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Diss Factsheets

Administrative data

Description of key information

Green liquor is acutely toxic in oral exposure. No tested information is available on acute toxicity via dermal and inhalation route.

Key value for chemical safety assessment

Acute toxicity: via oral route

Link to relevant study records
Reference
Endpoint:
acute toxicity: oral
Type of information:
experimental study
Adequacy of study:
key study
Reliability:
1 (reliable without restriction)
Qualifier:
according to guideline
Guideline:
OECD Guideline 423 (Acute Oral toxicity - Acute Toxic Class Method)
Deviations:
yes
Remarks:
Slight modifications in selection of dose intervals and the number of exposed animals
Principles of method if other than guideline:
Only 3 animals were dosed at the lowest dose level 300 mg dry weight/kg. The test procedure does not follow completely the minimum requirements of the numbers of test animals for classification purposes in the Globally Harmonised System (GHS).
GLP compliance:
yes (incl. QA statement)
Test type:
acute toxic class method
Limit test:
no
Species:
rat
Strain:
Wistar
Sex:
female
Details on test animals or test system and environmental conditions:
TEST ANIMALS
- Source: HanTac:WH (GALAS) from Taconic Europe A/S, Ejby, Denmark
- Age at study initiation: 8-10 weeks
- Weight at study initiation:147 to 186 grams
- Fasting period before study: On the day of dosing the animals were fasted overnight and the food was withheld for a further 3-4-hour period following treatment
- Housing: The rats were kept in transparent polycarbonate cages (floor area: 1500 cm² - Height 21 cm) with either one or two rats in each cage during the acclimatisation period. The cages were cleaned and the bedding changed twice per week. Bedding in sawdust "Jeluxyl" from Jelu Werk GmbH, Josef Ehrler GmbH & Co KG, Ludwigsmühle, D-73494 Rosenberg, Germany.
- Diet (e.g. ad libitum):Altromin 1314 Fortified ad libitum
- Water (e.g. ad libitum):Animals had free access to bottles with domestic quality drinking water acidified with hydrochloric acid to pH 2.5 in order to prevent microbial growth.
- Acclimation period: at least 5 days

ENVIRONMENTAL CONDITIONS
- Temperature (°C): 21°C ± 3°C
- Humidity (%): 55% ± 15%
- Air changes (per hr): 10
- Photoperiod (hrs dark / hrs light): a cycle of 12 hours light and 12 hours darkness
Route of administration:
oral: gavage
Vehicle:
water
Remarks:
pH adjusted to 10.5 prior to administration
Details on oral exposure:
Material dosed as supplied, pH adjusted to 10.5 to avoid corrosive effects in animals. Dose concentration based on the formulation contains approximately 80% (w/w) water corresponding to 234 mg dry weight/mL (assumed density approximately 1.170 g/mL (at 20 °C))
-
A single oral dose was administered to the animals by oral gavage.
-
The dose volume was calculated according to the most recent body weight data.
-
Dosing in each group was performed sequentially meaning that only one animal was dosed on the first day. When no signs of evident toxicity were observed after treatment, the remaining animals in the group were dosed the following day.
-
As there were no pre-terminated or moribund animals following dosing in Group 1 (receiving 300 mg dry weight/kg), Group 2 was dosed with 2000 mg dry weight/kg.
-
The first day of treatment in each group was designated Day 1. Thereby the first animal in each group was dosed on Day 1 and the remaining two animals on Day 2. However animal Nos 5 and 6 in Group 2 were first dosed on Day 3, as they were not fasted overnight from Day 1 to Day 2.
-
All animals were observed for 7 days following dosing.
Doses:
2000 mg/kg, 500 mg/kg, 300 mg/kg
No. of animals per sex per dose:
2 female animals - 2000 mg/kg
1 female animal - 500 mg/kg
3 female animals - 300 mg/kg
Control animals:
no
Sex:
female
Dose descriptor:
LD100
Effect level:
< 2 000 mg/kg bw
Based on:
test mat.
Sex:
female
Dose descriptor:
LD50
Effect level:
>= 500 mg/kg bw
Based on:
test mat.
Sex:
female
Dose descriptor:
LD0
Effect level:
ca. 300 mg/kg bw
Based on:
test mat.
Clinical signs:
other: No clinical signs of evident acute toxicity were observed among the animals treated with 300 mg dry weight/kg. Following treatment with 500 and 2000 mg dry weight/kg signs of evident acute toxicity were observed in the dosed animals. These signs were cons
Gross pathology:
No macroscopic findings were observed in any of the animals at necropsy.

Dose 2000 mg dry weight/kg The first animal (animal No 4) dosed at 2000 mg dry weight/kg was, 2 minutes following dosing, passive and had forced respiration and muscle shivering. Five (5) minutes following dosing, no respiration could be observed and it was decided to terminate the animal based on the observed clinical signs. The second animal (animal No 5) dosed with the same dose had 1 minute following dosing uncoordinated movements and was lying on its side. Furthermore, the animal had no muscle tonus. Based on the observed clinical signs, it was decided to terminate the animal 1 minute after dosing.

Dose 500 mg dry weight/kg Following dosing with a dose at 500 mg dry weight/kg, the animal was less active and had uncoordinated movements 1 minute after dosing. Approximately 5 minutes after dosing, the animal was lying passive with little movement and had forced respiration together with a pinched abdomen. The animal was 10 minutes after dosing passive and subdued and had pinched abdomen. Twenty (20) minutes after dosing, the animal was less active and had slight piloerection together with a pinched abdomen. The animal was observed as less active at 1 and 3 hours after dosing. Six (6) hours after dosing and throughout the remaining part of the observation period, no clinical signs were observed.

Dose 300 mg dry weight/kg Following dosing at 300 mg dry weight/kg, one animal showed slight piloerection and another animal was less active 5 minutes after dosing. Ten minutes after dosing and throughout the remaining part of the observation period, no clinical signs were observed. No clinical signs were observed in the remaining animal dosed at 300 mg dry weight/kg.

Interpretation of results:
toxic
Remarks:
Migrated information Criteria used for interpretation of results: EU
Conclusions:
The substance was toxic to tested animals. As only 3 animals were dosed at the dose level 300 mg dry weight/kg the test item could not be reliable classified to acute toxicity categories according to the CLP/Globally Harmonised System (GHS).
Executive summary:

Under the experimental conditions of this study, it was found that no signs of evident acute toxicity were observed in the three rats receiving a single oral dose of GL4(SA) at 300 mg dry weight/kg. At doses of 500 and 2000 mg dry weight/kg signs of evident acute toxicity were observed in the treated animals. The signs lead to pre-scheduled termination of the two animals receiving 2000 mg dry weight/kg whereas the animal receiving 500 mg dry weight/kg recovered.

Endpoint conclusion
Endpoint conclusion:
adverse effect observed
Dose descriptor:
LD50
Value:
500 mg/kg bw

Acute toxicity: via inhalation route

Endpoint conclusion
Endpoint conclusion:
no study available

Acute toxicity: via dermal route

Endpoint conclusion
Endpoint conclusion:
no study available

Additional information

Under acute oral experimental conditions (OECD 423) it was found that no signs of evident acute toxicity were observed in the three rats receiving a single oral dose of GL4 at 300 mg dry weight/kg. At doses of 500 and 2000 mg dry weight/kg signs of evident acute toxicity were observed in the treated animals. Green liquor is classifiable to Acute oral toxicity Category 4.

No tested information is available on acute toxicity via dermal and inhalation route.

 

Highly alkaline mists are acutely toxic if inhaled. However, the alkalinity is rapidly reduced by the action of CO2 in the air, and we can hypothesize that its acute inhalation toxicity caused by OH- ions reduces rapidly with time and distance. LOAEL for inhaled alkalinity in rat experiment was 5% of NaOH that resulted in dilation of the bronchi and a slight degeneration of the mucus membrane and thickened strata of the lymphadenoid tissue surrounding the bronchi. In human studies, the inhalation of aerosols of 5 % NaOH by a 25-year-old women resulted in irreversible obstructive lung injury after working for one day in a poorly ventilated room (Hansen et al., 1991). Irritation of the nose, throat, or eyes was observed in workers engaged in cleaning operations where concentrations up to 0.7 mg/m3 NaOH were found. In another unpublished study, eye or throat irritation was reported in a small number of users of an oven spray at concentrations up to approximately 2 mg/m3 NaOH up to 15 minutes.

 

Hydrogen sulfide gases (H2S) are toxic, and lethal if inhaled in high concentrations. H2S is evaporated from GL in contact with acids. If H2S gas is evolved it will be the most toxic compound in GL, and lethal concentrations in animal experiments are: LC50 335 ppm 6 hours for rats and LC100 722 ppm 50 minutes for mice.

The lowest lethal dose evaluated for humans in accidental case reports was only 76 ppm of hydrogen sulfide.

If pH is rapidly decreased sulfides can form hydrogen sulfide that has been shown to be very toxic in the numerous inhalation studies in animals. However, the pH of GL is over 12 and it is very unlikely that hydrogen sulfide forms in a gaseous form under normal handling conditions.

Justification for classification or non-classification

Hydrogen sulfide (EC 231-977-3) has a harmonized CLP classification Acute Tox. 2. Regarding the potential of GL to liberate H2S gas, a classification EUH032 — ‘Contact with acids liberates very toxic gas’ is suitable for green liquor. EUH032 is suitable for substances and mixtures, which react with acids to evolve gases classified for human health acute toxicity in category 1 or 2 in dangerous amounts, such as salts of hydrogen sulfide.

 

The overall classification for acute toxicity for Green liquor is category 4 for oral intake based on the ATE estimation of the known constituents. CLP rules for classification suggest also acute dermal toxicity category 3 for high sulfide content GL.

Sulfide content based specic concentration limits for acute toxicity classification has been derived (see the overall classification summary).