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Diss Factsheets

Administrative data

Description of key information

Coco-diamine: 15 day oral gavage: NOAEL: 6 mg/kg bw/day

C12-14-diamine: 28 day oral gavage (OECD 407, GLP): NOAEL 0.4 mg/kg bw/day

C12-14-diamine: 90 day oral gavage (OECD 408, GLP): NOAEL 0.4 mg/kg bw/day

No study available for inhalation or dermal exposure:

N-C12-18-alkyl-1,3-diaminopropane is a liquid/paste with no inhalable particles and a vapour pressure of 0.0015 Pa at 20°C (value based on read-across from C12-14-diamine showing almost similar average molecule weight). Also the use of this substance will not result in aerosols, particles or droplets of an inhalable size, so exposure to humans via the inhalation route will be unlikely to occur.

N-C12-18-alkyl-1,3-diaminopropane is corrosive to the skin and is not expected to easily pass the skin. The skin is therefore not a preferred route when studying repeated dose systemic toxicity.

Key value for chemical safety assessment

Repeated dose toxicity: via oral route - systemic effects

Link to relevant study records
Reference
Endpoint:
sub-chronic toxicity: oral
Type of information:
read-across from supporting substance (structural analogue or surrogate)
Adequacy of study:
key study
Study period:
2008-05-14 - 2010-09-10
Reliability:
1 (reliable without restriction)
Rationale for reliability incl. deficiencies:
other: GLP - Guideline study
Justification for type of information:
REPORTING FORMAT FOR THE ANALOGUE APPROACH
C12-14-diamine and Coco-diamine are very similar. The average chain-length is very similar, and therefore results obtained with the one product are also considered to be fully relevant for the other.
Cross-reading to data available on other diamines and polyamines is acceptable on the basis of identical alkyl-diamine structure, resulting to the same functional groups with similar properties leading to common biological activity, and common metabolic degradation. Further information on the applicability of the read-across from various diamines to Coco-diamine can be obtained from the document "Category polyamines - 20170518.pdf" added to IUCLID Ch. 13.
Reason / purpose for cross-reference:
read-across source
Qualifier:
according to guideline
Guideline:
OECD Guideline 408 (Repeated Dose 90-Day Oral Toxicity Study in Rodents)
Deviations:
no
Qualifier:
according to guideline
Guideline:
EU Method B.26 (Sub-Chronic Oral Toxicity Test: Repeated Dose 90-Day Oral Toxicity Study in Rodents)
Deviations:
no
GLP compliance:
yes (incl. QA statement)
Limit test:
no
Species:
rat
Strain:
Wistar
Sex:
male/female
Details on test animals or test system and environmental conditions:
TEST ANIMALS
- Source: Janvier S.A.S, Route des Chênes secs-B.P.4105-53941 LE GENEST-ST-ISLE-France
- Age at study initiation: 5 - 6 weeks
- Weight at study initiation: Main study groups
Females: 177-237 g, (mean: 200.84 g, ± 20%= 160.67 -241.01g)
Males: 246-304 g, (mean: 277.28 g, ± 20%= 221.82- 332.74g)
Recovery groups (28 and 90 day recovery)
Females: 178-218 g, (mean: 196.45 g, ± 20%= 157.16 -235.74g)
Males: 250-289 g, (mean: 267.25 g, ± 20%= 213.80-320.70g)
- Housing: housed individually in IVC cages, type III H, polysulphone cages on Altromin saw fibre bedding
- Diet: Free access to Altromin 1324 maintenance diet for rats and mice
- Water: Free access to tap water, sulphur acidified to a pH of approximately 2.8 (drinking water, municipal residue control, microbiol. controlled periodically)

ENVIRONMENTAL CONDITIONS
- Temperature (°C): 22 ± 3 °C
- Humidity (%): 55 ± 10%
- Air changes (per hr): 10 x / hour
- Photoperiod (hrs dark / hrs light): Artificial light, sequence being 12 hours light, 12 hours dark
Route of administration:
oral: gavage
Vehicle:
corn oil
Details on oral exposure:
PREPARATION OF DOSING SOLUTIONS:
The test item was dissolved in corn oil. The vehicle was chosen due to its non-toxic characteristics as well as according to sponsor`s request. The test item formulation was prepared freshly on each administration day before the administration procedure.

VEHICLE
- Lot/batch no. (if required): 117KO127, 058KO 070 and 128KO 040 (Sigma)

Application volume: 4 mL/kg bw
Analytical verification of doses or concentrations:
yes
Details on analytical verification of doses or concentrations:
The assessment of homogeneity as well as a determination of the nominal concentration of the test item in the vehicle was performed.
Samples for homogeneity were taken from the top, middle and bottom of the High Dose and Low Dose preparation. The determination was performed in week 1, 5 and 13 of the study. Analysis of the dose formulations of the test item in the vehicle (nominal concentration) was performed in week 1, 5, 9 and 13 of the study for all doses. The dose formulation analysis was performed at BSL Scientific Laboratories GmbH under the BSL Project Nr. 081585.
Duration of treatment / exposure:
up to 90-91 days. The animals in the recovery group were dosed for 90 days and further held for 28 and 90 days post dose treatment period.
Frequency of treatment:
single dose daily, 7 days per week for a period of 90-91 days
Remarks:
Doses / Concentrations:
0.0, 0.1, 0.4, 1.5 and 6 mg/kg bw; Recovery Groups (28 and 90 days): 0 and 6 mg/kg bw
Basis:
actual ingested
No. of animals per sex per dose:
10 (Main Study); 5 (Recovery Groups)
Control animals:
yes, concurrent vehicle
Details on study design:
Additional information for dosage:
According to the results of the dose range finding study (BSL Study Number 081579) and the 28-Day Repeated Dose Toxicity Study (BSL Study Number 084079) and in consultation with the sponsor the following doses were selected:
Control: 0 mg/kg bw
LD: 0.1 mg/kg bw
MD: 0.4 mg/kg bw
HID: 1.5 mg/kg bw
HD: 6 mg/kg bw
Recovery Groups:
CR: 0 mg/kg bw
HDR: 6 mg/kg bw
The highest dose level was chosen with the aim of inducing toxic effects but not death or severe suffering. Thereafter, a descending sequence of dose levels was selected with a view to demonstrate any dosage related response and no-observed-adverse effects at the lowest dose level (NOAEL). The animals in the control group were handled in an identical manner to the dose group subjects and received the vehicle in the same volume.



Positive control:
No
Observations and examinations performed and frequency:
CAGE SIDE OBSERVATIONS: Yes
- Time schedule: twice daily (spontaneous activity, lethargy, recumbent position, convulsions, tremors, apnea, asphyxia, vocalisation, diarrhoea, changes in the skin and fur, eyes and mucous membranes (salivation, discharge), piloerection). The observation period was 90-91 days (main study group), 118 days (28-Day recovery group) and 180 days (90-Day recovery group).

DETAILED CLINICAL OBSERVATIONS: Yes
- Time schedule: Detailed clinical observations were made once prior to initiation of the treatment for all animals (main and recovery groups) and weekly thereafter. Once before the first exposure and once in the last week of treatment in all animals (main and recovery groups) and in the 4th week of recovery (28-day recovery groups) and in the last week of recovery (90-day recovery groups), sensory reactivity to stimuli of different types was conducted with specific emphasis on locomotion and behaviour. These observations were made outside the home cage in a standard arena.

BODY WEIGHT: Yes
- Time schedule for examinations: Body weight for all animals was measured at randomisation, daily during treatment period and on the day of terminal sacrifice. In recovery animals, after the treatment period, body weight was measured weekly during recovery period.

FOOD CONSUMPTION: Yes
- Food consumption was measured weekly during the treatment period for all animals and weekly during recovery period for recovery animals.

OPHTHALMOSCOPIC EXAMINATION: Yes
- Time schedule for examinations: once prior to administration of the test article in all animals and once at the terminal sacrifice of main study animals (week 0 and 12).
- Dose groups that were examined: all animals

HAEMATOLOGY: Yes
- Time schedule for collection of blood: blood samples were collected at terminal sacrifice (main and recovery group animals)
- Animals fasted: Yes (overnight)
- How many animals: all animals

CLINICAL CHEMISTRY: Yes
- Time schedule for collection of blood: clinical biochemistry determinations were performed on serum samples obtained from all animals as a part of the procedure of killing the animals for necropsy
- Animals fasted: Yes (overnight)
- How many animals: all animals

URINALYSIS: Yes
- Time schedule for collection of urine: Urinalysis was performed on the samples collected from main and recovery group animals at terminal sacrifice.

NEUROBEHAVIOURAL EXAMINATION: No
Sacrifice and pathology:
GROSS PATHOLOGY: Yes: All animals (main and recovery groups) of the study were subjected to detailed gross necropsy on day 91-92 for main group animals and day 119 and 181 for recovery group animals. During necropsy, a careful examination of the external surface of the body, all orifice and the cranial, thoracic and abdominal cavities and their contents was made. The wet weight of the following organs was taken in all terminally sacrificed animals as soon as possible. Paired organs were weighed separately: liver, ovaries, kidneys, uterus with cervix, adrenal glands, thymus, testes, spleen, epididymides, brain, prostate, heart, and seminal vesicles with coaulating glands

HISTOPATHOLOGY: Yes: The following tissues from all animals were preserved in 10% neutral buffered formalin except eyes, testes and epididymides which were fixed in Modified Davidson’s fixative: all gross lesions, heart, aorta, skin, brain, ovaries, spinal cord, uterus with cervix, eyes, vagina, liver, testes, kidneys, epididymides, adrenal glands, prostate, stomach, seminal vesicles with coaulating glands, small and large intestines, urinary bladder, thymus, lymph nodes, thyroid gland, peripheral nerve, spleen, bone marrow, lungs and trachea, bone and skeletal muscle, pituitary, oesophagus, pancreas, salivary glands, parathyroids, mammary gland, nasal cavity, and larynx.
The afore-listed organs were examined histologically after preparation of paraffin sections and haematoxylin-eosin staining. Full histopathology was carried out on the preserved organs and tissues of all animals in the control and high dose groups (main groups). These examinations were extended to animals of all other dosage groups as treatment-related changes were observed in the high dose group. All gross lesions were examined histopathologically.
For the recovery groups, histopathology was performed on tissues and organs identified as showing effects in the main groups. Histological processing of tissues to microscope slides was performed at the GLP-certified contract laboratory Propath UK Ltd, Willow Court, Netherwood Road, GB - Hereford HR2 6JU. Histopathological evaluation was performed at the GLP-certified contract laboratory KALEIDIS – Consultancy in Histopathology (test site for histopathology), 6 rue du Gers, 68300 Saint-Louis, France. Blocking, embedding, cutting, H&E staining and scientific slide evaluation was performed according to the corresponding SOP’s of the test sites.
Other examinations:
Inflammatory Marker
Serum samples collected at terminal sacrifice (main and recovery groups) have been stored at ≤ -20 °C for analysis of inflammatory markers by ELISA technique. The analysis results will be reported separately.
Statistics:
For statistical analysis one-way analysis of variance (ANOVA) followed by Dunnett’s multiple comparison test or unpaired t test were carried out to reveal any differences between control- and test groups. The statistical analysis was performed with GraphPad Prism V.x software (p < 0.05 was considered as statistical significant).
In the evaluation of laboratory parameters, all values within a range of the mean value ± the two fold standard deviation (x ± 2s) are considered to be „normal“ values within a „normal“ population
Clinical signs:
effects observed, treatment-related
Mortality:
mortality observed, treatment-related
Body weight and weight changes:
effects observed, treatment-related
Food consumption and compound intake (if feeding study):
effects observed, treatment-related
Food efficiency:
not examined
Water consumption and compound intake (if drinking water study):
not examined
Ophthalmological findings:
no effects observed
Haematological findings:
effects observed, treatment-related
Clinical biochemistry findings:
effects observed, treatment-related
Urinalysis findings:
effects observed, treatment-related
Behaviour (functional findings):
not examined
Organ weight findings including organ / body weight ratios:
effects observed, treatment-related
Gross pathological findings:
effects observed, treatment-related
Histopathological findings: non-neoplastic:
effects observed, treatment-related
Histopathological findings: neoplastic:
not examined
Details on results:
CLINICAL SIGNS AND MORTALITY
Three mortalities in the main groups were observed (2 female HD and 1 male HID). There were also 2 mortalities in high dose females of HDR-90 group.
No test item specific clinical signs were observed in any of the animals of LD and MD of main group. The predominant clinical signs observed in HID and HD main and recovery group animals were slight to severe salivation, half-eyelid closure, vocalization, temporary stertorous respiration, oral and nasal discharge, dyspnoea, weight loss and piloerection.


BODY WEIGHT AND WEIGHT GAIN
In main study males, HD group animals showed statistically significant decrease in overall body weight gain (day 1 - 90) as compared to corresponding controls. Body weight gain values from LD, MD and HID were comparable with that of corresponding control group. In females, all treated group animals showed marginal decrease in overall body weight gain (day 1-90) as compared to corresponding controls. However, this effect was not statistically significant.
In 28 day recovery group males, the HD animals showed a statistically significant decrease in overall body weight gain during the treatment period (day 1-90) as compared to controls. However, body weight gain during 28 day recovery period was increased as compared to controls. In 28 day recovery group female animals, overall body weight gain during the treatment period (day 1 - 90) and 28 day recovery period was comparable to corresponding controls.
In 90 day recovery group males, the HD animals showed a decrease in overall body weight gain during the treatment period (day 1 - 90) as compared to controls without reaching statistical significance. However, body weight gain during 90 day recovery period was increased as compared to controls. In 90 day recovery group female animals, there was no any effect on body weight during treatment and recovery period.
The difference in weight gain among the groups could be attributed to the treatment with test item.


FOOD CONSUMPTION
In main study males, HD group animals showed statistically significant decrease in food consumption (day 1 - 90) as compared to corresponding controls. Food consumption from LD, MD and HID was slightly decreased without reaching statistical significance when compared with that of corresponding control group. In females, all treated group animals showed decrease in food consumption (day 1 - 90) as compared to corresponding controls. However, this effect was not statistically significant. In 28 day recovery group males, the HD animals showed a decrease in food consumption during the treatment period (day 1 - 90) as compared to controls without achieving statistical significance. However, food consumption during 28 day recovery period was slightly increased as compared to controls. In 28 day recovery group female animals, food consumption during the treatment period (day 1 - 90) and 28 day recovery period was comparable to corresponding controls. In 90 day recovery group males, the HD animals showed a decrease in food consumption during the treatment period (day 1 -90) as compared to controls without reaching statistical significance. However, food consumption during 90 day recovery period was increased as compared to controls. In 90 day recovery group female animals, there was no significant effect on food consumption during treatment and recovery period. The difference in food consumption among the groups could be attributed to the treatment with test item as it was correlated with body weight decrease during the respective period.


HAEMATOLOGY
The blood analysis for haematology and clinical pathology parameters revealed most of the mean and individual values within the biological range. Statistically significant differences in few parameters were found between the treated groups and the corresponding control group.
For hematology, except for Hct values in MD and HID males and MD, HID and HD females, RBC in main study males of MD group and females of HDR-28, MCV in HDR-28 females, MCH in HDR-28 females, MCHC in MD and HDR- 28 males, WBC in HD males, no other parameters showed any significant difference compared to controls. Individual values for most of the parameters were within the biological range.
In most of the main and recovery group males and females, the mean and individual PTT and aPTT values were below the biological range. Statistically significant decrease in HD main study males were observed for PTT when compared to the controls.
Statistically significant decrease in aPTT was observed in LD, MD, HID males, LD, MD females and HDR-90 males when compared with respective controls.


CLINICAL CHEMISTRY
For clinical biochemistry, except for AST/GOT in HD males, TP in female HID and HD group, GLU in HDR-90 males, UREA in female HID, no other parameters showed any significant deviation compared to controls. No treatment related effect on urine parameters were found in treated groups as compared to control group.


URINALYSIS
No relevant differences between test and control groups were found for both main and recovery animals. No dose dependency and toxicological relevance was observed in various urine parameters.
Low pH values (acidic urine, pH 5-6) were observed in few animals.
Main study groups: 6/10 male and 9/10 female control; 6/10 male and 7/10 female of LD group; 2/10 male and 7/10 female MD group; 5/10 male and 6/10 female HID group; 10/10 male and 8/8 female HD group.
28 day recovery groups: 2/5 male and 4/5 female control; 5/5 male and 3/3 female HD group.
90 day recovery groups: 2/5 male and 3/5 female control; 2/5 male and 3/3 female HD group.


ORGAN WEIGHTS
No effect on organ weights was observed except statistically significant decrease in absolute liver weight in HD males, increase in relative kidney weights in HDR-28 males, increase in relative adrenal weights in male and female HD, increase in relative heart weights in males of MD group, decrease in absolute brain weights in HID males, increase in relative brain weights in HD males and decrease in absolute brain weights in HDR-28 males and increase in relative epididymides weights in HD males.


GROSS PATHOLOGY
At terminal sacrifice of main study and recovery animals, macroscopic findings observed were considered to be spontaneous and not treatment related.


HISTOPATHOLOGY: NON-NEOPLASTIC
Test item-related changes were seen in the small intestine (ileum and jejunum), mesenteric lymph node, spleen, bone marrow (sternum) and trachea of terminally sacrificed animals.
After the 28-day recovery period, in animals of the HDR-28 dose group, test item-related changes in the jejunum, ileum and mesenteric lymph node were still present. Changes noted in the spleen had partially regressed and bone marrow (sternum) and trachea changes had fully regressed.
After 90 days of recovery, in animals of the HDR-90 dose group, test item-related changes in the jejunum, ileum and mesenteric lymph node had partially regressed. No test item-related changes were noted in the spleen, bone marrow (sternum) and trachea.
Key result
Dose descriptor:
NOAEL
Effect level:
0.4 mg/kg bw/day (actual dose received)
Based on:
test mat.
Sex:
male/female
Basis for effect level:
histopathology: non-neoplastic
Critical effects observed:
not specified

Table 1: Haematology data

Group

Parameter

Hct

RBC

MCV

MCH

MCHC

WBC

PTT

aPTT

Unit

%

x106/µl

fL

pg

g/dL

x103/µl

sec

sec

Biol. Range

28.3-54.9

6.3-10.54

45.5-60.8

15.4-19.8

30.7-36.7

2.9-25

29-51

10.9-37

Male

C

Mean

SD

N

49.05

1.5

10

9.07

0.37

10

54.11

1.55

10

17.03

0.71

10

31.5

0.6

10

10.63

2.06

10

27.61

5.36

10

10.69

3.44

10

LD

Mean

SD

N

50.95

3.47

10

9.33

0.64

10

54.63

1.51

10

17.07

0.6

10

31.24

0.59

10

10.53

3.05

10

20.61*

5.06

10

11.28

2.34

10

MD

Mean

SD

N

53.72*

2.53

8

9.83*

0.5

8

54.66

0.76

8

16.73

0.35

8

30.58*

0.61

8

10.01

0.74

8

19.98*

4.43

8

10.95

2.12

8

HID

Mean

SD

N

52.87*

4.11

9

9.59

0.76

9

55.15

1.03

9

17.06

0.49

9

30.92

0.58

9

9.33

2.36

9

17.32*

3.2

9

9.75

1.37

9

HD

Mean

SD

N

49.71

2.78

10

9.31

0.36

10

53.37

1.49

10

16.74

0.63

10

31.37

0.83

10

16.19*

6.77

10

25.44

6.42

10

11.35

2.22

10

CR28

Mean

SD

N

48.96

2.63

5

9.01

0.65

5

54.44

2.14

5

17.58

0.82

5

32.29

0.54

5

11.26

2.05

5

21.12

1.95

5

11.49

0.88

5

HDR28

Mean

SD

N

52.99

3.39

5

9.94

0.71

5

53.33

1.34

5

16.54

0.68

5

31.01*

0.81

5

13.32

3.06

5

23.39

3.16

5

12.26

2.58

5

CR90

Mean

SD

N

48.69

2.0

5

8.74

0.57

5

55.76

1.92

5

18.06

1.07

5

32.4

0.84

5

9.46

1.92

5

45.99

4.67

5

15.19

2.41

5

HDR90

Mean

SD

N

49.49

2.28

5

8.98

0.41

5

55.11

1.04

5

17.47

0.51

5

31.69

0.77

5

10.76

3.54

5

34.28*

4.11

5

13.1

0.41

5

Female

C

Mean

SD

N

43.92

1.32

10

7.93

0.41

10

55.47

1.29

10

18.12

0.7

10

32.66

0.8

10

5.46

2.22

10

22.4

11.9

10

11.15

3.73

10

LD

Mean

SD

N

45.58

1.5

10

8.28

0.27

10

55.07

0.36

10

18.0

0.45

10

32.69

0.78

10

5.59

0.84

10

13.6*

5.38

10

8.66

3.1

10

MD

Mean

SD

N

46.84*

2.46

10

8.42

0.4

10

55.62

1.74

10

17.84

0.43

10

32.08

0.53

10

4.96

1.2

10

14.51*

1.23

10

9.31

1.39

10

HID

Mean

SD

N

46.35*

2.83

10

8.37

0.51

10

55.41

0.81

10

17.7

0.37

10

31.94

0.7

10

5.17

2.28

10

16.9

2.77

10

9.65

1.12

10

HD

Mean

SD

N

46.66*

1.08

8

8.38

0.33

8

55.71

1.74

8

17.9

0.44

8

32.14

0.58

8

7.44

2.38

8

19.11

4.44

8

10.49

1.44

8

CR28

Mean

SD

N

45.89

1.24

5

8.14

0.1

5

56.34

0.94

5

18.48

0.57

5

32.76

0.6

5

4.39

2.26

5

24.88

5.23

5

12.91

1.5

5

HDR28

Mean

SD

N

46.46

1.72

5

8.52*

0.3

5

54.5*

0.41

5

17.66*

0.5

5

32.36

0.82

5

5.32

1.77

5

25.24

2.45

5

12.44

1.05

5

Table 2: Clinical biochemistry data

Group

Parameter

AST/GOT

TP

GLU

UREA

Unit

U/L

g/L

mmol/L

mmol/L

Male

C

Mean

SD

N

71.39

73.45

10

55.85

2.93

10

13.17

2.63

10

6.0

0.95

10

HD

Mean

SD

N

40.23

12.91

10

53.25

4.56

10

13.05

1.03

10

6.81

0.84

10

CR90

Mean

SD

N

44.36

3.09

5

59.34

0.97

5

14.74

1.23

5

6.91

0.65

5

HDR90

Mean

SD

N

139.02

193.73

5

57.66

1.35

5

12.23*

1.76

5

7.14

1.02

5

Female

C

Mean

SD

N

41.48

11.35

9

58.81

4.48

9

8.89

1.2

9

6.78

0.46

9

HID

Mean

SD

N

30.62

4.42

10

55.21*

2.96

10

9.88

2.48

10

5.57*

0.79

10

HD

Mean

SD

N

33.63

6.1

8

53.08*

2.55

8

9.92

1.25

8

6.01

1.11

8

*Significant (p<0.05); as determined with the individual data

Conclusions:
Test item related clinical signs were observed in HID and HD main groups and HD recovery groups. Predominant signs observed were reduced spontaneous activity, salivation, nasal discharge and moving the bedding.

Three mortalities in the main groups, (two female from HD and one male from HID) and 2 mortalities in high dose females of HDR-90 group were observed.

In main study and recovery HD group male and female animals, there was statistically significant decrease in overall body weight gain (day 1-90) and food consumption was observed compared to corresponding controls. Body weight gain and food consumption values from MD and HID were slightly decreased without achieving a statistical significance when compared with control. However, these parameters remained unaffected in low dose and values were comparable with the controls.

No test item related effect in any of the haematology parameters, urine parameters and clinical biochemistry parameters in male and females of any group except decrease in TP in HD females was observed.

At terminal sacrifice of main study and recovery animals, macroscopic findings observed were considered to be spontaneous and not treatment related

No effect on organ weight in male and female animals of treated group and recovery group was observed which could be considered as a treatment related effect except decrease in absolute liver weights in HD males, increase in relative kidney weights in HDR-28 males, increase in relative adrenal weights in HD male and females and increase in relative epididymides weight in HD males.

Histopathologically, test item-related changes were seen in the small intestine (ileum and jejunum), mesenteric lymph node, spleen, bone marrow (sternum) and trachea of the MD, HID and HD animals. After the 28-day recovery period, item-related changes in the jejunum, ileum and mesenteric lymph node were still present in animals of the HDR-28 dose group. Changes noted in the spleen had partially regressed and bone marrow (sternum) and trachea changes had fully regressed.
After 90 days of recovery, in animals of the HDR-90 dose group, test item-related changes in the jejunum, ileum and mesenteric lymph node had partially regressed.
No test item-related changes were noted in the spleen, bone marrow (sternum) and trachea.
All findings observed in this 90 day study are comparable with 28 day repeated dose toxicity study performed with N-C12,14 alkyl-1,3-diaminopropane (BSL Study No. 084079). It is indicative that the observed effects are local and might have induced by inflammatory changes and therefore treatment related observed effects in various parameters could be secondary changes to the inflammatory responses.
This 90 day repeated dose oral toxicity study including a 28 and 90 day recovery period revealed treatment related changes in few parameters of high dose group male and females. Except histopathology, slight effect on body weight, food Report BSL consumption and clinical signs, no test item related effect was observed in any of the parameters evaluated in MD and HID group. Based on these findings and the histopathological evaluation, the NOAEL (No-Observed-Adverse-Effect-Level) was considered to be 0.4 mg/kg/day under the circumstances of this study.
Executive summary:

In this 90 day repeated dose oral toxicity study (performed according to the First Addendum to OECD Guidelines for Testing of Chemicals, Section 4, No. 407, “Repeated Dose 28-day Oral Toxicity Study in Rodents” adopted 03 October 2008, First Addendum to OECD Guidelines for Testing of Chemicals, Section 4, No. 408, “Repeated Dose 90 day Oral Toxicity Study in Rodents” adopted 21 September 1998, Directive 96/54 EEC B.7 and Directive 2001/59/ EC B.26), the test item N-C12,14 alkyl-1,3-diaminopropane was suspended in corn oil and orally administered in graduated doses to four groups of male and female rats (Wistar RjHan:WI) by oral gavage, using a gavaging canula. The main study included 5 groups (C, LD, MD, HID, HD) with each comprised of 10 male and 10 female animals. 28 day and 90 day recovery study included 2 groups (CR-28, HDR-28, CR-90 and HDR-90) each with 5 male and 5 female animals. 

Total 90 applications per animal were administered and the animals of the recovery groups were kept for further 28 and 90 days following the last administration before terminal sacrifice. 

The following doses were chosen: Low Dose: 0.1 mg/kg bw, Medium Dose: 0.4 mg/kg bw, High Intermediate 1.5 mg/kg bw and High Dose: 6 mg/kg bw. The volume of application was 4 mL/kg bw.

All surviving animals were sacrificed on day 91 – 92 (main group animals) day 119 and 181 (recovery groups). 

Clinical signs and Mortality

No test item specific clinical signs were observed in any of the animals of control LD, MD of main group. The predominant clinical signs observed in HID and HD main and recovery group animals were slight to severe salivation, half-eyelid closure, vocalization , temporary stertorous respiration, oral and nasal discharge, dyspnoea, weight loss and piloerection.

Three mortalities in the main groups were observed ( two female HD and one male HID).There were also 2 mortalities in high dose females of HDR-90 group.

 

Body Weight

In main study males, HD group animals showed statistically significant decrease in overall body weight gain (day 1-90) as compared to corresponding controls. In females, all treated group animals showed marginal decrease in overall body weight gain (day 1-90) as compared to corresponding controls. However, this effect was neither dose related nor statistically significant.

In 28 day recovery group males, the HD animals showed a statistically significant decrease in overall body weight gain during the treatment period (day 1-90) as compared to controls. However, body weight gain in during 28 day recovery period was increased as compared to controls. In 28 day recovery group female animals, overall body weight gain during the treatment period (day 1-90) and 28 day recovery period was comparable to corresponding controls. 

In 90 day recovery group males, the HD animals showed a decrease in overall body weight gain during the treatment period (day 1-90) as compared to controls without reaching statistical significance. However, body weight gain during 90 day recovery period was increased as compared to controls. In 90 day recovery group female animals, there was no any effect on body weight during treatment and recovery period.

 

Food Consumption

In main study males, HD group animals showed statistically significant decrease in food consumption (day 1-90) as compared to corresponding controls. Food consumption from LD, MD and HID was slightly decreased without reaching statistical significance when compared with that of corresponding control group. 

In females, all treated group animals showed decrease in food consumption (day 1-

90) as compared to corresponding controls. However, this effect was not statistically significant. 

In 28 day recovery group males, the HD animals showed a decrease in food consumption during the treatment period (day 1-90) as compared to controls without achieving statistical significance. However, Food consumption during 28 day recovery period was slightly increased as compared to controls. In 28 day recovery group female animals, food consumption during the treatment period (day 1-90) and 28 day recovery period was comparable with corresponding controls. In 90 day recovery group males, the HD animals showed a decrease in food consumption during the treatment period (day 1-90) as compared to controls without reaching statistical significance. However, food consumption during 90 day recovery period was increased as compared to controls. In 90 day recovery group female animals, there was no significant effect on food consumption during treatment and recovery period.  

 

FOB

No differences were observed concerning functional and behavioral examination prior to application and during the last week of treatment. No treatment related abnormalities were recorded concerning posture, gait, palpebral closure, lacrimation, piloerection, arousal and vocalization. No convulsions, tremors, stereotypy or bizarre behaviour were observed in any of the animals.

 

Haematology and Clinical Biochemistry

The blood analysis for haematology and clinical pathology parameters revealed most of the mean and individual values within the biological range. Statistically significant differences in few parameters were found between the treated groups and the corresponding control group. 

 

For hematology, except for Hct values in MD and HID males and MD, HID and HD females, RBC in in main study males of MD group and females of HDR-28, MCV in in HDR-28 females, MCH in HDR-28 females, MCHC in MD and HDR- 28 males, WBC in HD males, no other parameters showed any significant difference compared to controls. Individual values for most of the parameters were within the biological range.

 

Effect on clotting parameters like PTT and aPTT can not be attributed to the treatment with test item and considered to be an incidental due to lack of dose dependency and majority of the group mean values were within the biological range. 

 

Statistically significant decrease in aPTT was observed in LD, MD, HID males, LD, MD females and HDR-90 males when compared with respective controls. 

 

For clinical biochemistry, except for AST/GOT in HD males, TP in female HID and HD group, GLU in HDR-90 males, UREA in female HID, no other parameters showed any significant deviation compared to controls.   

No treatment related effect on urine parameters were found in treated groups as compared to control group.

 

Gross Pathology

At terminal sacrifice of main study and recovery animals, macroscopic findings observed were considered to be spontaneous and not treatment related.

 

Organ Weight

No effect on organ weights was observed except statistically significant decrease in absolute liver weight in HD males, increase in relative kidney weights in HDR-28 males, increase in relative adrenal weights in male and female HD, increase in relative heart weights in males of MD group, decrease in absolute brain weights in HID males, increase in relative brain weights in HD males and decrease in absolute brain weights in HDR-28 males and increase in relative epididymides weights in HD males.

 

Histopathology

Test item-related changes were seen in the small intestine (ileum and jejunum), mesenteric lymph node, spleen, bone marrow (sternum) and trachea of terminally sacrificed animals.

 

After the 28-day recovery period, in animals of the HDR-28 dose group, test item-related changes in the jejunum, ileum and mesenteric lymph node were still present. Changes noted in the spleen had partially regressed and bone marrow (sternum) and trachea changes had fully regressed.

 

After 90 days of recovery, in animals of the HDR-90 dose group, test item-related changes in the jejunum, ileum and mesenteric lymph node had partially regressed. No test item-related changes were noted in the spleen, bone marrow (sternum) and trachea.

Endpoint conclusion
Endpoint conclusion:
adverse effect observed
Dose descriptor:
NOAEL
0.4 mg/kg bw/day
Study duration:
subchronic
Species:
rat
Quality of whole database:
90-day study (OECD 408) sufficient to cover Annex IX requirements. Study is GLP compliant with Klimisch score 1. The applied read-across is adequate, and results are consistent with other available data in tht diamine category.
System:
gastrointestinal tract
Organ:
intestine
mesenteric lymph node

Repeated dose toxicity: inhalation - systemic effects

Endpoint conclusion
Endpoint conclusion:
no study available

Repeated dose toxicity: inhalation - local effects

Endpoint conclusion
Endpoint conclusion:
no study available

Repeated dose toxicity: dermal - systemic effects

Endpoint conclusion
Endpoint conclusion:
no study available

Repeated dose toxicity: dermal - local effects

Endpoint conclusion
Endpoint conclusion:
no study available

Mode of Action Analysis / Human Relevance Framework

The most significant treatment-related changes in all studies performed on polyamines are effects on the small intestine and mesenteric lymph nodes. A relatively strong inflammatory reaction is also observed at high dose levels. These effects in the gastro-intestinal tract have consistently been observed with these polyamines.

A mode of action has not been established but it is possible to suspect the known corrosivity to be at least partially involved. The observed effects are local and they are by some interpreted as phospholipidosis, something commonly observed following treatment with cationic amphiphilic material, including marketed pharmaceuticals, and generally considered to be non-adverse. When taking into consideration the relatively strong corrosive effects of this substance, and for substances belonging to the same group of chemicals, and the route of administration, it cannot be excluded that the overall toxicity reflects a point-of-first-contact effect.

Phospholipidosis is a plausible mechanism. In physiological circumstances, the diamines have a cationic surfactant structure which leads to high adsorptive properties to negatively charged surfaces as cellular membranes. The apolar tails easily dissolve in the membranes, whereas the polar head causes disruption and leakage of the membranes leading to cell damage or lysis of the cell content. As a consequence, the whole molecule will not easily pass membrane structures. Noteworthy in this respect is that recent research shows that the log distribution coefficient for cationic surfactants between water and phospholipid are possibly several orders of magnitude higher than between water and oil. The complex of cationic surfactant and phospholipids are difficult to digest by the macrophages, and they accumulate with the lysosomes. Recent (unpublished) studies have shown that these cationic surfactants are all lysosomotropic, and scored positive for phospholipidosis inin vitrostudies with HepG2 cells.

Additional information

The evaluation of the repeat toxicity of N-Coco-1,3-diaminopropane CAS 61791-63-7 (recently redefined as Amines, N-C12-18-alkyltrimethylenedi-, CAS 68155-37-3), also referred to as Coco-diamine, is based on read-across from N-C12-14 alkyl-1,3-diaminopropane (CAS 90640-43-0), referred to as C12-14-diamine. The available data on C12-14-diamine is generated from a 28 day and 90 day study performed according to OECD guideline and under GLP. There is also an additional 15-day study, also under GLP, available on Coco-diamine itself, which are in agreement with the data obtained from C12-14-diamine.

C12-diamine and Coco-diamine are very similar, sharing the same alkyl-diamine structure, with only a difference in the variation in alkyl-chain lengths. Coco-diamine is an alkyl-diamine for which the alkyl chain varies between C10 and C18, and the average of the chain lengths is somewhere between C12 and C14. The fraction of 12-diamine in Coco-diamine is about 50%. The average chain-length is comparable between Coco-diamine and C12-diamine, and therefore results obtained with the one product are also considered to be fully relevant for the other.

 

The potential toxic effects of Coco-diaminewere evaluated in a 15-day oral toxicity study in rats. The design used for the study is employed by the US-NTP as a standard range-finding study for sub-chronic dosage determination. The study was performed under GLP. Groups of 5 male and 5 female rats were dosed with Coco-diamine suspended in corn oil at dose levels of 0, 6, 30 and 60 mg/kg bw/day. Evaluations consisted of clinical signs, haematology and biochemistry, gross necropsy, organ weights and histopathological evaluation.

Treatment-related mortality occurred in two males and two females from the 60 mg/kg dose group.

Clinical signs of toxicity occurred in the animals of the 30 and 60 mg/kg/day dose groups and included respiratory, behavioural and excretory abnormalities, whereas only minor, transient clinical signs occurred in the 6 mg/kg/day dose group. The male animals of 60 and 30 mg dose groups also showed decreases in body weight gain. Also differences were seen in 60 and 30 mg dose groups for haematological parameters (especially increased neutrophils). Except increased relative adrenal weights (possibly related to the decreased BW) no other statistically significant organ weight effects were noted. Histopathology evaluation of tissues from animals in the 60 mg/kg/day group revealed several treatment-related microscopic changes. These changes included haemorrhage and vacuolation of the adrenals, foamy macrophages in the lamina propria of the small intestine, glycogen depletion in the liver, alteration of the nonglandular stomach mucosa, and haemorrhage and hypoplasia of the thymus. In conclusion, based on the absence of significant clinical signs, body and organ weight effects or notable clinical pathology abnormalities, oral administration of Coco-diamine at 6 mg/kg/day was considered a no-adverse-effect level in rats.

 

 

The 28 day study (OECD 407) on C12-14-diamine was performed at dose levels of 0, 0.4, 1.5 and 6 mg/kg bw/day administered per gavage. An additional group of animals were subjected to the same treatment but which was followed by a 14 day recovery period. Relatively minor changes in haematological, i.e. increase in neutrophils and decrease in lymphocytes, and clinical chemistry (total protein) parameters were observed in the high-dose group. The finding of the most significant toxicological relevance is the histopathological changes in small intestine and mesenteric lymph nodes consisting of accumulation of foam cells. These changes regressed, but were still present, following the 14 day recovery period. A NOAEL of 0.4 mg/kg bw/day was established based on these findings.

 

The 90 day study (OECD 408) on C12-14-diamine was performed using dose-groups of 0, 0.1, 0.4, 1.5 and 6 mg C12-14-diamine/kg bw/day administered dissolved in corn oil by gavage daily for 90 days. Additional groups of animals were administered 0 or 6 mg/kg bw/day for 90 days and were then observed for recovery over 28 or 90 days.

Test item related clinical signs were observed at 1.5 and 6 mg dose groups, consisting of slight to severe salivation, half-eyelid closure, vocalization , temporary stertorous respiration, oral and nasal discharge, dyspnoea, weight loss and pilo-erection.

There was mortality in the highest dose group (4 females) but for 3 of these deaths were likely due to gavaging errors, but for 1 animal the cause of death remains unclear, and it cannot be excluded that substance-related mortality was observed in the highest dose group. There were no effects in the two lowest dosegroups and the NOAEL was set at 0.4 mg/kg bw/day.

The main effects in highest dosegroup were on bodyweight gain, with recovery following end of dosing, and organ weights, such as liver, kidney, adrenal glands and epidydimis. These changes were not accompanied by histological changes and they were specific to one sex, with the exception of adrenal gland. The toxicological relevance of these findings can be questioned.

Histopathologically, test item-related changes were observed in the small intestine (ileum and jejunum), mesenteric lymph node, spleen, bone marrow (sternum) and trachea. They were mainly seen in the 6 mg group, and to a lesser extend in the 1.5 mg group.

In the small intestinal villi, minimal to moderate accumulations of foam cells, interpreted to represent foamy histiocytes, were seen in the jejunum and ileum, predominantly at 6 mg/kg/day, but also in one female at 1.5 mg/kg/day. There was a dose-related foam cell infiltration in the mesenteric lymph node (draining lymph node of the small intestine), in rats treated at 1.5 and 6 mg/kg/day, associated with foci of necrosis/abscess or of fibrosis in some animals treated at 6 mg/kg/day.

Small intestinal and mesenteric lymph node lesions were not reversible during the 28-day recovery period, but had partially regressed after the 90-day recovery period. Spleen, bone marrow and tracheal changes had completely regressed after the 28-day and 90-day recovery period.

 

 

The most significant treatment-related changes in all studies were the effects on the small intestine and mesenteric lymph nodes, which only partially regressed during the recovery period. A relatively strong inflammatory reaction is also observed at higher dose levels. These effects have consistently been observed with these substances, which support the current approach of grouping of substances and read-across of data.

A mode of action has not been established but it is possible to suspect the known corrosivity to be at least partially involved. It is indicative that the observed effects are local and they are by some interpreted as phospholipidosis, something commonly observed following treatment with cationic amphiphilic material, including marketed pharmaceuticals, and considered to be non-adverse.

When taking into consideration the relatively strong corrosive effects of this substance, and for substances belonging to the same group of chemicals, and the route of administration, it cannot be excluded that the overall toxicity reflects a point-of-first-contact effect.

 

Except histopathology, slight effect on body weight, food consumption and clinical signs, no test item related effect was observed in any of the parameters evaluated in mid and high dose groups in the 90-day study. Based on these findings and the histopathological evaluation, the NOAEL (No-Observed-Adverse-Effect-Level) was considered to be 0.4 mg/kg/day under the circumstances of the study.

 

Similar findings were noted in a 28-day oral repeated dose toxicity study with a structurally related substance oleyl-diamine. Based on the limitation of histopathological findings in the 1.25 mg/kg/day dose group to minimal small intestinal foam cell infiltrations in a single animal without any secondary inflammatory change, the NOAEL (No-Observed-Adverse-Effect-Level) of pathological changes was considered to be 1.25 mg/kg/day under the circumstances of the study.

 

The similarity of the findings in these studies (and various others performed on similar substances) supports the acceptability of grouping and the cross-reading between the diamines, and indicated that indeed the shorter chain diamines (i.e. in this case C12/14-diamine) results to the lowest NOAEL. Using the data from C12/14-diamine thus represents a worst case approach in the risk assessment of the longer chain alkyl-diamines.

 

Also the 15-day study on Coco-diamine show comparable results. The higher NOAEL level of 6 mg/kg bw/day however suggests that 14-day might just not be long enough for the effects to fully develop, whereas the NOAEL from the 28-day and the 90-day study do not differ. As the NOAEL does not seem to be influenced by the duration of the study beyond 28-days, this is indicative for the lack of bio-accumulating potential of the diamines.

Inhalation:

N-C12-18-alkyl-1,3-diaminopropane is a liquid/paste with no inhalable particles and a vapour pressure of 0.0015 Pa at 20°C (value based on read-across from C12-14-diamine showing almost similar average molecule weight). Also the use of this substance will not result in aerosols, particles or droplets of an inhalable size, so exposure to humans via the inhalation route will be unlikely to occur.

 

Dermal:

N-C12-18-alkyl-1,3-diaminopropane is corrosive to the skin and is not expected to easily pass the skin. The skin is therefore not a preferred route when studying repeated dose systemic toxicity.

Justification for classification or non-classification

Evaluation for classification is based on the available 90-day study on the C12-14-diamine, and is supported by data from cross-reading within the category of diamines from an available 28-day study on Oleyl-diamine.

 

The available data from C12-14-diamine and Oleyl-diamine indicate that all alkyl-diamines with alkyl chain lengths between C12 and C18 (represented by Oleyl) should be classified Cat.1 for STOT-RE:

- 90-day study on C12-14-diamine: This study showed significant toxicity at the highest tested dose of 6 mg/kgbw/day based on mortality observed in the highest dose group. This is below 10 mg/kg bw and therefore also results to classification STOT-RE Cat.1.

- 28-day study on N-Oleyl-1,3-diaminopropane: This resulted to significant toxicity (mortality) at the highest dose of 20 mg/kgbw/day with effects on weight of body and organs without histological changes. This is below 30 mg/kg bw and therefore also results to classification STOT-RE Cat.1.