[No public or meaningful name is available]

Administrative data

Link to relevant study record(s)

Referenceopen allclose all

Reference 1

Endpoint:

short-term toxicity to birds: dietary toxicity test

Type of information:

experimental study

Adequacy of study:

key study

Study period:

experimental starting date: February 01, 2011; experimental completion date: March 05, 2011

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

other: guideline study on Gas-to-liquids (GTL) substance covering the carbon range from C18 to C50

Qualifier:

according to guideline

Guideline:

OECD Guideline 205 (Avian Dietary Toxicity Test)

Deviations:

no

GLP compliance:

yes (incl. QA statement)

Remarks:

This study was performed in compliance with the Swiss Ordinance relating to Good Laboratory Practice, adopted May 18th, 2005 [SR 813.112.1].

Dose method:

feed

Analytical monitoring:

yes

Vehicle:

no

Details on preparation and analysis of diet:

Test Item Preparation
Diets containing the required amount of the test item were prepared by uniformly mixing in a Hobart mixer an appropriate amount of the test item with the basal diet for young birds. The test item was added to the diet under continuous stirring and diet portions were further mixed for at least three minutes after the test item had been added.

For the pre-test, 1 kg diet portions were prepared with a target test item concentrations of 200 mg/kg diet, 1000 mg/kg diet and 5000 mg/kg diet.

For the limit test, a 3 kg portion was prepared with a target test item concentration of 5000 mg/kg diet. An amount of 16.5 g test item (including an appropriate excess) was mixed to 3 kg diet.

Analysis of Test Item in the Diet
Concentration of Test Item in the Diet

Representative samples of approx. 50 g were taken at discharge from the Hobart mixer.

Homogeneity and Stability of Test Item in the Diet

Representative samples (approx. 50 g) were taken at discharge from the Hobart mixer as follows:

- one random sample from the top of the discharge
- duplicate random sample from the approximate centre of the discharge
- one random sample from the bottom of the discharge

One sample from each level of the discharge was retained for analysis to determine the homogeneous distribution of the test item the diet. The remaining sample from the middle of the discharge was stored at ambient temperature under animal room conditions for 6 days. This sample was additionally analyzed. A control diet sample was taken and analyzed as well.

All samples were stored at -20 °C until analyses.

Duplicate subsamples (2 g) were analyzed in accordance with the analytical procedure (see attached Appendix E). The analyses were performed in the Analytical Laboratories of Harlan Laboratories Ltd.

Test organisms (species):

other: Japanese quails (Coturnix coturnix japonica)

Details on test organisms:

Test System
Species: Japanese quails (Coturnix coturnix japonica)

Rationale: Recognised by international guidelines as the recommended test system.

Number of Animals per Group: 5 (range finding test) or 10 birds (limit test). No attempt was made to determine the sex of the birds because of their size and age.

Age: 17 days old at the beginning of the exposure period, and all birds of the same age (± 1 day).

Average Body Weights at the Start of the Exposure: 84.2-93.0 g

Identification: Due to rapid growth of the animals, it was not possible to number the animals with leg bands. Therefore, for determination of body weights and at sacrifice, animals were randomly numbered within each group.

Randomisation: Randomly selected at time of delivery

Acclimatisation: 6 days under laboratory conditions after arrival and health examination. The acclimatization period is appropriate when considering that according to the guideline 10 to 17 day-old birds have to be used for the test. Only animals without any visible signs of illness were used in the study.

Limit test:

yes

Total exposure duration (if not single dose):

5 d

Post exposure observation period:

3 observation days where the animals obtained basal diet.

No. of animals per sex per dose and/or stage:

The test item was administered to one group of 10 Japanese quails by dietary ingestion. No attempt was made to determine the sex of the birds because of their size and age.

Control animals:

yes, plain diet

Nominal and measured doses / concentrations:

The limit test was performed with a nominal concentration of 5000 mg/kg diet. Additionally, two control groups received diet without test item.

Details on test conditions:

Conditions: Continuously monitored environment with a temperature of about 30-38 °C (<14 days old) or 25-30 °C (>14 days old), a relative humidity between 50-70 %, 14 hours fluorescent light (approx. 1000 Lux)/10 hours dark, music during the light period. The temperature was maintained with red light lamps installed above the pens. Pen temperatures were measured in representative positions.

Accommodation: In groups of five or ten in cages with a grid floor. The floor space was about 700 cm²/ bird and the cage height at least 40 cm. By using cardboard boxes, structure was added to the cages (e.g. hiding place, elevated platform, dust bathing area with sawdust bedding).

Water: Community tap water from Füllinsdorf/Switzerland, ad libitum. Results of the bacteriological, chemical and contaminant analyses are given in the attached Appendix F.

Diet: Pelleted bird diet (Beweka Kraftfutterwerk GmbH, 74076 Heilbronn/Germany) ad libitum. The information concerning the basal composition of the diet as provided by the manufacturer is also presented in the attached Appendix G.

Allocation
Pre-test (range finding):
 
Group:                             Number of Animals / Group   Animal Number (Group Housing):
1          5000 mg/kg diet           5                                              1 – 5
2          1000 mg/kg diet           5                                             6 – 10
3          200 mg/kg diet 5                                             11 – 15
 
Limit test:
Group                          Number of Animals / Group           Animal Number (Group Housing)
1          Control             10                                            1 – 10
2          Control             10                                            11 – 20
3          5000 mg/kg diet  10                                            21 - 30

Pre-test

A pre-test with 5 birds each at nominal 5000, 1000 and 200 mg/kg diet was performed. No mortalities occurred at all concentration during a 5 days observation period. Therefore, a limit test was performed.

Limit Test

The animals received the test item by dietary ingestion for a period of five days, followed by three days on basal diet. Diets containing the test item or control diets were available ad libitum.
The limit test was performed with a nominal concentration of 5000 mg/kg diet. Additionally, two control groups received diet without test item.

Method: Orally, by feed admix. The control animals received the same diet but without test item.

Rationale: Dietary administration was selected as a possible route of bird exposure in the field.

Test item Concentration
in the Diet: Group 1: 0 mg/kg
Group 2: 0 mg/kg
Group 3: 5000 mg/kg

Details on examinations and observations:

Observations
Mortality/ Viablity: 1-2 times daily

Clinical signs: Two times during test day 1 and once daily thereafter

Body Weight: On day 1 (pre-dose), end of day 5 and end of day 8

Food Consumption: Measured for the exposure period and the 3-day postexposure period


Pathology
Necropsies of the test group and the control groups were performed by experienced personnel.

All animals surviving to the end of the observation period were sacrificed by intraperitoneal injection of Esconarkon AD US.VET (Streuli Pharma AG, 8730 Uznach/Switzerland) at a dose of at least 1.0 mL/kg body weight (equivalent to at least 300 mg sodium pentobarbitone/kg body weight) followed by exsanguination. The animals were examined macroscopically and all abnormalities were recorded.

Duration (if not single dose):

5 d

Dose descriptor:

LC50

Effect level:

> 5 000

Conc. / dose based on:

test mat.

Basis for effect:

mortality

Remarks on result:

other: No test item related mortalities and no symptoms were observed within the observation period. At necropsy, no macroscopic findings were observed for the treated animals

Duration (if not single dose):

5 d

Dose descriptor:

NOEC

Effect level:

>= 5 000

Conc. / dose based on:

test mat.

Basis for effect:

other:

Remarks on result:

other: No test item related mortalities and no symptoms were observed within the observation period. At necropsy, no macroscopic findings were observed for the treated animals.

Mortality and sub-lethal effects:

1.1 Mortality
Results of the limit test are presented in Appendix A.

Pre-Test
In the pre-test, the test item was administered to 5 Japanese quails each at dose levels of 200, 1000 and 5000 mg/kg diet. No mortality and no symptoms were observed during a
5-day observation period in all of the dose groups. Therefore, a limit test was performed with a concentration level of 5000 mg/kg diet.

Limit-Test
In the limit test at a concentration level of 5000 mg/kg diet, no mortality of the treated birds was observed within the observation period of 8 days. Therefore, the LC50 level for the test item was > 5000 mg/kg diet.

Three of the 20 control animal died. However, taking into account the 20 control animals of a second study (Harlan Laboratories Study D19794) and 17 reserve animals, in total, only 3 of 57 non-treated animals died during the test period. This is confirmation that the maintenance of the birds was appropriate.


Clinical Signs
Results are presented in the attached Appendix A.

No symptoms were observed at a concentration level of 5000 mg/kg diet. Therefore, the NOEC (no observed effect concentration) was > 5000 mg/kg diet.


Macroscopic Findings
For the Limit test, all animals of groups 1-3 were necropsied at the end of the observation period. The results are presented in the attached Appendix B.
No findings were observed in all the animals necropsied at the end of the study. In one of the control animals that died during the test, inflammatory foci were seen on the outside of the heart. One animal had coagulated blood in the abdominal cavity, probably resulting form the i.p. injection of Esconarkon.


Body Weight
Tabulated body weights are presented in the attached Appendix C.

Average body weights before the start of the treatment ranged from 84.2 to 93.0 g for groups 1 to 3. The body weight of the treated animals was on average 124.6 ± 10.2 g on day 5 and 144.3 ± 11.6 on day 8. These weights were similar to the weights of control groups 1 and 2.


Food Consumption and Test Item Intake
Results are presented in the attached Appendix D.

Individual food consumption

The Individual Food Consumption (IFC) during observation days 0-5 (average values, per animal per day) in group 3 (20.2 g food/animal/day) was similar to the IFC of groups 1 and 2 (17.9-20.3 g) Also after termination of the treatment, the IFC for group 3 (21.1 g) was similar to the control groups (21.0-22.5 g).

Relative food consumption

The Relative Food Consumption (RFC) during observation days 0-5 was 176.1 g (average values, per kg body weight per day) of group 3 (234.1g/kg body weight/day) was similar to the RFC of control group 2 (231.0 g). RFC of group 1 (188.8 g was slightly lower when compared to groups 2 and 3. After termination of the treatment, the relative food consumption of all three groups was similar (169.5-177.4 g).

In conclusion, there was no difference in individual food consumption and relative food consumption between the treated group and the control groups.

Test item intake

The test item intake (TII) was calculated based on the food consumption and the nominal test item concentration in the diet:

Group 3: 1170.6 mg test item per kg body weight per day

The LC50 based on test item intake was therefore > 1170.6 mg per kg body weight per day.

Analysis of Test Item in the Diet

Results are presented in the attached Appendix E.

 

The mean concentration of the substance in the diet samples was 106.9% (see “Results” of the analytical report) of the nominal concentration.

 

Maximal deviation of the homogeneity samples was 8.8% of the mean concentration. Therefore, the test item was found to be homogeneously distributed in the diet. Furthermore, the test item was found to be sufficiently stable in the diet during storage at room temperature for 6 days (average 88.6%).

Schedule

Limit test:

 

Groups	Hatch	Arrival of animals	Start of the limit test	End of the limit test
1-3	28-JAN-2011	08-FEB-2011	14-FEB-2011	22-FEB-2011

Validity criteria fulfilled:

yes

Conclusions:

The median lethal concentration (LC50) for the dietary oral toxicity of the test item in young Japanese quails was determined as > 5000 mg test item/kg diet.

No test item related mortalities and no symptoms were observed within the observation period. At necropsy, no macroscopic findings were observed for the treated animals. Therefore, the NOEC (no observed effect concentration) was determined as > 5000 mg/kg diet.

Body weights were similar for treated group and the control groups. Food consumption was also similar for the treated group and the control groups.

The LC50 based on test item intake was > 1170.6 mg per kg body weight per day.

Executive summary:

In a dose range finding pre-test, the test item 'Distillates (Fischer-Tropsch), heavy, C18-50 - branched, cyclic and linear' was administered to 5 Japanese quails each at dietary dose levels of 200, 1000 and 5000 mg/kg diet. All quails survived an observation period of 5 days and no symptoms were observed.

 

Based on the pre-test, a limit test was performed. The test item was administered to one group of 10 Japanese quails by dietary ingestion at a nominal dose level of 5000 mg test item/kg diet for 5 treatment days followed by 3 observation days where the animals obtained basal diet.

 

No mortality was observed in the main study at a dose level of 5000 mg/kg diet, therefore, the LC50 of 'Distillates (Fischer-Tropsch), heavy, C18-50 - branched, cyclic and linear' was determined as > 5000 mg/kg diet.

 

No symptoms and no macroscopic findings were observed in the treated animals. Therefore, the NOEC (no observed effect concentration) was determined as >5000 mg/kg diet.

Body weights and food consumption were similar for treated group and the control groups.

 

The mean test item intake over the treatment period of five days was as follows: 

Group	Dietary test item concentration (mg/kg)	IFC g food per animal per day	RFC g per kg body weight per day	TII mg test item per kg body weight per day
1	0	17.9	188.8
2	0	20.3	231.0
3	5000	20.0	234.1	1170.6

IFC:    Individual Food Consumption

RFC:   Relative Food Consumption

TII:      Test Item Intake

 

CONCLUSION

The median lethal concentration (LC50) for the dietary oral toxicity of the test item in young Japanese quails was determined as > 5000 mg test item/kg diet.  

No test item related mortalities and no symptoms were observed within the observation period. At necropsy, no macroscopic findings were observed for the treated animals. Therefore, the NOEC (no observed effect concentration) was determined as >5000 mg/kg diet.

Body weights were similar for treated group and the control groups. Food consumption was also similar for the treated group and the control groups.

The LC50 based on test item intake was >1170.6 mg per kg body weight per day.