 50 or 150 mg test item/kg b.w./day).
Statistically significant differences between the control group and the high dose group were considered to be not test item-related. The observed significant organ weight changes in the highest dose are considered to the decreased body weight at autopsy (-17,3%).
Histopathologic vacuolation of smooth muscle fibers and smooth muscle fibers in the arterial media in multiple organs e.g. male reproductive organs (epididymides, prostate glands, seminal vesicles) have been observed at 150 mg/kg/day. This accessory symptom of the phospholipidosis contributed also to the observed reduction of the absolute organ weights e.g. male reproductive organs. Due to the vacuolation of smooth muscle fibers in the arterial media the nourishment of the organs is not given any longer, which results in an organ weight decrease. The histopathological observation did not show changes in sperm cells. Therefore, a primary effect on male reproductive organs was not considered. The same was considered for the effects in endocrine organs, i.e., the pituitary gland and adrenal glands. A primary affection of the endocrine system was excluded.

FEMALES
No test item-related differences for the examined absolute and relative organ weights were noted between the control group and the dose groups (15, 50 or 150 mg test item/kg b.w./day).
In the high dose group, a statistically significant increase was noted for the relative liver weight (8.6% above the value of the control group, p ≤ 0.05). However, as no statistically significant difference was noted for the absolute liver weight the slightly higher relative weight was considered to be spontaneous.

Gross pathological findings:

no effects observed

Description (incidence and severity):

Males
No observations were noted in the control group and no test item-related observations were noted in the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
The following observations were considered to be spontaneous:
Group 2:
The right testis of male no. 259 was absent.
Group 3:
The right testis of male no. 281 was absent.
The left and the right kidney of male no. 299 were enlarged and pale.
Group 4:
A yellowish discoloured left and right kidney and multiple foci at the stomach mucosa (fundus region) were noted for male no. 329.
The right seminal vesicle of male no. 340 was reduced in size.



Females
No test item-related observations were noted in the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
The following observations were considered to be spontaneous:
Group 1:
The uterus of female no. 226 was dilated and filled with clear liquid.
Group 2:
The uterus of female no. 266 was dilated and filled with clear liquid.
The uterus of female no. 269 was dilated and filled with clear liquid.
The left and the right kidney of female no. 271 were yellowish discoloured.
A solid tissue enlargement (approx.. 2 x 2 5 mm) in the right uterus horn was noted for female no. 273.
The uterus of female no. 276 was dilated and filled with clear liquid.


Group 3:
The mandibular lymph node and the right and the left adrenal gland of female no. 305 were enlarged.
The uterus of female no. 313 was dilated.
The left and the right kidney of female no. 319 were enlarged and yellowish discoloured.
Group 4:
A left thyroid that was reduced in size and an enlarged right thyroid were noted for female no. 343.
An eschar formation was noted at neck of animal no. 345.
An enlarged and yellowish discoloured left and right kidney was noted for animal no. 353.


Cohort 1B
MALES
The macroscopic findings that were noted during necropsy are listed below.
Macroscopic post mortem findings noted during necropsy.
Macroscopic post mortem findings
Group Animal no. Observation
Group 1
Control 365 Spleen: - enlarged
Kidney (l.): - enlarged (approx. 60 x 40 x 40 mm in diameter, 49.7 g)
- dark-red, beige discoloured
- soft consistency

368 Testis (l.): - reduced in size
Group 2
15 mg/kg 404 Liver: - dark-red discoloured
Brain: - reddened

441 Testis (l. + r.): - reduced in size
Epididymis (l. + r.): - reduced in size

Group 3
50 mg/kg 441 Testis (r.): - absent
457 Lymph node (cerv.): - reddened
Lymph node (mes.): - reddened
Lungs: - reddened
Thorax: - filled with clear and colourless liquid (3 mL)
Group 4
150 mg/kg - no pathological findings were noted

However, as also pathologic changes were noted for the control group and the findings were only single occurrences, the findings were considered to be not test item-related.

FEMALES
Females
No test item-related observations were noted for the female animals of the dose groups (15, 50 or 150 mg test item/kg b.w./day).
The following isolated observations were considered to be spontaneous:
Group 2: Kidney (l. + r.) enlarged (no. 434)
Group 4: Uterus: dilatation (no. 503)
In addition the prematurely deceased high dose animal no. 516 was noted the cervical lymph node, the lungs and the thymus being reddened, a brownish discoloured uterus, the ovaries partly brownish discoloured and diffusely distributed hemorrhagic foci in the stomach

Neuropathological findings:

not examined

Histopathological findings: non-neoplastic:

effects observed, treatment-related

Description (incidence and severity):

Cohort 1A
Histopathologic examination was conducted for the organs listed in Table 4-5 of the male and female animals of the control group and the high dose (150 mg test item/kg b.w./day).
The histopathological examination of the organs of male and female organs of the control group and the high dose group (150 mg test item/kg b.w./day) revealed vacuolation or vacuolic changes in the smooth muscle cells of almost all organs (see Appendix 7) leading to inflammatory cell infiltration in the liver. The observed vacuolation was already seen and examined in more depths in the LPT Study 34962 (OECD 408/ Repeated Dose 90-Day Oral Toxicity Study of 2,4,6-tris[(dimethylamino)methyl]phenol in Rats). In the latter study, electron microscopy was performed on selected organs and tissues. The cause of vacuolation at the doses 50 and 150 mg/kg/day was proven to be related to phospholipidosis. Therefore, the similar histopathology results in the present study at 150 mg/kg/day are deemed to represent phospholipidosis. However, for the dose 15 mg/kg/day no vacuolation was observed. Due fact that the same concentrations were tested in the OECD 408 as well as in the OECD 443, the similar histopathology results in the present study at 150 mg/kg/day are deemed to represent phospholipidosis. The results of the dose 50 mg/kg/day in the OECD 443 are comparable to the ones for the treatment with 50 mg/kg/day in the OECD 408, which indicates that the observed effects are also related to phospholipidosis in this case. The doses 15 and 50 mg/kg/day have not been investigated histopathological in the present OECD 443. Since the doses 15 and 50 mg/kg/day were already examined in more depth in the OECD 408 and the examination of the doses 15 and 50 mg/kg/day were omitted for the OECD 443.

Histopathological findings: neoplastic:

no effects observed

Other effects:

no effects observed

Description (incidence and severity):

Cohort 1A
Bone marrow:
No test item-related differences for the myeloid/erythroid ratio of the bone marrow were noted between the control group and the high dose group (150 mg test item/kg b.w./day) in males and females.

Details on results:

Cohort 1A
This part of LPT Study 37260 reports the effects of the test item on the development of the F1 male and female animals of cohort 1A after weaning on lactation day 21 until necropsy. The F1 Generation animals were dosed with the same levels as the animals of the F0 Generation. (15, 50 or 150 mg test item/kg b.w./day). Dosing started immediately after weaning and lasted until one day before necropsy.
None of the animals of cohort 1A died prematurely.
No test item-related changes were noted in behaviour, the external appearance and the consistency of the faeces.
A slightly reduced body weight was noted for the male animals at 150 mg test item/kg b.w./day, whereas no influence was noted on the body weight of the females.
No influence was noted on food consumption, the haematological and biochemical parameters, lymphocyte typing in the spleen, urinalysis, the sperm parameter and sexual maturation.
Increased levels of TSH were noted for the male and female high dose animals and a decrease was noted for the T4 levels of the male animals of the high dose group. The slight and dose independent changes in T4 or TSH cannot be considered due to a primary effect by the test item inducing hormonal dyshomeostasis but are secondary to morphological changes, i.e., degeneration of thyroid cells due to the phospholipidosis.
No test item-related changes were noted during the macroscopic examination, the examination of bone marrow and for the relative and absolute organ weights.

Cohort 1B
This part of LPT Study 37260 reports the effects of the test item on the reproductive performance of the F1 male and female animals of Cohort 1B, including the postnatal development of the F2 generation pups until postnatal day 21.
General toxicity
Parental male and female animals (F1 Generation)
No test item-related premature deaths were noted in the dose groups.
No changes were noted in behaviour, the external appearance and the consistency of the faeces.
A test item-related decrease was noted for the body weight of the male and female animals of the high dose group.
No test item-related changes were noted for the food consumption.
The body weight at autopsy was decreased for the male animals of the high dose group.
No test item-related changes were noted during the macroscopic examination at necropsy and for the relative and absolute organ weights.

Reproductive function / performance (P1)

Reproductive function: oestrous cycle:

no effects observed

Description (incidence and severity):

Cohort 1A
The stages of the estrous cycle of the cohort 1A animals were monitored on 14 test days between test days 50 and 63.
No test item-related differences were noted for the mean length and the mean number of estrous cycles per female animal between the females of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
Text Table 8 11: Mean length and mean number of estrous cycles.
Parameter Group 1 Group 2 Group 3 Group 4
Control 15 mg/kg 50 mg/kg 150 mg/kg
Evaluation period: test days 50 to 63
Mean cycle length (days) 4.25 4.42 4.42 4.49
Number of cycles 1.8 1.8 1.9 1.8


Cohort 1B
The stage of the estrous cycle was determined on every day of the mating period until the day before sperm detection.
No signs of impaired mating behaviour was noted for any animal of the dose groups (15, 50 or 150 mg test item/kg b.w./day). The stage of diestrus (D) was commonly noted for all female animals and only a few stages of metestrus (M), estrus (E) or proestrus (P). The stages of estrus and proestrus were followed by a positive mating sign on the next day.

Estrous cycle data - Mating Period
The stage of the estrous cycle was determined on every day of the mating period until the day before sperm detection.
No signs of impaired mating behaviour was noted for any animal of the dose groups (15, 50 or 150 mg test item/kg b.w./day). The stage of diestrus (D) was commonly noted for all female animals and only a few stages of metestrus (M), estrus (E) or proestrus (P). The stages of estrus and proestrus were followed by a positive mating sign on the next day.

Reproductive function: sperm measures:

no effects observed

Description (incidence and severity):

Cohort 1A
Sperm number
No test item-related difference was noted between the rats of the control group and the rats treated with 15, 50 or 150 mg test item/kg b.w./day for the number of ultrasound-resistant sperm heads (sperm count) per gram testicular tissue.

Sperm motility
No test item-related differences were noted between the rats of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day) for the percentage of motile spermatozoa in the epididymal cauda on the total number of motile and non-motile spermatozoa.
A slightly increased number of motile spermatozoa was noted at the intermediate dose level (76.9% motile spermatozoa in comparison to 64.0% in the control group, statistically significant at p ≤ 0.05). However, an increased number of motile spermatozoa is not an adverse effect. Hence, this observation was considered to be spontaneous.

Sperm morphology
The examination of spermatozoa from the epididymal cauda revealed no increased number of spermatozoa with a malformation in the treatment groups (15, 50 or 150 mg test item/kg b.w./day) in comparison to the control group.
In detail, the examination of 4000 spermatozoa (200 per animal) from each test group (only 3800 spermatozoa were evaluated at the high dose level, as no evaluable sperms were available from male no. 323) revealed one malformation at the control group, the low and the intermediate dose group. No malformed spermatozoa was noted at the high dose level.

Reproductive performance:

no effects observed

Description (incidence and severity):

Cohort 1B
Female fertility
No test item-related influence on the fertility index of the female rats was noted for any of the treatment groups (15, 50 or 150 mg test item/kg b.w./day).
The fertility indices of the test groups (ratio of pregnant females and females with positive mating sign) ranged between 90% and 100%.

Gestation index
No test item-related influence on the gestation index was noted for the female rats of the treatment groups (15, 50 or 150 mg test item/kg b.w./day). All pregnant female animals delivered live pups.

Pre-coital time
No test item-related differences were noted in the length of the pre-coital time between the control group and the dose groups (15, 50 or 150 mg test item/kg b.w./day).
One female with an increased pre-coital time of 14 test days was noted in the control group, three females with a pre-coital time of 11 to 14 days in the low dose group and two females with an increased pre-coital time of 11 or 14 test days were noted in the intermediate dose group. In consequence due to the increased pre-coital time of the control group, a decreased pre-coital time (30.9% below the value of the control group, statistically not significant) was noted for the high dose group (low dose group: 17.6% above the value of the control group, intermediate dose group: 7.4% below the value of the control group). However, the observation of 3 females with an elongated pre-coital time in the low dose group was considered to be spontaneous, as also one female with an elongated pre-coital time was noted in the control group and none in the high dose group. Hence, also the decreased pre-coital time noted in the high dose group was considered to be not test item-related but spontaneous.

Gestation length
No test item-related differences were noted for the length of the gestation period between the rats of the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).

Details on results (P1)

Parental females
No influence was noted on the fertility index of the females, the gestation index, the duration of the pre-coital time interval and the gestation period.

Effect levels (P1)

Target system / organ toxicity (P1)

Results: F1 generation

General toxicity (F1)

Clinical signs:

no effects observed

Dermal irritation (if dermal study):

not examined

Mortality / viability:

mortality observed, non-treatment-related

Description (incidence and severity):

Number of live pups
No test item-related or statistically significant differences were noted for the mean number of live pups per dam between the control group and the treatment groups (15 or 50 mg test item/kg b.w./day) on LD 4 before culling.
In the high dose group (150 mg test item/kg b.w./day), a reduced number of live pups was noted on LD 4 (17.8% below the value of the control group (statistically significant at p ≤ 0.01). This was due to the reduced number of live born pups and was considered to be a secondary effect due to the vacuolisation of the smooth muscle cells in the arterial media of the uterus, which lead to insufficient nourishment.
However, as no influence was noted on the viability of the pups in the dose groups, after culling, no difference was noted for the number of live pups at the end of the lactation period on LD 21.

Viability index
Pre- and post-cull period
No test item-related differences between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day) were noted for the viability indices of the pre- and the post-cull period.

Body weight and weight changes:

effects observed, non-treatment-related

Description (incidence and severity):

No test item-related influence on the body weight of pups was noted for the dose groups (15, 50 or 150 mg test item/kg b.w./day).
In the high dose group, decreased body weights were noted for the male and female pups on LD 7 and LD 14 (at maximum 12.8% below the value of the control group for the male pups and the male and female pups combined on LD 14, statistically significant at p ≤ 0.01). However, on LD 21, the body weight recovered and was only between 5.0% and 5.3% below the values of the control group. Therefore, the temporary decreased pup body weight in the high dose group was considered to be not test item-related.

Food consumption and compound intake (if feeding study):

not examined

Food efficiency:

not examined

Water consumption and compound intake (if drinking water study):

not examined

Ophthalmological findings:

not examined

Haematological findings:

not examined

Clinical biochemistry findings:

effects observed, non-treatment-related

Description (incidence and severity):

Thyroid hormone
No test item-related differences between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day) were noted for the T4 level on LD 4 and no statistically significant differences were noted for the TSH levels on LD 22.
For the T4 levels on LD 22 however, a statistically significant increase was noted for the intermediate and high dose group (13.1% or 12.4% above the value of the control group for the male and female pups combined, statistically significant at p ≤ 0.01) (see figure 10 on the following page). However, as no dose response-relationship was present the increased T4 levels on LD 22 were considered to be not test item-related.

Urinalysis findings:

not examined

Sexual maturation:

no effects observed

Description (incidence and severity):

for more infromation please refere to P1.

Anogenital distance (AGD):

no effects observed

Description (incidence and severity):

No test item-related difference in the absolute and the relative ano-genital distance (value normalized to cube root of pup body weight) of the male and the female pups was noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).

Nipple retention in male pups:

no effects observed

Description (incidence and severity):

No test item-related difference in the number of nipples was noted between the male pups of the control group and in the male pups of the treatment groups (15, 50 or 150 mg test item/kg b.w./day).

Organ weight findings including organ / body weight ratios:

no effects observed

Description (incidence and severity):

Cohort 1A
No test item-related differences for the examined absolute organ weights were noted between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).

Gross pathological findings:

no effects observed

Description (incidence and severity):

External examination (pups terminally sacrificed on LD 4 or LD 22 or found dead):
No gross abnormalities (e.g. malformations or variations) were noted during the macroscopic external examination of the control pups and the pups from the dams treated with 15, 50 or 150 mg test item/kg b.w./day after terminal sacrifice on lactation day 4 (culled pups), on lactation day 22 or for the pups that died (stillborn or found dead) during the lactation period.

Internal examination (pups terminally sacrificed on lactation day 22):
No malformations were noted during the macroscopic examination of the inner organs and tissues of the control pups and the pups of the dose groups (15, 50 or 150 mg test item/kg b.w./day).
Variations in form of enlarged spleens were noted for the pups of the control group (5 pups of 3 litters), for pups of the low dose group (6 pups of 4 litters), the intermediate dose group (5 pups of 2 litters) and the high dose group (2 pups of 1 litter).

Macroscopic Examination of the Inner Organs
Group Dam no. Pup no. Observation
Group 1
(Control) 29 2m Spleen: -enlarged
3m Spleen: -mildly enlarged
9f Spleen: -enlarged
32 4m Spleen: -mildly enlarged
33 3m Spleen: -mildly enlarged
Group 2
(15 mg/kg) 79 8m Spleen: -enlarged
17f Spleen: -mildly enlarged
86 11f Spleen: -enlarged
89 14f Spleen: -mildly enlarged
94 1m Spleen: -mildly enlarged
9f Spleen: -mildly enlarged
Group 3
(50 mg/kg) 127 2m Spleen: -mildly enlarged
3m Spleen: -enlarged
6m Spleen: -enlarged
9f Spleen: -enlarged
129 6m Spleen: -mildly enlarged
Group 4
(150 mg/kg) 178 5m Spleen: -mildly enlarged
9f Spleen: -mildly enlarged
(m: male; f: female)
However, as also the pups of the control dams displayed an enlarged spleen, the observations of the spleen being enlarged was considered to be not test item-related. Also, no difference was noted for the weight of the respective spleens.

Histopathological findings:

not examined

Other effects:

effects observed, non-treatment-related

Description (incidence and severity):

Birth indices and post-implantation loss
No test item-related differences were noted for the mean number of implantation sites per dam, the mean number of pups born (alive and dead) per dam and the mean number of live born pups per dam between the control group and the dose groups (15 or 50 mg test item/kg b.w./day).
In the high dose group (150 mg test item/kg b.w./day), a decrease was noted in the number of implantation sites and consequently also decreased numbers of pups born alive and dead and also in the number of live born pups (15.9% or 17.1% below the value of the control group, statistically significant at p ≤ 0.01). Nevertheless, the reduced numbers of implantation sites and of pups born per dam were within the range of the LPT background data. The reduced numbers of implantation sites and live born pups were considered to be a secondary effect based on the observed vacuolisation in the smooth muscle fibers in the arterial media in the reproductive organs (ovaries and uterus). The vacuolisation lead to an insufficient blood supply of the uterus . Hence, insufficient nourishment of the blastocyst.
The reproductive indices as the birth index, the live birth index and the percentage of post implantation loss revealed no test item-related differences between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).

Male to female ratio of the pups
No test item-related influence on the male to female ratio was noted for all treatment groups (15, 50 or 150 mg test item/kg b.w./day).
ale to female ratios in the test groups on lactation day 1 and lactation day 4.
Male / Female ratio of the pups:
Group 1 Group 2 Group 3 Group 4
Time point (Control) 15 mg/kg 50 mg/kg 150 mg/kg
Lactation day 1 # 0.98 1.20 1.06 0.86
Lactation day 4 # 0.97 1.22 1.04 0.88

Developmental neurotoxicity (F1)

Behaviour (functional findings):

not examined

Developmental immunotoxicity (F1)

Developmental immunotoxicity:

not examined

Details on results (F1)

For the pre-natal development of the pups, a reduction was noted for the number of implantation sites and consequently for the number of live born pups in the high dose group and the litter weight. Due to the accessory symptom of the phospholipidosis, vacuolisation of the smooth muscle cells in the arterial media of the uterus, these observations are considered to be secondary effects.
No test item-related effect was noted on the birth and live birth index and the percentage of post implantation loss.
For the postnatal development, decreased number of live pups on LD 4 and consequently decreased litter weights between LD 1 and LD 14 were noted for the high dose group. Due to the accessory symptom of the phospholipidosis, vacuolisation of the smooth muscle cells in the arterial media of the uterus, these observations are considered to be secondary effects.
No test item-related differences were noted for the viability indices (pre- and post-cull), the ano-genital distance and the nipple retention.
The examination of the thyroid hormone levels on lactation days 4 and 22 revealed no test item related differences.
The gross inspection (external and / or internal) of the pups at necropsy on lactation days 4 (culled pups) and 22 revealed no test item-related changes.
No test item-related influence was noted on the organ weights from pups sacrificed on lactation day 22.

Effect levels (F1)

Target system / organ toxicity (F1)

Results: F2 generation

General toxicity (F2)

Clinical signs:

no effects observed

Dermal irritation (if dermal study):

not examined

Mortality / viability:

mortality observed, non-treatment-related

Description (incidence and severity):

Number of live pups – F2 Pups
No test item-related or statistically significant differences were noted for the mean number of live pups per dam between the control group and the low and intermediate dose group (15 or 50 mg test item/kg b.w./day).
In the high dose group (150 mg test item/kg b.w./day), a reduced number was noted for the number of live born pups leading to reductions in the numbers of pups per dam on LD 1 and LD 4 (17.4% or 17.0% below the value of the control group for male and female pups combined, statistically significant at p ≤ 0.05). As 5 of the 20 dams were noted with 9 pups and one dam with only 3 pups on LD 4, the reduced number of pups per dam was also noted after litter adjustment to 10 pups per dam (6.0%, 6.0% and 6.3% for the male and female pups combined on LD 7, LD 14 and LD 20, statistically significant at p ≤ 0.01).
The reduced number of live pups was considered to be a secondary effect due to the vacuolisation of the smooth muscle cells in the arterial media of the uterus, which lead to insufficient nourishment of the uterus.

Viability index - F2 Pups
No test item-related differences between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day) were noted for the viability index (difference between the number of live born pups (pups alive on lactation day 0/1) and the number of live pups on lactation day 4).

Body weight and weight changes:

effects observed, non-treatment-related

Description (incidence and severity):

Body weight of pups - F2 Pups
No test item-related influence on the body weight of pups was noted for any dose group (15, 50 or 150 mg test item/kg b.w./day).
In the high dose group, a statistically significant decrease was noted for the male pup body weights and for the combined body weights of the male and female pups on LD 14 (7.9% or 8.0% below the value of the control group, statistically significant at p ≤ 0.05). However, as no difference was noted on LD 1 and as the pup body weights of the high dose group recovered on LD 21, the decreased pup body weights on LD 14 was considered to be not test item-related.

Litter weight of F2 pups
No test item-related influence on the litter weight was noted for the low and intermediate dose group (15 or 50 mg test item/kg b.w./day).
In the high dose group (150 mg test item/kg b.w./day), a decrease was noted for the weight of the litters during the whole lactation period (between 10.2% and 18.9% below the value of the control group for the male and female litters combined, with the exception of LD 21 statistically significant at p ≤ 0.05 or 0.01).
As this was due to the lower number of born pups in combination with the slight reduction of the pup body weights from LD 7 to LD 21. Tthe reduced litter weight was considered to be a secondary effect due to the vacuolisation of the smooth muscle cells in the arterial media of the uterus, which lead to insufficient nourishment of the uterus.

Food consumption and compound intake (if feeding study):

not examined

Food efficiency:

not examined

Water consumption and compound intake (if drinking water study):

not examined

Ophthalmological findings:

not examined

Haematological findings:

not examined

Clinical biochemistry findings:

not examined

Urinalysis findings:

not examined

Sexual maturation:

not examined

Anogenital distance (AGD):

no effects observed

Description (incidence and severity):

No test item-related difference in the absolute and the relative ano-genital distance (value normalized to cube root of pup body weight) of the male and the female pups was noted between the control group and the dose groups (15, 50 or 150 mg test item/kg b.w./day).
In the intermediate and high dose group, a statistically significant increase was noted for the absolute and relative ano-genital distance of the female pups (14.1%/12.3% or 14.8%/13.6% elevated above the value of the control group, p ≤ 0.01). However, as no difference was noted for the male pups, the increased ano-genital distance was considered to be spontaneous.

Nipple retention in male pups:

no effects observed

Description (incidence and severity):

No test item-related difference for the number of nipples/areolae of the male pups between the control group and those of the dose groups (15, 50 or 150 mg test item/kg b.w./day).

Organ weight findings including organ / body weight ratios:

not examined

Gross pathological findings:

no effects observed

Description (incidence and severity):

External examination (pups terminally sacrificed on lactation day 4 or found dead):
No gross abnormalities (e.g. malformations or variations) were noted during the macroscopic external examination of the F2 pups from the control group and the F2 pups from the dose groups (15, 50 or 150 mg test item/kg b.w./day) after culling on lactation day 4 or for the pups that died (stillborn or found dead) during the lactation period.
Internal examination (pups terminally sacrificed on lactation day 21):
No gross abnormalities (e.g. malformations or variations) were noted during the macroscopic examination of the inner organs or tissues of the F2 pups from the control group and the F2 pups from the dose groups (15, 50 or 150 mg test item/kg b.w./day) after terminal sacrifice on lactation day 21.

Histopathological findings:

not examined

Other effects:

effects observed, non-treatment-related

Description (incidence and severity):

Birth indices and post-implantation loss - F2 Pups
No test item-related differences were noted for the mean number of implantation sites per dam, the mean number of pups born (alive and dead) per dam and the mean number of live born pups per dam between the control group and the low and intermediate dose group (15 or 530 mg test item/kg b.w./day).
In the high dose group (150 mg test item/kg b.w./day), in parallel to the high dose group of the F0 generation, a reduced number was noted for the implantation sites (14.7% below the number of the control group, statistically significant at p ≤ 0.01). Which was, like in the F1 generation, a secondary effect due to the observed vacuolisation of the smooth muscle fibers in the arterial media in the reproductive organs . Accordingly, also the number of pups born alive and dead and also the number of pups born alive were reduced (for both parameters 18.0% below the number of the control group, statistically significant at p ≤ 0.01). Furthermore, as in the high dose group litters with less than 10 pups were obtained, also the number of pups per dam after litter adjustment was decreased. Regardless, of the slightly lowerthe number of implantation sites and the number of live born pups, those numbers were still within the range of the LPT background data.
The reproductive indices as the birth index, the live birth index and the percentage of post implantation loss revealed no test item-related differences between the control group and the treatment groups (15, 50 or 150 mg test item/kg b.w./day).

Male to female ratio of the pups - F2 Pups
No test item-related influence on the male to female ratio was noted for any treatment group (15, 50 or 150 mg test item/kg b.w./day).

Male / Female ratio of the pups
Group 1 Group 2 Group 3 Group 4
Time point (Control) 15 mg/kg 50 mg/kg 150 mg/kg
Lactation day 1 # 1.16 1.09 1.03 0.86
Lactation day 4 # 1.16 1.11 1.03 0.88

Developmental neurotoxicity (F2)

Behaviour (functional findings):

not examined

Developmental immunotoxicity (F2)

Developmental immunotoxicity:

not examined

Details on results (F2)

No test item-related influence was noted on the pre-natal development, regarding the post-implantation loss, the birth index, or the live birth index. However, reductions were noted for the number of implantation sites and consequently for the number of born pups of the high dose group. Both observations were considered to be a secondary effect due to the vacuolisation of the smooth muscle cells in the arterial media of the uterus, which lead to insufficient nourishment of the uterus.

No test item-related effect was noted on the postnatal development of the pups regarding the viability index (surviving live born pups), the pup body weight, and the ano-genital distance.
Reductions were noted for the litter weights of the high dose group. Due to the vacuolisation of the smooth muscle cells in the arterial media of the uterus and the following decreased nourishment of the uterus the reduced litter weights was considered a secondary effect.
The gross inspection of the pups at necropsy revealed no test item-related changes.

Effect levels (F2)

Target system / organ toxicity (F2)

Overall reproductive toxicity

Any other information on results incl. tables

Text Table7‑1:  Outcome of the female animals (P0) per group.

Test item	Group 1 Control	Group 2 15 mg/kg	Group 3 50 mg/kg	Group 4 150 mg/kg
Females examined for general toxicity	24	24	24	24
Females used for pairing	24	24	24	24
Females with positive mating sign	24	23	24	23
Females without a positive mating sign	0	1 (93)	0	1 (189)
Females not pregnant	0	1 (82)	0	1 (176)
Females pregnant	24	22	24	22
Pregnancy rate (Fertility index)	100%	92%	100%	92%
Females with resorption of all implants	0	0	0	0
Females with litter	24	22	24	22

 

Text Table7‑3: Body weight gain of the female animals during the pre-mating period, the gestation period and the lactation period.

Females	Group 1 Control	Group 2 15 mg/kg	Group 3 50 mg/kg	Group 4 150 mg/kg
Body weight gain [%] #1 (pre-mating period) (test days 15 to 29)	+4.3%	+5.8%	+5.4%	-0.2%
Body weight gain [g] (pre-mating period) (test days 15 to 29)	+10.7	+14.3	+13.5	-0.7
Body weight gain [%] #2 (gestation period)	+63.5%	+56.1%	+61.4%	+52.8%
Body weight gain [g] (gestation period)	+169.6	+149.1	+162.5	+133.9
Body weight gain [%] #3 (lactation period)	+0.1%	+2.8%	+2.8%	+14.5%
Body weight gain [g] (lactation period)	+0.0	+6.2	+7.8	+40.2

Text Table7‑4: Statistically significant changes of the haematological parameters that werenotconsidered to be test-item-related.

			Changes in comparison to control [%]			Reason
Parameter #1		Sex	Group 2	Group 3	Group 4
HGB [mmol/L]		Males	+0.4	-1.3	-6.0**	B
RBC [x106/µL]		Males	-0.9	-2.4	-8.5**	B
Reticulocytes [%]		Males	+5.6	+24.9*	+11.3	A, B
HCT [%]		Males	+0.7	-0.6	-5.7**	A, B
Neutrophils [x10³/µL]		Females	-2.3	-1.2	+78.8**	A, B
Monocytes [x10³/µL]		Females	-2.6	+33.3	+109.4**	A, B
LUC [x10³/µL]		Females	-13.9	0.0	+111.1*	A, B
aPTT [seconds]		Males	+0.9	-2.1	-5.9*	A, B
*/**:	Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test)
#1:	Values taken from table8-1'Haematological Parameters - Summary - Males'or table8-2'Haematological Parameters - Summary - Females'.
A:	No dose response-relationship was noted.
B:	No difference was noted for the opposite sex.

Text Table7‑5:  Statistically significant changes of the biochemical parameters that werenotconsidered to be test item-related.

			Changes in comparison to control [%]			Reason
Parameter #1		Sex	Group 2	Group 3	Group 4
Albumin [g/L]		Males	-3.1	-1.0	-6.4**	A
		Females	+2.9	+0.5	-4.0*	A
Bile acids [µmol/L]		Males	+4.9	-4.4	+67.7**	A, B
Cholesterol (total) [mmol/L]		Males	+14.7	+20.6	+29.9*	B
BUN/Creatinine [ratio]		Males	+2.4	-6.6	+23.4**	A
		Females	-3.6	-1.4	+18.6**	A
Glucose [mmol/L]		Males	+7.9	+15.7*	+16.8	B, C
Protein (total) [g/L]		Males	-3.9	+0.6	-6.5*	A, B
Urea (in blood) [mmol/L]		Males	+5.0	-7.1	+22.6**	A, B
Calcium [mmol/L]		Males	-1.2	-0.4	-4.8**	A, B
*/**:	Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test)
#1:	Values taken from table9-1'Biochemical Parameters - Summary - Males' or from table9-2'Biochemical Parameters - Summary - Females'.
A:	No dose response-relationship was noted.
B:	No difference was noted for the opposite sex.
C:	No statistically significant difference was noted for group 4.

Text Table7‑6:    Macroscopic post mortem findings during necropsy.

Macroscopicpost mortemfindings
Group	Animal no.	Observation
Group 1 (Control)	45	Kidney (l. + r.):          -pale
Group 2 (15 mg/kg)	75 78	Uterus:           -dilated Thorax:          -filled with clear liquid Lungs:            -dark-red discoloured
Group 3 (50 mg/kg)	142	Uterus:           -dilated                        -filled with clear liquid
Group 4 (150 mg/kg)	171 182   189	Spleen:          -enlarged Uterus:           -dilated                        -filled with liquid Ovary (l. + r.):-cystic                        -no positive mating sign

Text Table7‑7:    Stage of the estrous cycle at necropsy determined by evaluation of vaginal smears.

Stage of estrous cycle at necropsy	Group 1 Control	Group 2 15 mg/kg	Group 3 50 mg/kg	Group 4 150 mg/kg
Proestrus	1 of 24	2 of 24	2 of 24	4 of 24
Estrus	3 of 24	6 of 24	7 of 24	9 of 24
Metestrus	4 of 24	4 of 24	5 of 24	2 of 24
Diestrus	16 of 24	12 of 24	10 of 24	9 of 24

Text Table7‑8:    Statistically significant but considered to benottest item-related differences in the relative and absolute organ weights of the male animals.

Organ #1		Parameter (absolute: g) (relative: g/kg b.w.)	Changes in comparison to control [%]			Reason
			Group 2	Group 3	Group 4
Brain		g/kg b.w.	-1.2	-1.0	+6.3*	A, C
Heart		g/kg b.w.	-2.7	-4.0	+4.8**	A, C
Liver		g/kg b.w.	-1.1	-0.8	+10.6*	A, C
Spleen		g/kg b.w.	+0.6	+5.8	+15.8**	A
Testis (left)		g/kg b.w.	-0.6	-0.9	+11.8**	A
Testis (right)		g/kg b.w.	-1.4	-0.7	+11.9**	A, C
Epididymis (left)		g	-0.1	+2.3	-10.5*	B, C
Epididymis (right)		g	-1.9	+2.5	-8.5**	B, C
Prostate and Seminal Vesicle		g	-1.3	-5.6	-15.3**	B
*/**:	Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test).
#1:	Values taken from tables16-1'Relative Organ Weights - Summary - Males' and17-1'Absolute Organ Weights - Summary - Males'.
A:	Increased relative organ weights were considered to be secondary due to the decreased body weight at autopsy for the male group 4 animals.
B:	Decreased absolute organ weights were considered to be secondary due to the decreased body weight at autopsy for the male group 4 animals.
C:	No dose dependence-relationship present.

Table7‑9:   Statistically significant but considered to benottest item-related differences in the relative and absolute organ weights of the female animals.

Organ #1		Parameter (absolute: g) (relative: g/kg b.w.)	Changes in comparison to control [%]			Reason
			Group 2	Group 3	Group 4
Brain		g	-0.9	-1.3	-3.6**	A
Liver		g/kg b.w.	-1.1	-1.9	+6.5*	C
Ovary (left)		g/kg b.w.	-4.3	-4.2	-20.0**	B
Ovary (left)		g	-7.5	-4.8	-22.0**	B, C
Ovary (right)		g	+2.7	+0.7	-13.1*	B, C
Thymus		g/kg b.w.	+10.7	+1.5	-16.2**	A, C
*/**:	Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test).
#1:	Values taken fromtables16-2'Relative Organ Weights - Summary - Females'and17-2'Absolute Organ Weights - Summary - Females'.
A:	No difference was noted for the respective organ weights of the male animals.
B:	No difference was noted for the respective organ weights of the F1 animals of Cohort 1A and Cohort 1B.
C:	No dose dependence-relationship present. Table7‑10:          Mean length and mean number of estrous cycles. Parameter Group 1 Control Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Pre-mating: Test day 15 (start of treatment) until pairing (test day 29) Number of females evaluated 24 24 24 24 Number of females with ≥ 1 cycle 21 19 18 21 Mean cycle length (days) 4.85 4.55 5.28 5.50 Number of cycles 2.0 2.2 2.1 1.9 # : Values taken from table18-1'Estrous Cycle Data – Start of Dosing until Mating - Summary' Text Table7‑11:  Fertility indices per group. Group / Dose level Fertility index [%] Pregnant rats / Rats paired with a male partner on test day 85 #1 #2 Group 1 (Control) 100 24 / 24 Group 2 (15 mg/kg) 92 22 / 24 Group 3 (50 mg/kg) 100 24 / 24 Group 4 (150 mg/kg) 92 22 / 24 */**: p ≤ 0.05 / p ≤ 0.01, Fisher test #1: Values taken from table20-1'Reproductive Outcomes and Indices per Group - Females'. #2: The females which were excluded from calculation of reproductive data were not considered for the calculation of the fertility index. Text Table7‑12:  Gestation indices per group. Group / Dose level Gestation index % Dams with live pups / Pregnant rats #1#2 Group 1 (Control) 100 24 / 24 Group 2 (15 mg/kg) 100 22 / 22 Group 3 (50 mg/kg) 100 24 / 24 Group 4 (150 mg/kg) 100 22 / 22 */**: p ≤ 0.05 / p ≤ 0.01, Fisher test #1: Values taken from table20-1'Reproductive Outcomes and Indices per Group - Females'. #2: The females which were excluded from calculation of reproductive data were not considered for the calculation of the fertility index.Text Table7‑13:  Overview of the reproductive data.   Reproductive data   Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Parametrical values (mean number per dam)#1 Implantation sites #3 16.6 15.4 15.0 13.8** Pups #3 (born alive and dead) 15.1 14.5 14.4 12.5** Pups born alive #3 15.1 14.5 14.4 12.5** Indices [%]#2 Birth Index mean per dam #3 group            #4 91.57 90.73 94.16 93.84 95.59 95.59 91.93 92.08 Live birth Index mean per dam #3 group            #4 100.00 100.00 99.68 99.69 99.75 99.71 98.60 98.57 Post-implantation loss   mean per dam #3 group            #4   8.43 9.27   6.12 6.45   4.66 4.68   9.42 9.24 Resorptions and stillbirths Difference between no. of implantation sites and no. of pups born alive mean per dam #5     sum per group #5 1.5     37 1.0     22 0.7     17 1.3     28 Number of stillbirths #5 0 1 1 4 #1: Statistical calculation was performed by ANOVA / DUNNETT (*/**: p ≤ 0.05 / p ≤ 0.01). #2: Statistical calculation was performed byANOVA / DUNNETT (mean values) (*/**: p ≤ 0.05 / p ≤ 0.01). #3: Mean values per group were taken from table22-1'Birth Indices and Post-implantation loss - Values per Dam - Summary'. #4: Group values were taken from table21'Number of Pups and Indices - Overview per Group'. #5: Values taken from table22-2'Birth Indices and Post-implantation loss - Values per Dam - Individual Data'; column'No. Resorptions + Stillborns'.Text Table7‑14:LPTbackground data on number of implantation sites and pups born alive. Parameter Values from this study Group mean values ± SD #2 LPTBackground Data #1 obtained from the control groups of 27 OECD 422/421 studies performed atLPTfrom 2016 to 2019 Number of implantation sites Group 1 16.6 ± 2.7 Mean of the group mean values of the control groups 14.70 ± 0.87   Range of the group mean values 13.6 - 16.1 Group 2 15.4 ± 3.2 Group 3 15.0 ± 2.8 Group 4 13.8 ± 1.8 ** Number of pups born (alive) Group 1 15.1 ± 2.2 Mean of the group mean values of the control groups 13.9 ± 0.88   Range of the group mean values 12.0 - 15.1 Group 2 14.5 ± 2.9 Group 3 14.4 ± 2.8 Group 4 12.5 ± 1.9 ** **:      Statistically significant at p ≤ 0.01 (DUNNETT test). #1:      Data not audited by QAU. #2:      Values taken from table22-1'Birth Indices and Post-implantation Loss'.   Text Table7‑15:  Viability indices and prematurely deceased pups during the pre-cull period. Pre-cull period Parameter Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Prematurely deceased pups between lactation days 0/1 to 4  / Total number of live born pups# 3 / 362 5 / 319 4 / 346 3 / 275 Viability index (group values)# 99.17 98.75 98.84 98.91   (*/**: p ≤ 0.05 / p ≤ 0.01) Chi2test #: Taken from table21'Number of Pups and Indices - Overview per Group'. Table7‑16:          Dams with prematurely deceased pups during the pre-cull period. Number of prematurely deceased pups per dam (pre-cull period) # Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg dam no. deceased pups dam no. deceased pups dam no. deceased pups dam no. deceased pups 40 1 79 1 122 1 180 1 42 1 87 1 123 1 186 1 48 1 92 1 136 1 192 1     94 1 139 1     #: Taken from table23-2'Dead Pups per Dam and Viability Index - Individual Data'. Text Table7‑17:  Viability indices and prematurely deceased pups during the post-cull period. Post-cull period Parameter Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Prematurely deceased pups between lactation days 5 and 21 / Number of pups alive on lactation day 4 after culling # 1 / 240 2 / 213 5 / 235 1 / 218 Viability index (group values) # 99.58 93.90 97.87 99.54   (*/**: p ≤ 0.05 / p ≤ 0.01) Chi2test #: Taken from table21'Number of Pups and Indices - Overview per Group'. Text Table7‑18:  Dams with prematurely deceased pups during the post-cull period. Number of prematurely deceased pups per dam (post-cull period) # Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg dam no. deceased pups dam no. deceased pups dam no. deceased pups dam no. deceased pups 34 1 73 1 126 1 192 1     74 1 127 1         86 1 129 1             139 2   #: Taken from table23-2'Dead Pups per Dam and Viability Index - Individual Data'.Text Table7‑19:  Male to female ratios in the test groups on lactation day 1 and lactation day 4. Male / Female ratio of the pups Time point Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Lactation day 1 # 0.98 1.20 1.06 0.86 Lactation day 4 # 0.97 1.22 1.04 0.88 #: Taken from table21'Number of Pups and Indices - Overview per Group'. Text Table7‑20:  Mean number of live pups per dam during the lactation period. Parameter (males + females combined) # Mean number of live pups per dam Group 1 (control) Group 2 (15 mg/kg) Group 3 (50 mg/kg) Group 4 (150 mg/kg)   Lactation day 1 - 15.1 14.5 14.4 12.5** Lactation day 4 before culling 15.0 14.3 14.3 12.4** after culling 10.0 9.7 9.8 9.9 Lactation day 7 - 10.0 9.5 9.8 9.9 Lactation day 14 - 10.0 9.5 9.6 9.9 Lactation day 21 - 10.0 9.5 9.6 9.9 */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #: Values are taken fromtable 24-1'Number of Live Pups per Dam - Summary'. Text Table8‑1:    Body weight gain of the male animals from test day 1 to test day 70. Males Group 1 Control Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Body weight gain [%] # (test day 1 to test day 70) +747% +691% +668% +691% Body weight gain [g] (test day 1 to test day 70) +447.5 +425.4 +415.8 +382.0 #: Values taken from table4-1-Co1A'Body Weight Gain - Summary - Males'. Text Table8‑2:    Body weight gain of the female animals from test day 1 to test day 66. Females Group 1 Control Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Body weight gain [%] # (test day 1 to test day 66) +400.0% +371.6% +351.1% +400.4% Body weight gain [g] (test day 1 to test day 66) +224.6 +221.8 +224.1 +207.5 Text Table8‑3:   Statistically significant changes of the haematological parameters that werenotconsidered to be test item-related.     Changes in comparison to control [%] Reason Parameter #1 Sex Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg     White blood cells [x103/µl] Males +2.4 +38.7* +18.7 A Lymphocytes [x103/µl] Males +3.2 +42.6* +26.2 A Basophilic granulocytes [x103/µl] Males +31.8 +104.5** +59.1 B */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #1: Values taken from table6-1-Co1A'Haematological Parameters - Summary – Males’. A: The increase was considered to be spontaneous (see discussion above) B: The increase was considered to be spontaneous (see discussion above). Text Table8‑4:    Comparison with theLPTbackground data. Parameter Values from this study Group mean values ± SD Range of individual animals #2 LPT Background Data #1 obtained from the control groups of OECD 422 / 421studies performed atLPTfrom 2016 - 2017 WBC (x103/µL) (males)   Group 1 8.626 ± 1.805 6.65 - 12.56 Mean value from 90 control animals from 18 studies: 10.290 ± 2.987   Range of 90 control animals from 18 studies: 5.83 – 18.49 Group 2 8.830 ± 2.941 5.87 - 15.45 Group 3 11.962 ± 2.612** 7.94 - 16.18 Group 4 10.236 ± 2.045 6.31 - 13.55 Lympho-cytes (x103/µL) (males)   Group 1 6.718 ± 1.708 4.41 - 9.80 Mean value from 90 control animals from 18 studies: 8.315 ± 2.486   Range of 90 control animals from 18 studies: 4.44 – 14.98 Group 2 6.935 ± 2.568 4.24 - 12.42 Group 3 9.582 ± 2.307* 6.23 - 13.60 Group 4 8.475 ± 1.813 5.41 - 11.28 */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #1: Data not audited by QAU #2: Values are taken fromtable6-1-Co1A'Haematological Parameters - Summary - Males' and table6-3-Co1A'Haematological Parameters - Individual Data - Males'. Text Table8‑5:    Statistically significant changes of the haematological parameters that werenotconsidered to be test item-related.     Changes in comparison to control [%] Reason Parameter #1 Sex Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg     White blood cells [x103/µl] Females +18.7 +38.0 +62.2** A Lymphocytes [x103/µl] Females +21.8 +45.9* +63.8** A Neutrophilic granulocytes [x103/µl] Females +9.1 -0.9 +46.2* B Monocytes [x103/µl] Females +17.2 +49.1 +112.2** B Large unstained cells [x103/µl] Females +35.7 +77.8 +160.0** B Basophilic granulocytes [x103/µl] Females +33.3 +122.2 +188.9** B */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #1: Values taken from table6-2-Co1A'Haematological Parameters - Summary - Females'. A: The increase was considered to be spontaneous (see above). B: The increase was considered to be spontaneous (see above).  Text Table8‑6:    Comparison with theLPTbackground data. Parameter Values from this study Group mean values ± SD Range of individual animals #2 LPT Background Data #1 obtained from the control groups of OECD 422 / 421studies performed atLPTfrom 2016 - 2017 WBC (x103/µL) (females)   Group 1 5.417 ± 1.156 4.10 - 7.92 Mean value from 90 control animals from 18 studies 8.224 ± 2.441   Range of 90 control animals from 18 studies: 3.52 – 15.08 Group 2 6.431 ± 1.853 4.18 - 9.34 Group 3 7.478 ± 2.558 4.13 - 12.35 Group 4 8.785 ± 1.682** 5.62 - 11.55 Lympho-cytes (x103/µL) (females)   Group 1 4.210 ± 1.143 2.80 - 6.57 Mean value from 90 control animals from 18 studies 6.997 ± 2.290   Range of 90 control animals from 18 studies: 2.95 – 14.76 Group 2 5.126 ± 1.420 3.13 - 7.45 Group 3 6.141 ± 2.211* 3.33 - 10.15 Group 4 6.894± 1.784** 4.00 - 9.90 */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #1: Data not audited by QAU #2: Values are takenfromtable6-2-Co1A'Haematological Parameters - Summary - Females' and table6-4-Co1A'Haematological Parameters - Individual Data - Females'. Text Table8‑7:    Statistically significant changes of the biochemical parameters that werenotconsidered to be test item-related.     Changes in comparison to control [%] Reason Parameter #1 Sex Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg     Albumin (g/L) Males +0.1 - 2.1 +5.9* A Albumin (g/L) Females - 1.7 - 2.5 - 7.8** A Protein (total) (g/L) Females - 1.9 0.0 - 6.8* A Calcium (mmol/L) Males - 0.8 - 0.9 - 3.7* A Calcium (mmol/L) Females - 2.9 - 0.4 - 3.8*   Potassium (mmol/L) Females - 8.1* +1.3 +3.0 B Sodium / Potassium ratio Females +9.3* -1.7 -2.9 B ALAT (U/L) Females +8.5 +0.0 - 24.4** C */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #1: Values taken fromtable7-1-Co1A'Biochemical Parameters - Summary - Males'and from table7-2-Co1A'Biochemical Parameters - Summary - Females' A: Considered to be spontaneous (see above). B: Considered to be spontaneous (see above). C: Considered to be spontaneous (see above).  Text Table8‑8:    Statistically significant changes of the urinalysis that were noted for the male animals andnotconsidered to be test item-related.     Mean values per group Changes in comparison to control [%] Reason Parameter # Sex Group 1 control Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg     Specific gravity (g/mL) Males 1.0614 - 1.0918** 2.9% 1.0829* 2.0% 1.0907** 2.8% A pH Males 6.80 - 6.39** - 6.0% 6.52 - 4.1% 6.29** -7.5% A Urine volume (relative) (mL/kg b.w./24h) Males 30.83 - 22.51* - 27.0% 24.60 - 20.2% 21.32* -30.8% A */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #: Values takenfromtable9-1-Co1A'Urinalysis - Parameters - Summary - Males'. A: The changes were considered to be spontaneous, as no dose-response relationship was noted and no changes were noted for the female animals. Text Table8‑9:    Sexual maturation of male animals of Cohort 1A. Parameters # Parameter of balanopreputial gland cleavage Mean values per group (differences in comparison to control %) Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg - day of life(PND[HC1] ) 22.2 22.6 22.4 22.2 - body weight (g) 55.6 (-) 57.1 (+2.8%) 55.1 (- 0.9%) 51.8* (- 6.8%) *: (p ≤ 0.05), ANOVA / DUNNETT #: Values taken fromtable11-1-Co1A'Balanopreputial Gland Cleavage - Summary'.  Text Table8‑10:  Sexual maturation of female animals of Cohort 1A Parameters Parameters of sexual maturation Mean values per group Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg - day of vaginal opening (PND) 34.3 33.4 34.5 36.2 - body weight on the day of vaginal opening (g) 133.0 131.2 133.2 131.5 - day of appearance of cornified cells (PND) 38.5 38.3 40.8** 40.4 - period between day of vaginal opening and day of appearance of cornified cells (test days) 4.4 4.9 6.3 4.3 */**: (p ≤ 0.05 / 0.01), ANOVA / DUNNETT #: Values taken from table11-3-Co1A'Vaginal Opening - Summary'. PND: Post-natal day Text Table8‑11:  Mean length and mean number of estrous cycles. Parameter Group 1 Control Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Evaluation period: test days 50 to 63 Mean cycle length (days) 4.25 4.42 4.42 4.49 Number of cycles 1.8 1.8 1.9 1.8 # : Values taken from table12-1-Co1A'Estrous Cycle Data - Test Days 50 to 63 - Summary' Text Table8‑12:  Stage of the estrous cycle at necropsy. The stage of the estrous cycle was evaluated from vaginal smears that were taken at necropsy. Stage of estrus at necropsy (Cohort 1A females) Group 1 Control Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Proestrus - 3 of 20 1 of 20 2 of 20 Estrus 13 of 20 8 of 20 6 of 20 10 of 20 Metestrus 1 of 20 2 of 20 - 2 of 20 Diestrus 6 of 20 7 of 20 12 of 20 6 of 20 - : not detected Text Table8‑13:  Statistically significant changes in male organ weights that were considered to be secondary to a reduced body weight at autopsy. Organs #1 Parameter (absolute: g) (relative: g/kg b.w.) Changes in comparison to control [%] Reason Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg   Heart g +0.2 - 9.5* - 13.8** A g/kg b.w. +3.6 - 4.2 - 0.8 Spleen g +0.8 +3.6 - 2.5 B g/kg b.w. +4.6 +10.4 +12.1* Brain g - 1.4 - 2.6 - 4.3** B, C g/kg b.w. +1.3 +3.1 +9.8** Prostate and seminal vesicle g +4.8 - 13.2** - 14.4** A g/kg b.w. +7.4 - 8.8 - 1.6 Testis (left) g - 1.9 - 0.6 - 3.1 B g/kg b.w. +0.8 +5.1 +11.1** Testis (right) g - 3.4 - 1.2 - 4.0 g/kg b.w. - 0.5 +4.1 +10.3* Epididymis (left) g +2.8 - 3.0 - 9.9** A g/kg b.w. +5.8 +3.0 +3.8 Epididymis (right) g +4.0 - 4.2 - 6.8 g/kg b.w. +7.0 +1.1 +6.8 */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #1: Values taken fromtable17-1-Co1A'Relative Organ Weights - Summary - Males' and table18-1-Co1A'Absolute Organ Weights - Summary - Females'. A: The slightly decreased absolute organ weights were considered to be a secondary effect of the reduced body weight at autopsy (adaptation of the organ weight to the reduced body weight). No differences for the relative organ weights were noted. B: The slightly increased relative organ weights were considered to be a secondary effect to the decreased body weight at autopsy. No influence on the absolute organ weights were noted (no adaptation of the organ weight to the decreased body weight at autopsy). C: The decrease in the absolute brain weight that was noted in group 4 was considered to be spontaneous, as the difference was only marginally.Text Table8‑14:  Statistically significant changes in females organ weights that were considered to be secondary to a reduced body weight at autopsy. Organs #1 Parameter (absolute: g) (relative: g/kg b.w.) Changes in comparison to control [%] Reason Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg     Spleen g +6.2 +0.7 +5.2 A g/kg b.w. +6.3 +3.4 +13.3** Kidney (left) g +2.0 3.2 2.6 A g/kg b.w. +1.8 5.8 +10.4** Kidney (right) g +0.6 +2.6 +2.1 g/kg b.w. +0.6 +5.4 +9.9** */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #1: Values taken fromtable17-2-Co1A‘Relative Organ Weights - Summary - Females’ and table18-2-Co1A'Absolute Organ Weights - Summary - Females'. A: The slightly increased relative organ weights in group 4 were considered to be a secondary effect of the decreased body weight at autopsy in group 4. No differences were noted for the absolute organ weights. Text table9‑1:     Reproductive outcome of the female animals per group. test item Group 1 Control Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Females used for pairing 20 20 20 20 Females with positive mating sign 20 20 20 20 Females pregnant 19 18 20 20 Females not pregnant 1 2 0 0 Pregnancy rate (Fertility index) 95% 90% 100% 100% Females with live born pups 19 18 20 20 Text Table9‑2:    Body weight gain of the male animals from test day 1 to test day 115. Males Group 1 Control Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Body weight gain [%] # (test day 1 to test day 115) +880% +797% +763% +760% Body weight gain [g] (test day 1 to test day 115) +513.9 +493.6 +491.3 +417.6 #: Values taken from table6-1-Co1B'Body Weight Gain - Summary - Males'. Text Table9‑3:    Body weight gain of the female animals during the pre-mating period and the gestation period. Females Group 1 Control Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Body weight gain [%] #1 (pre-mating period) (test days 1 to 71) +395% +391% +375% +399% Body weight gain [g] (pre-mating period) (test days 1 to 71) +223.6 +223.7 +226.6 +208.7 Body weight gain [%] #2 (gestation period) +54% +50% +52% +50% Body weight gain [g] (gestation period) +157.6 +156.6 +149.2 +128.2 Body weight gain [%] #3 (lactation period) +7% +3% +7% +11% Body weight gain [g] (lactation period) +0.8 +11.8 +17.0 +30.1 #1: Values taken from table6-2-Co1B'Body Weight Gain - Summary - Females - Pre-mating Period' #2: Values taken from table6-3-Co1B'Body Weight Gain - Summary - Females - Gestation Period' #3: Values taken from table6-4-Co1B'Body Weight Gain - Summary - Females - Lactation Period' Text Table9‑4:    Statistically significant differences in food consumption of the female animals that were considered to be spontaneous. Parameter Ref. Table no. Increase ­Decrease¯ Group / sex Test days Statistical significance Reason Relative food consumption 7-2-Co1B ­ 4 f 1 - 8 p£0.05 A, B Relative food consumption 7-2-Co1B ¯ 3 f 22 - 29 p£0.01 B Relative food consumption 7-2-Co1B ¯ 4 f 22 - 29 p£0.01 B Relative food consumption 7-2-Co1B ¯ 4 f 43 - 50 p£0.01 B A:        An increased food consumption was considered to be not test item-related. B:          The reduction was only temporary Text Table9‑6:    Examination of stage of estrous cycle at necropsy from vaginal smears taken at necropsy. Stage of estrus at necropsy (Cohort 1B females) Group 1 Control # Group 2 15 mg/kg Group 3 50 mg/kg # Group 4 150 mg/kg # Proestrus - 2 of 18 - 1 of 18 Estrus 2 of 19 5 of 18 3 of 20 3 of 18 Metestrus 4 of 19 4 of 18 4 of 20 2 of 18 Diestrus 12 of 19 7 of 18 12 of 20 9 of 18 -: not detected #: For one female of group 1, one female of group 3 and three females of group 4 the estrous stage was not determined as no evaluable cells could be obtained. Table9‑7:            Statistically significant changes in organ weights unrelated to the test item. Organ (Relative: g/kg b.w.)/ (Absolute: g) Changes in comparison to control [%] Reason Group 2 Group 3 Group 4   Liver #1 g/kg b.w. -0.1 -2.5 +10.9** A, C g -2.6 -4.5 -9.0 Spleen #1 g/kg b.w. -4.9 -3.7 +20.9** A, C g -7.0 -4.9 +0.4 Pituitary #1 g/kg b.w. -3.1 +3.3 +23.2** A, C g -4.5 +2.0 +1.7 Testis (left) #1 g/kg b.w. +0.9 +3.6 +18.6** A g -1.4 +1.3 -1.9 Testis (right) #1 g/kg b.w. -2.6 +2.0 +13.8** A, C g -4.8 -0.3 -5.8 Prostate and seminal vesicle #2 g/kg b.w. +6.3 +1.0 -2.7 B, C g +3.3 -1.1 -19.9** Epididymis (left) #2 g/kg b.w. +2.0 -2.6 -2.8 B g -0.3 -4.9 -19.5** Epididymis (right) #2 g/kg b.w. +1.3 +2.0 +4.0 B g -0.9 -0.1 -14.0** */**: Statistically significant from control at p ≤ 0.05/0.01 (DUNNETT test) #1: Values taken fromtable12-1-Co1B'Relative Organ Weights - Summary - Males' #2: Values taken from table13-1-Co1B'Absolute Organ Weights - Summary - Males' A: The increased relative organ weight was considered to be due to the decreased body weight at autopsy. B: The decreased absolute organ weight was considered to be due to the decreased body weight at autopsy. C: No dose response-relationship was present. Text Table9‑8:    Fertility indices per group. Group / Dose level Fertility index [%] Pregnant rats / Rats paired with a male partner #1 Group 1 (Control) 95 19 / 20 Group 2 (15 mg/kg) 90 18 / 20 Group 3 (50 mg/kg) 100 20 / 20 Group 4 (150 mg/kg) 100 20 / 20 #1: Values taken from table16-1-Co1B'Reproductive Outcomes and Indices per Group'. Text Table9‑9:    Gestation indices per group. Group / Dose level Gestation index % Dams with live pups / Pregnant rats # Group 1 (Control) 100 19 / 19 Group 2 (15 mg/kg) 100 18 / 18 Group 3 (50 mg/kg) 100 20 / 20 Group 4 (150 mg/kg) 100 20 / 20 */**: p ≤ 0.05 / p ≤ 0.01, Fisher test #: Values taken from table16-1-Co1B'Reproductive Outcomes and Indices per Group' Text Table9‑10:  Females with an elongated mating period. Females with an elongated mating period between 11 and 14 test days Group Female no. Pre-coital time [days] Male partner no. Control 397 14 378 Group 2 421 11 402 426 13 405 433 # 14 414 Group 3 468 14 447 478 11 457 #: The female animal was noted to be not pregnant. Text Table9‑11:  Overview on the reproduction data.   Reproduction data Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Parametrical values (mean number per dam)#1 Implantation sites #3 15.9 15.3 15.8 13.6** Pups #3 (born alive and dead) 15.1 15.0 14.8 12.4* Pups born alive #3 15.0 14.9 14.8 12.3* Indices [%]#2 Birth Index mean per dam  #3 group              #4 94.00 93.77 93.24 93.10 91.98 92.21 89.34 90.48 Live birth Index mean per dam  #3 group              #4 99.62 99.65 99.67 99.63 99.72 99.66 99.62 99.60 Post-implantation loss   mean per dam  #3 group              #4   6.27 6.56   7.08 7.24   8.30 8.10   11.02 9.89 Resorptions and stillbirths Prenatal loss (sum of resorptions and stillbirths) mean per group#5   sum per group#5 1.1   19 1.2   21 1.3   26 1.4   27 Number of stillbirths #5 1 1 1 1 #1: Statistical calculation was performed by ANOVA / DUNNETT (*/**: p ≤ 0.05 / p ≤ 0.01). #2: Statistical calculation was performed by ANOVA / DUNNETT (mean values) (*/**: p ≤ 0.05 / p ≤ 0.01). #3: The group mean values were taken from table18-1-Co1B'Birth Indices and Post-implantation loss - Values per Dam - Summary'. #4: The group values were taken fromtable17-Co1B'Number of Pups and Indices - Overview per Group'. #5: Values taken from table18-2-Co1B'Birth Indices and Post-implantation loss - Values per Dam - Individual Data'; column'No. Resorptions + Stillborns'. Text Table9‑12:  LPTbackground data on number of implantation sites and live born pups. Parameter Values from this study Group mean values ± SD #2 LPTBackground Data #1 obtained from the control groups of 27 OECD 422/421 studies performed atLPTfrom 2016 to 2019 Number of implantation sites Group 1 15.9 ± 1.4 Mean of the group mean values of the control groups 14.70 ± 0.87   Range of the group mean values 13.6 - 16.1 Group 2 15.3 ± 1.7 Group 3 15.8 ± 2.0 Group 4 13.6 ± 2.7** Number of pups born (alive) Group 1 15.0 ± 1.3 Mean of the group mean values of the control groups 13.9 ± 0.88   Range of the group mean values 12.0 - 15.1 Group 2 14.9 ± 2.1 Group 3 14.8 ± 2.8 Group 4 12.3 ± 3.3* */**:   Statistically significant at p ≤ 0.05/0.01 (DUNNETT test). #1:      Data not audited by QAU. #2:         Values taken from table18-1-Co1B'Birth Indices and Post-implantation Loss' Text Table9‑13:  Viability index and prematurely deceased pups. Viability index Parameter Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Prematurely deceased pups between lactation days 0/1 to 4  / Total number of live born pups# 7 / 285 5 / 269 5 / 295 3 / 246 Viability index (group values)# 97.54 98.14 98.31 98.78 #: Taken from table17-Co1B'Number of Pups and Indices - Overview per Group'.   Text Table9‑14:  Dams with prematurely deceased pups. Number of prematurely deceased pups between LD 0/1 (live born pups) and LD 4 # Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg dam no. deceased pups dam no. deceased pups dam no. deceased pups dam no. deceased pups 382 1 430 2 468 1 505 3 395 1 437 3 472 3   396 2   473 1   400 3       #: Taken from table19-2-Co1B'Dead Pups per Dam and Viability Index - Individual Data'. Text Table9‑15:  Male to female ratio in the test groups on LD 1 and LD 4. Male / Female ratio of the pups Time point Group 1 (Control) Group 2 15 mg/kg Group 3 50 mg/kg Group 4 150 mg/kg Lactation day 1 # 1.16 1.09 1.03 0.86 Lactation day 4 # 1.16 1.11 1.03 0.88 #: Taken from table17-Co1B'Number of Pups and Indices - Overview per Group'.Text Table10‑1:  Results of the test item-formulation analysis. Parameter Sampling Range of % nominal concentration Start of dosing of F0 Generation Concentration and Stability immediately after preparation of test item formulation, 8 h after preparation and 24 h after preparation 99.0 - 106.3 Homogeneity before administration to the first animal, during (middle) administration and before administration to the last animal 99.9 - 104.8 After littering of the F0 females Concentration before administration to the last animal of the group at the end of the study 98.6 - 102.5 End of dosing of F0 Generation Concentration before administration to the last animal of the group at the end of the study 97.6 - 99.9 Start of dosing of F1 Generation Concentration and Stability immediately after preparation of test item formulation, 8 h after preparation and 24 h after preparation 97.0 - 109.1 Homogeneity before administration to the first animal, during (middle) administration and before administration to the last animal 95.4 - 103.0 End of dosing of Cohort 1A Concentration before administration to the last animal of the group at the end of the study 96.8 - 102.9 End of dosing of Cohort 1B Concentration before administration to the last animal of the group at the end of the study 100.3 - 102.3