1-(5,6,7,8-tetrahydro-3,5,5,6,8,8-hexamethyl-2-naphthyl)ethan-1-one

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:

27 Jul 2018 to 12 Apr 2019

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

guideline study

Data source

Materials and methods

GLP compliance:

yes

Limit test:

no

Justification for study design:

SPECIFICATION OF STUDY DESIGN FOR EXTENDED ONE-GENERATION REPRODUCTION TOXICITY STUDY WITH JUSTIFICATIONS:
- Premating exposure duration for parental (P0) animals : The male and female rats of the parental (P) generation were treated for at least ten weeks prior to mating. In this specific case ten weeks exposure duration is supported by the lipophilicity of the substance to ensure that the steady state in parental animals has been reached before mating.
- Basis for dose level selection : The dose levels were selected based on results of a dose range finding study (496-1-04-19024).
- Inclusion of extension of Cohort 1B, because the uses of the registered substance is leading to significant exposure of professionals and consumers, and there are indications that the internal dose for the registered substance will reach a steady state in the test animals only after an extended exposure.
- Termination time for F2 : F2 pups were sacrificed on postnatal day (PND) 21
- Exclusion of developmental neurotoxicity Cohorts 2A and 2B, no triggers for the inclusion were identified.
- Exclusion of developmental immunotoxicity Cohort 3 , no triggers for the inclusion were identified.
- Route of administration : Oral, through diet, Since the substance to be tested is a crystalline solid, ECHA concludes that testing should be performed by the oral route.
- Other considerations, on choice of species: The rat is the preferred test system because it is a readily available laboratory animal. The rat has been historically shown to be an acceptable animal for reproduction toxicity testing and is recommended by the OECD and other regulatory authorities.

Test material

Specific details on test material used for the study:

SOURCE OF TEST MATERIAL
- Source and lot/batch No.of test material: 0000091655
- Expiration date of the lot/batch: 31 August 2018, The test item was expired during the experimental phase of the study as per the declared expiry date on the CoA (Certificate of Analysis) provided by the Sponsor. To establish the stability of the test item, the active ingredient content was analysed concurrently with the dosing period i.e., within one week before declared expiry and within one week after completion of dosing following the validated analytical method. The CoA and comparison of analysed purity are reported in the final report. Analysis of the active ingredient demonstrated that the content of the test item was within experimental variation of previously established purity of 98.00% and that the purity of the test item was unchanged.
- Purity: 98% (analysed purity); 97.83% (Verification of purity before dosing); 97.79% (Verification of purity after dosing)
- Appearance: White to off-white solid

STABILITY AND STORAGE CONDITIONS OF TEST MATERIAL
- Storage condition of test material: As per the instruction received from the Sponsor on storage of the test item, the test item was stored: Storage Temperature : Room Temperature; Storage Container : In original container as supplied by the Sponsor
- Stability under test conditions: The test item is stable up to 14 days at room temperature based on the results of the method validation study.

Test animals

Species:

rat

Strain:

Wistar

Remarks:

RccHan:WIST

Sex:

male/female

Details on test animals or test system and environmental conditions:

TEST ANIMALS
- Source: Jai Research Foundation
- Females nulliparous and non-pregnant: yes
- Age at study initiation: (P) 5-6 weeks
- Housing: During the experiment period, rats were housed in groups of 2/3 rats/cage/sex and enrichment material was provided. During the mating period, rats were housed in groups of two rats/cage (one male and one female). Mated female rats were housed individually and nesting material were provided near parturition. During the study, rats were housed in solid floor polypropylene rat cages (size: 41 cm x 28.2 cm x 18 cm). Each cage was fitted with a stainless-steel top grille having provision for a polypropylene water bottle with stainless steel drinking nozzle. Separate food hoppers were attached to the cages for diet. The bottom of the cages was layered with clean sterilised rice (paddy) husk as the bedding material. Cages were placed on 5 and 6 tier racks. Cages were changed at a minimum of twice a week. Cages were arranged in such way that possible effects due to cage placement are minimised. Contaminant analysis (chemical and microbial) of samples of the bedding material (paddy husk) were performed at six months intervals and the most recent results were included in the final report.
- Diet: The experimental rats were fed ad libitum with standard rodent diet. The standard pellet food was powdered (using a grinder) before offering to animals or mixing with the test item. Every food consignment received was accompanied with a certificate of analysis of nutrient content from the food supplier. The most recent results of microbial contaminant analyses were included in the final report.
- Water: unlimited supply of clean and filtered drinking water (filtered through reverse osmosis water filtration system) in polypropylene bottles. The most recent results of microbial and chemical contaminant analyses were included in the final report.
- Acclimation period: 6 days (prior to commencement of randomisation).

ENVIRONMENTAL CONDITIONS
- Temperature (°C): 20-24
- Humidity (%): 57-67
- Air changes (per hr): 16-17
- Photoperiod (hrs dark / hrs light): 12/12

Administration / exposure

Route of administration:

oral: feed

Vehicle:

unchanged (no vehicle)

Details on exposure:

DIET PREPARATION
- Rate of preparation of diet: test diet was prepared at least once a week.
- Mixing appropriate amounts with powder diet: The test item was mixed with the 10% of total diet or 500 g of food (whichever was higher from the total quantity of diet prepared) in a blender in order to prepare the pre-mix. To this pre-mix diet, the remaining amount of diet was added and mixed. This whole amount of diet, thus prepared, was mixed in a blender and made available to the animals ad libitum throughout the study.
- Storage temperature of food: The prepared test diet was stored in labelled stainless steel containers covered inside with polythene bags, at the experimental room condition.

Details on mating procedure:

- M/F ratio per cage: 1:1 pairing (unrelated, same dose group)
- Length of cohabitation: until evidence of copulation was observed or 2 weeks had elapsed
- Proof of pregnancy: presence of sperm or copulatory plug referred to as day 0 of pregnancy;
- If mating had not occurred after 2 weeks, the rats were separated without further opportunity for mating and considered as a presumed mated.
- After successful mating each pregnant female was caged: individually
- To produce the F2 generation, 1 male and 1 female rat from the F1 (Cohort 1B) generation were randomly selected and subsequently mated (14-15 weeks of age) in a 1:1 ratio. Care was taken to avoid sibling mating.

Analytical verification of doses or concentrations:

yes

Details on analytical verification of doses or concentrations:

The active ingredient (a.i.) concentration and homogeneity of the test item in the test diet was analysed once before initiation of treatment and at one-month intervals during the treatment period. Duplicate samples of control from middle and triplicate samples from different locations (i.e., top, middle and bottom of the container) of the test diet from each group were taken to determine the homogeneity and concentration of the test item in the treated diet. On each occasion of test diet analysis, the mean concentration was determined and compared to the nominal value. The acceptance criteria were ± 20% deviation from nominal value and %CV < 20. The samples were analysed using a validated analytical method. Following instrumental parameters will be used for analyses: Instrument : HPLC; Column : 250 mm x 4.6 mm (i.d), 5 µm particle size; Wavelength (nm) : 210; Injection volume (µL) : 20; Flow rate (mL/minute) : 1.0; Mobile phase : Solvent (A) - Acetonitrile (80%), Solvent (B) - 0.1 % Orthophosphoric acid in Milli-Q Water (20%)

Duration of treatment / exposure:

- Parental (P) and F1 (selected for Cohort 1A and 1B) rats were offered the control or test diet continuously on a 7-days/week basis, till the scheduled necropsy. Exposure to the test item to both P sexes were commenced ten weeks prior to mating and continued during the two-weeks mating period. After mating, P male rats were further exposed, up to, and including the day before scheduled sacrifice (i.e. till delivery of P females). P female rats were further exposed during gestation and up to weaning of F1 pups. Unless already initiated during the lactation period, direct treatment of the selected F1 male and female pups began at weaning and continue, until the scheduled necropsy.
- Cohort 1B rats was maintained on treatment beyond PND 90 and bred to obtain a F2 generation. Male rats and female rats were 14-15 weeks old at the time of mating. Procedure of mating was the same as described for the P animals. F2 generation pups were evaluated up to PND 21.

Frequency of treatment:

Continuous

Details on study schedule:

- F1 parental animals not mated until Postnatal day 90 after selected from the F1 litters.
- Selection of parents from F1 generation when pups were 21 days of age (PND 22).
- Age at mating of the mated animals in the study: 14-15 weeks

Doses / concentrationsopen allclose all

No. of animals per sex per dose:

P: 25 rats/sex/group
F1 (Cohort 1A/1B): 20 rats/sex/group

Control animals:

yes, plain diet

Details on study design:

- Dose Justification: The dose levels were selected based on results of a dose range finding study (496-1-04-19024)
- Selection of Pups for Post-Weaning Evaluations on Post-natal Day: A) Cohort 1A: One male and one female F1 pup per litter (20 pups/sex/group; wherever possible) were randomly assigned for primary assessment of effects on reproductive systems and general toxicity. , B) Cohort 1B: One male and one female F1 pup per litter (20 pups/sex/group; wherever possible) were randomly assigned for follow-up assessment of reproductive performance by mating F1 rats.

Examinations

Parental animals: Observations and examinations:

CAGE SIDE OBSERVATIONS:
Rats were observed daily, twice, for mortality and morbidity. All visible clinical signs were noted and recorded daily, once, throughout the study.

DETAILED CLINICAL OBSERVATIONS:
Detailed clinical examination of all P and F1 rats (after weaning) was performed on a weekly basis, on the day of the body weight recording. Signs noted included, but were not limited to, 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). Changes in gait, posture, response to handling, as well as the presence of the clonic or tonic movements, stereotypy (e.g., excessive grooming, repetitive circling) or bizarre behaviour (e.g., self-mutilation, walking backwards) were also recorded.

BODY WEIGHT:
Body weight of P male rats was recorded on the first day of treatment and weekly thereafter. Body weight of P female rats was recorded on the first day of treatment and weekly thereafter during the pre-mating and mating period. Body weight of P female rats was recorded on gestation day 0, 7, 14 and 20, and lactation days 0, 4, 7, 14, and 21.
On the day of fasting, body weight of respective rats was recorded. Body weight of all rats was also recorded on the day of sacrifice.

FOOD CONSUMPTION AND COMPOUND INTAKE:
The food consumption was determined by weighing of food input and leftover. Food weight of all P male rats was measured weekly during pre-mating and post-mating period. In P female rats, during pre-mating period, food weight was recorded, at weekly intervals. During gestation period, food weight was recorded, on gestation days 0, 7, 14, and 20. During lactation period, food weight was recorded, on lactation days 0, 4, 7, 14, and 21. Additional food was offered as and when required. Food consumption was not measured during mating period. After weaning, the cage wise food weight was recorded at weekly interval, till necropsy.
Compound intake was calculated as time-weighted averages from the consumption and body weight gain data.

BLOOD AND URINE COLLECTION
At the time of the terminal sacrifice, blood (maximum 3.5 mL) was collected from P and F1 (Cohort 1A) rats (except female rats sacrificed on GD 25) under anaesthesia (isoflurane) by orbital plexus puncture. Rats were deprived of food overnight (water provided), prior to the blood collection. Blood samples were collected for haematology (in vials containing 4% EDTA), coagulation parameters PT and APTT (in vials containing 3.2% sodium citrate), clinical chemistry, and thyroid hormone analysis (in vials without anticoagulant). Samples were collected before 13:00 hours per day. Serum samples were preserved at -70 ± 10 °C, till their analysis. Any residual/retained serum samples will be discarded after confirmation for the finalisation of the study report.
Urine samples were collected overnight from 10 rats/sex/group (P and cohort 1A) in rat metabolic cages using graduated collecting tubes.

CLINICAL PATHOLOGY OBSERVATIONS
The haematology, clinical chemistry, and urine parameters as described in Tables 2, 3 and 4 in 'Any other information on materials and methods, incl. tabels' were analysed from 10 rats/sex/group (from P and Cohort 1A).

THYROID HORMONE ANALYSIS
Serum thyroid hormones T3, T4, and TSH were analysed. Level of T3 and T4 in serum was analysed using a validated bioanalytical method. Level of TSH in serum was analysed through ELISA methods provided in the kit literature. Serum thyroid hormones T3, T4, and TSH levels were analysed as specified in Tables 5 and 7 in 'Any other information on materials and methods, incl. tables'.

LYMPHOCYTE SUBPOPULATION ANALYSIS
From randomly selected 10 F1 rats (cohort 1A)/group/sex, spleen was cut half (transverse section) and used for lymphocyte (phenotypic) subpopulation analysis. From the collected spleen, homogenate was prepared and used for T lymphocytes (CD4+ and CD8+), B lymphocyte, and natural killer cell evaluation using flow cytometer. The other half part of the spleen was preserved for the histopathological examination.

Oestrous cyclicity (parental animals):

Oestrous cycle length and pattern was evaluated by the vaginal smears for all P female rats for two weeks period, prior to the mating and throughout the cohabitation/mating period. It was ensured to avoid disturbance of mucosa while obtaining vaginal smear.
Vaginal smear was taken for F1 (Cohort 1A) female pups since the day of vaginal opening till the first oestrus phase was observed. Oestrous cycle length and pattern was evaluated for, two weeks period prior to the terminal sacrifice by vaginal smears for all F1 female rats belonging to the cohort 1A. Vaginal smear was evaluated in cohort 1B since the time of pairing until the mating evidence was observed.
At the time of necropsy, the vaginal smear was examined (from P and F1 rats) to determine the stage of the oestrous cycle.

Sperm parameters (parental animals):

SPERM PARAMETERS
Sperm count was performed in the control and high dose male rats belonging to P and F1 (cohort 1A) generation. Immediately after the sacrifice, right cauda epididymis, and right testis were excised, weighed, and stored at -20 ± 3 °C for enumeration of cauda epididymal sperm reserves and homogenisation - resistant spermatids, respectively. Vas deferens was used for the assessment of sperm motility (performed in all-male rats of P and F1 generation - cohort 1A) and sperm morphology (performed in control and high dose male rats belonging to P and F1 generation – cohort 1A).
Sample of right cauda epididymis and right testis belonging to the low and mid-dose groups will be discarded at the time of report finalisation.

SPERM MOTILITY
Immediately after sacrifice, right vas deferens was placed in a petri dish containing 3 mL of Dulbecco's Phosphate Buffered Saline (maintained at 36-38 °C) on a slide warming table. The vas deferens was pressed from approximately the mid-point with gentle pressure to allow the sperm ‘swim out”. After completion of this step, the mixture of the sperm and medium was pipetted (one drop) directly onto a pre-warmed slide for motility assessment under a light microscope at 40x magnification. Motility assessment of the sperm was determined based on the movement of the sperm and respective motility grades were assigned.

SPERM MORPHOLOGY
After the assessment of sperm motility, about 1 mL of sperm suspension was transferred to a test tube (10 x 75 mm) and diluted to 4 mL with Dulbecco's Phosphate Buffered Saline, followed by an addition of 1 drop of 5% eosin Y. The contents of the test tube were gently agitated by “flicking” the bottom of the test tube with a fingertip. These samples were then incubated at the room temperature for approximately 30 minutes to allow staining. At the end of the staining period, sperm was re-suspended gently with a pasture pipette. Using pasture pipette, 1 or 2 drops of stained solution was spread uniformly on the glass slide. Two slides were prepared for each rat. These slides were placed at an angle of 35 - 40° on a tray whose surface was covered with absorbent tissue paper to remove excess stained suspension. These slides were air-dried and mounted with DPX. 200 sperms/slide were evaluated for morphological abnormalities from the control and high dose rats belonging to P and F1 generation (cohort 1A).

SPERM COUNT
Frozen right cauda epididymis and testis were removed from the freezer and maintained at the room temperature for approximately 10 to 15 minutes for thawing. A known volume of 15 mL saline merthiolate-triton (SMT) for cauda epididymis and 25 mL SMT for testis was used. The tissue was homogenised for 2 to 3 minutes and allowed the froth to dissipate for a few minutes. The samples were loaded on the chamber of the haemocytometer using a micropipette. The sperms were left undisturbed for approximately 5 minutes, to settle down, prior to their count. When the mean count of the five squares in the first chamber varied by more than 15% on either side of the mean value, the second chamber was loaded, and sperm were counted in a similar manner to that of the first chamber. In this case, the final mean value was calculated from all squares counted. The number of sperm head per gram of tissue was calculated.

Litter observations:

STANDARDISATION OF LITTERS
On postnatal day (PND) four, the size of each litter was adjusted by eliminating extra pups by random selection to yield, as nearly as possible, five male pups and five female pups per litter. Wherever the number of male pups or female pups prevents having five of each sex per litter, partial adjustment (e.g., six male and four female) was performed. Adjustments were not done for litters of ten pups or less.

PUPS OBSERVATIONS
Each litter was examined as soon as possible, after parturition to establish the number and sex of pups, stillbirths, runts, live birth, and the presence of gross anomalies. Found dead pups, on the day of littering, which were not macerated were examined for possible defects and cause of death. Pups which died during study were weighed and subjected to the post-mortem examination. Each pup was observed for the presence of milk band in the stomach from PND 0 to 4, as a part of the nursing care.
In addition, all live pups on day of delivery were observed for the first clinical examination of the pups which included a qualitative assessment of the body temperature, state of activity, and reaction to handling.

BODY WEIGHT
Live pups (F1 and F2) were counted and weighed individually at birth or soon thereafter and on postnatal day 4, 7, 14, 21, and 22.

ANOGENITAL DISTANCE (AGD)
The anogenital distance (AGD) of each pup (F1 and F2) was measured on PND 0.

NIPPLE RETENTION
On PND 13, nipples/areolae in male pups was observed. As no nipple presence was observed, hence counting was not performed.

PHYSICAL AND SEXUAL DEVELOPMENT LANDMARKS
The day for unfolding of pinna, ear-opening, eye-opening, tooth eruption, and hair growth were recorded on their respective day of occurrence.
The age at the vaginal opening or balano-preputial separation was determined for the F1 weanlings selected for the subsequent evaluations. F1 pups were also weighed on the day of the vaginal opening or balano-preputial separation attended.

BLOOD AND URINE COLLECTION
Blood was collected from F1 surplus pups on PND 4 and F1 weanling pups on PND 22, through decapitation and orbital plexus puncture, respectively for the serum thyroid hormone analysis. Blood was collected from the minimum 1 randomly selected male and female pup per litter, wherever feasible. To increase the sample volume, blood from the additional pups was also collected in some dams where pups were available.

THYROID HORMONE ANALYSIS
Serum thyroid hormones T3, T4, and TSH were analysed. Level of T3 and T4 in serum was analysed using a validated bioanalytical method. Level of TSH in serum was analysed through ELISA methods provided in the kit literature. Serum thyroid hormones T3, T4, and TSH levels were analysed as specified in Table 6 in 'Any other information on materials and methods, incl. tables'.

Postmortem examinations (parental animals):

SACRIFICE
Schedule for sacrifice: P male rats were sacrificed after the delivery of P female rats. P female rats were sacrificed on lactation day 22. Cohort 1A rats were sacrificed during the 14-weeks of the treatment period. Cohort 1B male rats were sacrificed, following during the 21 weeks of the treatment period. Cohort 1B female rats were sacrificed on lactation day 22. Females, which have not delivered by post-coitum day 25, were sacrificed on the same day. Female rats with no live pups were kept fasting on the same day when the observation was made and were sacrificed on the next day.

GROSS NECROPSY
Surviving rats (including weanling pups) were sacrificed, by using an overdose of carbon dioxide. Gross pathological observations were made for all adult rats (P and F1). Gross necropsy was conducted under the direct supervision of a veterinary pathologist. Rats were examined carefully for the external abnormalities. After opening the abdominal cavity, rats were exsanguinated by cutting the abdominal aorta or posterior vena cava to drain out blood from the rat. It was ensured to avoid any damage to the visceral organs while opening the body cavities. The thoracic and abdominal cavities were cut, opened, and a thorough examination of the organs was carried out to detect abnormalities. Special attention was paid to the organs of the reproductive systems during the gross examination of all rats. The uteri of all cohabited female rats were examined for the presence and number of implantation sites. Number of corpora lutea were recorded from those female rats in which implants were observed on the gestation day 25.

ORGAN WEIGHTS
On the day of the terminal sacrifice, wet weight of the below-mentioned organs (see Table 1 in 'Any other information on materials and methods incl. tables') from all adult rats (P and F1) were determined as soon as possible after dissection to avoid drying. Paired organs were weighed individually except four rats of GD 25. The organs were weighed and preserved in 10% NBF except testes and eyes in a modified Davidson’s fixatives and Davidson’s fixatives, respectively.

HISTOPATHOLOGY
Histopathology of the organs was performed on all high dose and control rats. Organs (liver – target organ and thyroid) demonstrating treatment-related changes were examined in the low and mid-dose groups from Parent and cohort 1A rats.
Parent animals: Histopathology was performed for the organs listed in Table 1 in 'Any other information on materials and methods incl. tables'. Additionally, histopathology of the reproductive organs of rats suspected of reduced fertility was performed in dams sacrificed on GD 25 and their respective male rats and also in dams in which oestrous cycle was affected. Gross lesions were subjected to histopathological evaluation.

F1 (Cohort 1A) animals: Histopathology was performed for the organs listed in Table 1 in 'Any other information on materials and methods incl. tables'. Quantitative evaluation of primordial and small growing follicles, as well as corpora lutea (from 10 rats of each group G1 and G4), oviduct, uterus, and vagina were examined for appropriate organ-typic development. Detailed testicular histopathology examinations were conducted on the F1 male rats in order to identify treatment-related effects on testes differentiation and development and on spermatogenesis. Periodic Acid Schiff (PAS) and hematoxylin and eosin staining were used for examination of the testes. Caput, corpus, and cauda of the epididymis and the vas deferens were examined for appropriate organ-typic development.

F1 (Cohort 1B) animals: Organs/tissues of cohort 1B rats were processed to the block stage.

Postmortem examinations (offspring):

SACRIFICE
Schedule for sacrifice: Unselected weanlings of F1 were sacrificed on PND 22. F2 pups were sacrificed on the PND 21.

GROSS NECROPSY
Surviving rats (including weanling pups) were sacrificed, by using an overdose of carbon dioxide. Culled pups on PND 4 (not subjected for hormone analysis) were sacrificed, through intraperitoneal administration of thiopentone sodium. Gross pathological observations were made for all adult rats (P and F1) and all pups (F1 and F2). Gross necropsy was conducted under the direct supervision of a veterinary pathologist. Rats were examined carefully for the external abnormalities. After opening the abdominal cavity, rats were exsanguinated by cutting the abdominal aorta or posterior vena cava to drain out blood from the rat. It was ensured to avoid any damage to the visceral organs while opening the body cavities. The thoracic and abdominal cavities were cut, opened, and a thorough examination of the organs was carried out to detect abnormalities. Special attention was paid to the organs of the reproductive systems during the gross examination of all rats including pups.
Pups, which were found dead on the day of delivery (i.e., PND 0), were subjected to a gross examination and a portion of the lung was immersed in water for confirmation of the status (stillbirth or dead). Pups which were found dead were observed for the presence of milk band.
Pups, which died before scheduled sacrifice (during PND 0 to 21) were examined, for gross lesions and the cause of death or condition, as soon as possible, after the observation is made. In case of a pup with gross lesions (PND 0 to 21), the whole pup was kept in Bouin’s fluid. Pups without gross lesions were discarded, after examination.

ORGAN WEIGTHS
See Table 1 in 'Any other information on materials and methods incl. tables'.

HISTOPATHOLOGY
Microscopic examination of liver (target organ) from F1 and F2 pups was carried out from control and all dose group rats (10 pups/sex/group).

Statistics:

The statistical analysis was carried out for the parameters using validated statistical software. Non-pregnant rats were excluded from analysis. Assumed pregnant rats were excluded from analysis of gestation phase parameters. Pups data (litter size, AGD, pups body weight, and physical development landmark) was evaluated using the litter as the unit for data analysis. All parametric data were analysed to calculate the significance at 95% and 99% whereas non-parametric data was analysed to calculate significance at 95%.
Data such as body weight (gain), food consumption, food efficiency, physical & sexual development landmark, organ weight (ratio), % pre-natal loss, % post-natal loss, male sex ratio, oestrous cycle length, sperm count, % sperm morphology, haematology, clinical chemistry, urinalysis, thyroid hormone, and litter parameters (pups body weight (gain), body temperature, and AGD) were subjected to Bartlett’s test to meet the homogeneity of variance before conducting Analysis of Variance (ANOVA) and Dunnett’s t-test. When the data did not meet the homogeneity of variance, statistical analysis was extended following a decision tree as provided by Gad, S.C., 2007. AGD was normalised (the ratio of AGD to the cube root of body weight) and then subjected for statistical analysis.
Count data (viz., litter size, number of implants, pre-coital interval, duration of gestation, number of oestrous cycles; pre-natal loss, post-natal loss) were subjected to non-parametric test i.e., Kruskal-Wallis test. The non-parametric data (sperm morphology - number and ovarian follicular count) was analysed using the Mann-Whitney test.
Non-parametric indices such as mating, fertility, gestation, parturition, pregnancy rate, survival, mortality, live birth and lactation were analysed using a Chi-Square test.
Flags for significant difference between control and treated groups (single arrow for p≤0.05 and double arrows for p≤0.01) were given in the table along with the footnote.

Reproductive indices:

Mating index = Number of mated animals / Number of paired animals x 100
Male fertility index = Number of males impregnating female / Number of males used for cohabitation x 100
Female fertility index = Number of females with confirmed mating / Number of female cohabited x 100
Gestation index = Number of females with live-born pups / Total N° of female with evidence of mating x 100
Sperm count = (Mean number of sperm head counted x Square factor x Haemocytometer factor x Dilution factor) / Tissue (Testis or Epididymis) weight x 100

Offspring viability indices:

Post-implantation loss = (Number of implants - Number of viable pups) / Number of implants x 100
Post-natal loss = Number of live pups born – pups alive at postnatal day 4
Pup survival index = (N° of live pups on lactation day 0 or 4 or 7 or 14 or 21) / (N° of pups born or N° of pups retained on lactation day 4) x 100
Live birth index = Number of live-born pups / Number of delivered pups x 100
Male sex ratio = Number of male pups on lactation day 0 / (Total number of males + female pups on lactation day 0) x 100
Lactation index = Number of pups alive on lactation day 21 / Number of pups retained on lactation Day 4 x 100

Results and discussion

Results: P0 (first parental generation)

General toxicity (P0)

Clinical signs:

no effects observed

Description (incidence and severity):

All rats belonging to the control and the test item treated groups were normal, throughout the study period.

Dermal irritation (if dermal study):

not examined

Mortality:

no mortality observed

Description (incidence):

No mortality and morbidity were observed during the study period in the control and the test item treated groups.

Body weight and weight changes:

effects observed, treatment-related

Description (incidence and severity):

BODY WEIGHT
MALE
The mean body weight of male rats of the test item treated groups was comparable with that of the control group.

FEMALE
- Pre-mating: The mean body weight of female rats of the test item treated groups was comparable with that of the control group.
- Gestation: The mean body weight of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower during gestation on days 0, 7, 14, and 20 when compared with that of the control group.
- Lactation: The mean body weight of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower during lactation on days 0, 4, 7, 14, and 21 when compared with that of the control group.
This lower mean body weight during gestation and lactation days could be due to a lower mean food consumption of female rats, belonging to the 300 ppm dose group. This effect could be considered as a treatment-related adverse effect of the test item.

BODY WEIGHT GAIN
MALE
The mean body weight gain of male rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 43-50 and 64-71 of treatment when compared with that of the control group.
These occasional lower mean body weight gain without significant effect on food consumption could be considered incidental and without any toxicological relevance.

FEMALE
- Pre-mating: The mean body weight gain of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 15-22, 43-50, and 50-57 of treatment when compared with that of the control group. The mean body weight gain of female rats, belonging to the 100 ppm dose group, was statistically and significantly lower over days 29-36 of treatment when compared with that of the control group.
- Gestation: The mean body weight gain of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 0-7 of gestation when compared with that of the control group.
- Lactation: The mean body weight gain of female rats, belonging to the 50 ppm dose group, was statistically and significantly lower over days 4-7 of lactation when compared with that of the control group.
This decrease in the mean body weight gain during the pre-mating and gestation days could be due to a lower mean food consumption of female rats, belonging to the 300 ppm dose group. This effect could be considered as a treatment-related adverse effects of the test item. However, an occasional lower mean body weight gain without a significant effect on the food consumption and dose dependency in the 50 and 100 ppm dose groups, could be considered incidental, and without any toxicological relevance.

Food consumption and compound intake (if feeding study):

effects observed, treatment-related

Description (incidence and severity):

FOOD CONSUMPTION
MALE
The mean food consumption of male rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 85-92 and 92-TS (Terminal Sacrifice) of treatment when compared with that of the control group. These occasional lower mean food consumptions without a significant effect on body weight could be considered incidental, and without any toxicological relevance.

FEMALE
- Pre-mating: The mean food consumption of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 15-22, 29-36, 43-50, 50-57, 57-64, 64-71, and 1-71 of treatment when compared with that of the control group. The mean food consumption of female rats, belonging to the 100 ppm dose group, was statistically and significantly lower over days 15-22 and 43-50 of treatment when compared with that of the control group. The mean food consumption of female rats, belonging to the 50 ppm dose group, was statistically and significantly lower over days 15-22, 43-50, and 50-57of treatment when compared with that of the control group.
- Gestation: The mean food consumption of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 0-7, 7-14, 14-20, and 0-20 of gestation when compared with that of the control group. The mean food consumption of female rats, belonging to the 50 ppm dose group, was statistically and significantly lower over days 7-14 of gestation when compared with that of the control group.
- Lactation:
The mean food consumption of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 4-7 of lactation when compared with that of the control group. The mean food consumption of female rats, belonging to the 50 ppm dose group, was statistically and significantly lower over days 4-7 of lactation when compared with that of the control group.
The lower mean food consumption during the pre-mating, gestation, and lactation days of female rats belonging to the 300 ppm dose group, could be considered as a treatment-related adverse effect of the test item. However, an occasionally lower food consumption without significant effect on the mean body weight and dose dependency in the 50 and 100 ppm dose groups, could be considered incidental, and without any toxicological relevance.

TEST ITEM INTAKE
Test item intake, with respect to the dose level, was consistent throughout the treatment period (i.e., the test item intake for G3 was approximately twice that of G2, and the same for G4 was approximately thrice of G3). Overall test item intake is given in Table 1 in 'Any other information on results, incl. tables'.

Food efficiency:

effects observed, non-treatment-related

Description (incidence and severity):

MALE
The mean food efficiency of male rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 43-50 and 64-71 of treatment when compared with that of the control group.

FEMALE
- Pre-mating: The mean food efficiency of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 50-57 treatment when compared with that of the control group. The mean food efficiency of female rats, belonging to the 100 ppm dose group, was statistically and significantly lower over days 29-36 of treatment when compared with that of the control group. These occasional lower in the mean food efficiency without a significant effect on the body weight could be considered incidental, and without any toxicological relevance.
- Gestation and Lactation: The mean food efficiency of female rats of the test item treated groups was comparable with that of the control group.

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

not examined

Ophthalmological findings:

not examined

Haematological findings:

effects observed, treatment-related

Description (incidence and severity):

A statistically significant lower haematocrit value was noted in the males of the 300 ppm dose group. This effect was considered to be related to the test item treatment and considered a mild effect as the reduction was less than 6% when compared to the control group.
A statistically significant higher value was observed in the reticulocyte count of males of the 300 ppm dose group, which was considered related to the lower haematocrit value, hence was considered related to the test item treatment.
A statistically significant higher value in the reticulocyte count of males of the 50 and 100 ppm dose groups was not considered related to the treatment as a relevant effect was not observed in any of the red cell mass parameters (RBC, haemoglobin or haematocrit).
A statistically significant lower MCV was noted in females of the 50 ppm dose group. This alteration was not related to treatment in the absence of dose dependency.

Clinical biochemistry findings:

effects observed, treatment-related

Description (incidence and severity):

A statistically significant lower globulin level in males (and apparent decrease in females) of the 300 ppm dose group caused a significantly higher albumin: globulin ratio. It was considered to be related to the test item treatment.
A statistically significant lower value was observed for triglycerides of females of the 300 ppm dose group. Statistically significant higher values were noted for ALT and AST of females of the 300 ppm dose group. These effects were considered to be related to the test item treatment and more specifically to be related to alterations in the liver.
Statistically significant higher values were noted for urea, BUN, and potassium of females of the 300 ppm dose group. These alterations were not considered to be related to test item treatment as it lacked consistency between generation/sexes and support from histopathology. Statistically significant lower values were observed for bile acids of males and total bilirubin and creatinine of females of the 300 ppm dose group which were considered as toxicologically insignificant.

Urinalysis findings:

no effects observed

Description (incidence and severity):

Urinalysis did not reveal any treatment-related effect. Count/values of treated groups were comparable with those of the control group.

Behaviour (functional findings):

not examined

Immunological findings:

not examined

Organ weight findings including organ / body weight ratios:

effects observed, treatment-related

Histopathological findings: non-neoplastic:

effects observed, treatment-related

Description (incidence and severity):

Histopathological examination revealed treatment-related lesions in the liver (hepatocyte hypertrophy) and in the thyroid (follicular cell hypertrophy).
Hepatocyte hypertrophy in liver and follicular cell hypertrophy in thyroid were observed with higher number of incidences in 300 ppm dose rats of both sexes. Both lesions were also present in 100 ppm dose rats of both sexes with marked lower incidence than that of the 300 ppm dose. Incidences noted in 50 ppm in male rats were comparable to that of the control. In female rats at 50 ppm incidences were significantly lower compared to that of 300 ppm. Lesions observed in liver were well comparable with increased weight of the liver.
Histopathology of the reproductive organs of female rats suspected of reduced fertility, their respective male rats and a dam in which the oestrous cycle was affected, did not reveal lesions definitive for the cause.
Microscopic lesions observed in other organs in male and female rats were at a lower rate of occurrence with almost comparable incidence amongst the control and the 300 ppm dose. Further, these lesions were mostly minimal to mild in nature, non-specific, insignificant, and correlated to the respective gross finding. Hence, these lesions were spontaneous or incidental and not related to the test item treatment.

Histopathological findings: neoplastic:

no effects observed

Other effects:

no effects observed

Description (incidence and severity):

THYROID HORMONES
Serum T3, T4, and TSH levels of male and female rats were comparable amongst the control and the test item treated groups.

Reproductive function / performance (P0)

Reproductive function: oestrous cycle:

no effects observed

Description (incidence and severity):

The mean oestrous cycle length, number of normal oestrous cycle, and pre-coital interval prior to mating were comparable with that of the control group.

Reproductive function: sperm measures:

no effects observed

Description (incidence and severity):

Sperm Motility: Sperm motility of male rats was comparable with that of the control group.
Sperm Count: Cauda epididymis sperm and testicular spermatid counts were comparable amongst the control and the high dose groups.
Sperm Morphology: No test item treatment-related change was observed in sperm morphology (number and percent) amongst the control and the high dose groups.

Reproductive performance:

no effects observed

Description (incidence and severity):

Male fertility index, female fertility index, gestation index, parturition index, percentage of pregnant rats, and mating index were comparable between the control and the test item treated groups. The duration of the gestation was comparable amongst the control and the test item treated groups.

PRE AND POSTNATAL DATA
No test item related effect on mean number of implants was observed when compared with that of the control group. A statistically significant lower mean percentage prenatal loss was observed in the 300 ppm dose group when compared with that of the control group. The lower mean percentage prenatal loss could be considered as an incident and of no toxicological importance.

Effect levels (P0)

open allclose all

Target system / organ toxicity (P0)

Results: P1 (second parental generation)

General toxicity (P1)

Clinical signs:

no effects observed

Description (incidence and severity):

COHORT 1B:
All rats (except the one found dead) belonging to the control and the test item treated groups were normal throughout the study period.

Dermal irritation (if dermal study):

not examined

Mortality:

mortality observed, non-treatment-related

Description (incidence):

COHORT 1B:
A female belonging to the 50 ppm dose group was found dead on gestation day 10. All remaining rats belonging to the control and the test item treated groups were normal throughout the study period.

Body weight and weight changes:

effects observed, treatment-related

Description (incidence and severity):

COHORT 1B:
BODY WEIGHT
MALE
The mean body weight of male rats, belonging to the 300 ppm dose group, was statistically and significantly lower during treatment days 15, 22, 29, 36, 43, 50, 57, 64, 71, 78, and 85 when compared with that of the control group.  

FEMALE
- Pre-mating: The mean body weight of female rats, belonging to the 300 ppm dose group, was statistically significantly lower throughout the treatment period when compared with that of the control group.
- Gestation: The mean body weight of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower during gestation day, 0, 7, 14, and 20 when compared with that of the control group.
- Lactation: The mean body weight of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower during lactation day, 0, 4, 7, 14, and 21, when compared with that of the control group. This lower mean body weight of male and female rats could be due to a decrease in mean food consumption of rats belonging to the 300 ppm dose group. This effect could be considered as a treatment-related adverse effects of the test item.

BODY WEIGHT GAIN
MALE
The mean body weight gain of male rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 1-8, 8-15, 15-22, 22-29, 36-43, and 106-113 of treatment, when compared with that of the control group. The mean body weight gain of male rats, belonging to the 300 ppm dose group, was statistically significantly higher over days 50-57, 71-78, and 92-99 of treatment, when compared with that of the control group. The mean body weight gain of male rats, belonging to the 100 ppm dose group, was statistically significantly higher over days 50-57, 71-78, and 78-85 of treatment, when compared with that of the control group. The mean body weight gain of male rats, belonging to the 50 ppm dose group, was statistically and significantly lower over days 15-22 and 36-43 of treatment when compared with that of the control group. The mean body weight gain of male rats, belonging to the 50 ppm dose group, was statistically significantly higher over days 71-78, 78-85, and 127-134 of treatment, when compared with that of the control group.
 
FEMALE
- Pre-mating: The mean body weight gain of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower during treatment days 1-8, 8-15, and 1-78 when compared with that of the control group. The mean body weight gain of female rats, belonging to the 50 ppm dose group, was statistically and significantly lower during treatment days 8-15 when compared with that of the control group.
- Gestation: The mean body weight gain of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 0-7, 14-20, and 0-20 of gestation when compared with that of the control group.
The mean body weight gain of female rats, belonging to the 100 ppm dose group, was statistically and significantly lower over days 0-7 of gestation when compared with that of the control group.
This lower mean body weight gain during pre-mating and gestation days could be due to a decrease in mean food consumption of female rats, belonging to the 300 ppm dose group. This effect could be considered to be a treatment-related adverse effect of the test item. However, an occasionally lower mean body weight gain without a significant effect on food consumption and dose dependency in the 50 and 100 ppm dose groups, could be considered to be incidental and without any toxicological relevance.

Food consumption and compound intake (if feeding study):

effects observed, treatment-related

Description (incidence and severity):

COHORT 1B:
FOOD CONSUMPTION
Male
The mean food consumption of male rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 1-8, 8-15, 15-22, 22-29, 29-36, 36-43, and 43-50 of treatment when compared with that of the control group.
The mean food consumption of male rats, belonging to the 100 ppm dose group, was statistically significantly higher over days 92-99 of treatment when compared with that of the control group. It could be considered incidental and without any toxicological relevance.
This lower mean food consumption during treatment days of male rats, belonging to the 300 ppm dose group, could be considered as a treatment-related adverse effects of the test item.

FEMALE
- Pre-mating: The mean food consumption of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 1-8, 8-15, 15-22, 22-29, and 1-78 of treatment when compared with that of the control group.
The mean food consumption of female rats, belonging to the 100 ppm dose group, was statistically and significantly lower over days 8-15 of treatment when compared with that of the control group.
- Gestation: The mean food consumption of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 7-14 of gestation when compared with that of the control group.
- Lactation: The mean food consumption of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 7-14 of lactation when compared with that of the control group.
This lower mean food consumption during pre-mating, gestation and lactation days of female rats, belonging to the 300 ppm dose group, could be considered to be a treatment-related adverse effect of the test item.

TEST ITEM INTAKE
Test item intake, with respect to the dose level, was consistent throughout the treatment period (i.e., the test item intake for G3 was approximately twice that of G2, and the same for G4 was approximately thrice of G3).

Food efficiency:

effects observed, treatment-related

Description (incidence and severity):

COHORT 1B:
MALE
The mean food efficiency of male rats, belonging to the 300 ppm dose group, was statistically and significantly lower during treatment days 8-15 and 106-113 when compared with that of the control group. The mean food efficiency of male rats, belonging to the 300 ppm dose group, was statistically significant higher during treatment days 50-57, 71-78, and 92-99, when compared with that of the control group. The mean food efficiency of male rats, belonging to the 100 ppm dose group, was statistically significant higher during treatment days 50-57 when compared with that of the control group. The mean food efficiency of male rats, belonging to the 50 ppm dose group, was statistically and significantly lower during treatment days 8-15 when compared with that of the control group. The mean food efficiency of male rats, belonging to the 50 ppm dose group, was statistically significant higher during treatment days 71-78 when compared with that of the control group.

FEMALE
- Pre-mating: The mean food efficiency of female rats, belonging to the 300 ppm dose group, was statistically significant higher during treatment days 15-22 when compared with that of the control group. The mean food efficiency of female rats, belonging to the 50 ppm dose group, was statistically and significantly lower during treatment days 8-15 when compared with that of the control group.
- Gestation: The mean food efficiency of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower during gestation days 0-7 when compared with that of the control group. The mean food efficiency of female rats, belonging to the 100 ppm dose group, was statistically and significantly lower during gestation days 0-7 when compared with that of the control group.
- Lactation: The mean food efficiency of female rats was comparable with that of the control group. This lower mean food efficiency during pre-mating and gestation days of rats, belonging to the 300 ppm dose group, is correlated with lower food consumption and considered as a treatment-related adverse effects of the test item. However, an occasional decrease in mean food efficiency without significant effect on body weight gain and dose dependency in the 50 and 100 ppm dose groups, could be considered incidental and without any toxicological relevance.

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

Behaviour (functional findings):

not examined

Immunological findings:

not examined

Organ weight findings including organ / body weight ratios:

effects observed, treatment-related

Description (incidence and severity):

COHORT 1B:
Statistically significant lower terminal body weight was noted in female rats. Statistically significant higher relative liver weight was noted in male and female rats of the 300 ppm dose, while higher absolute liver weight was also observed in the 300 ppm dose males. Moreover, three female rats of the 300 ppm dose group had values above historical range for relative weight of liver, while none of the control rat had values above historical range (Female: 3.382 to 5.097%, central 95 percentile, n = 138). These findings were considered related to the test item treatment as similar effects were observed in parental and cohort 1A rats.
Statistically significant higher relative weights were noted in the thyroid of female rats of the 300 ppm dose which was not considered related to the test item treatment as values of female rats of the 300 ppm dose group were below upper limit of historical range (0.0051 to 0.0110%, central 95 percentile, n = 138).
Statistically significant lower values were observed in absolute weights of left epididymis (males) and pituitary (females) of rats of the 300 ppm dose, while lower values were noted in absolute and relative weights of uterus of females of the 300 ppm dose. These changes were considered unrelated to the test item treatment due to lack of consistency between sexes and lack of similar effect in other generation (parent and cohort 1A).

Gross pathological findings:

effects observed, treatment-related

Description (incidence and severity):

COHORT 1B:
Macroscopic examination revealed treatment-related lesions in liver (greyish discolouration).

Neuropathological findings:

not examined

Histopathological findings: non-neoplastic:

not examined

Histopathological findings: neoplastic:

not examined

Reproductive function / performance (P1)

Reproductive function: oestrous cycle:

not examined

Reproductive function: sperm measures:

not examined

Reproductive performance:

no effects observed

Description (incidence and severity):

COHORT 1B:
PRE-COITAL INTERVAL
The pre-coital interval was comparable with that of the control group.

FERTILITY
Male fertility index, female fertility index, gestation index, parturition index, percentage of pregnant rats, and mating index were comparable between the control and the test item treated groups. The duration of the gestation days was comparable among all the test item treated groups with that of the control group.

PRE AND POSTNATAL DATA:
A statistically significant lower mean number of implants was observed in the 50 and 300 ppm dose groups when compared with that of the control group. However, pre- and postnatal data of cohort 1B female rats were comparable with that of the control group. The lower mean number of implants did not show a dose dependency. Histopathology of uterus and ovarian follicular counts of cohort 1A females, belonging to 50 and 300 ppm dose groups, were also comparable with that of the control group. Therefore, it could be considered as incidental and without toxicological relevance.

Effect levels (P1)

open allclose all

Target system / organ toxicity (P1)

Results: F1 generation

General toxicity (F1)

Clinical signs:

effects observed, non-treatment-related

Description (incidence and severity):

F1 PUPS: Effects observed, non-treatment-related: No treatment-related clinical signs were observed in all pups. However, weakness was occasionally observed in following F1 pups.

COHORT 1A: No effects observed: All rats belonging to the control and the test item treated groups were normal throughout the study period.

Dermal irritation (if dermal study):

not examined

Mortality / viability:

mortality observed, non-treatment-related

Description (incidence and severity):

F1 PUPS: Mortality observed, non-treatment-related: During the lactation period, no treatment-related mortality was observed in the test item treated groups.
The mortality index of male pups, belonging to the 100 ppm dose group, was statistically and significantly lower on the postnatal day 7, when compared with that of the control group. It was reflected as significantly higher survival of male pups on the postnatal day 7. This effect could be considered incidental to treatment and without any toxicological relevance.

COHORT 1A: No mortality observed: No mortality and morbidity were observed during the study period in the control and the test item treated groups.

Body weight and weight changes:

effects observed, treatment-related

Description (incidence and severity):

F1 PUPS: Effects observed, treatment-related:
BODY WEIGHT
MALE PUPS
The mean body weight of male pups, belonging to the 300 ppm dose group, was statistically and significantly lower on postnatal day 0 when compared with that of the control group.

FEMALE PUPS
The mean body weight of female pups, belonging to the 300 ppm dose group, was statistically and significantly lower on postnatal days 14 and 21 when compared with that of the control group.

COMPOSITE OF MALE AND FEMALE PUPS
The mean body weight of pups, belonging to the 300 ppm dose group, was statistically and significantly lower on postnatal day 0 when compared with that of the control group. These lower body weights could be due to the lower gestation body weight of pregnant rats and considered as a growth retardation effect of the test item on developing pups.

BODY WEIGHT GAIN
MALE PUPS
The mean body weight gain of male pups, belonging to the 300 ppm dose group, was statistically and significantly lower during postnatal days 7-14 when compared with that of the control group.

FEMALE PUPS
The mean body weight gain of female pups, belonging to the 300 ppm dose group, was statistically and significantly lower during postnatal days 7-14 and 14-21 when compared with that of the control group.

COMPOSITE OF MALE AND FEMALE PUPS
The mean body weight gain of pups, belonging to the 300 ppm dose group, was statistically and significantly lower during postnatal days 7-14 and 14-21 (without statistical significance) when compared with that of the control group. This lower mean body weight gain of pups, belonging to the 300 ppm dose group toward the end of the lactation period could be due to decreased milk production of lactating females and direct exposure of pups to the test item through diet. Therefore, it could be considered as an adverse effect of the test item on developing pups.

COHORT 1A: Effects observed, treatment-related:
BODY WEIGHT
MALE
The mean body weight of male rats, belonging to the 300 ppm dose group, was statistically significant lower throughout the treatment period when compared with that of the control group. The mean body weight of male rats, belonging to the 50 ppm dose group, was statistically and significantly lower during treatment days 71 and TS when compared with that of the control group.

FEMALE
The mean body weight of female rats, belonging to the 300 ppm dose group, was statistically significant lower throughout the treatment period when compared with that of the control group.

This lower mean body weight of male and female rats during the treatment period could be due to a lower mean food consumption of male and female rats, belonging to the 300 ppm dose group. This effect could be considered to be a treatment-related adverse effect of the test item. However, an occasionally lower mean body weight of male rats without significant effect on food consumption and dose dependency in the 50 ppm dose group, could be considered incidental and without any toxicological relevance.

BODY WEIGHT GAIN
MALE
The mean body weight gain of male rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 1-8, 8-15, 22-29, 50-57, 64-71, and 1-TS of treatment when compared with that of the control group. The mean body weight gain of male rats, belonging to the 300 ppm dose group, was statistically significant higher over days 71-TS of treatment, when compared with that of the control group. The mean body weight gain of male rats, belonging to the 100 ppm dose group, was statistically and significantly lower over days 29-36 and 57-64 of treatment when compared with that of the control group. The mean body weight gain of male rats, belonging to the 50 ppm dose group, was statistically and significantly lower over days 22-29, 36-43, 57-64, and 1-TS of treatment when compared with that of the control group.

FEMALE
The mean body weight gain of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower over days 8-15, 64-TS, and 1-TS of treatment when compared with that of the control group. The mean body weight gain of female rats, belonging to the 300 ppm dose group, was statistically significantly higher over days 50-57 of treatment, when compared with that of the control group. The mean body weight gain of female rats, belonging to the 50 ppm dose group, was statistically and significantly lower over days 43-50 of treatment when compared with that of the control group.

These lower mean body weight gains of male and female rats during the treatment period could be due to a lower mean food consumption of male and female rats, belonging to the 300 ppm dose group. This effect could be considered to be a treatment-related adverse effect of the test item. However, an occasionally lower mean body weight of rats without a significant effect on food consumption and dose dependency in the 50 and 100 ppm dose groups, could be considered incidental and without any toxicological relevance.

Food consumption and compound intake (if feeding study):

effects observed, treatment-related

Description (incidence and severity):

F1 PUPS: Not examined

COHORT 1A: Effects observed, treatment-related
FOOD CONSUMPTION
MALE
The mean food consumption of male rats, belonging to the 300 ppm dose group, was statistically and significantly lower during treatment days 1-8, 8-15, 15-22, and 22-29 when compared with that of the control group.

FEMALE
The mean food consumption of female rats, belonging to the 300 ppm dose group, was statistically and significantly lower during treatment days 1-8, 8-15, and 1-TS when compared with that of the control group. This lower mean food consumption during treatment days of male and female rats could be considered a treatment-related adverse effect of the test item.

TEST ITEM INTAKE
Test item intake, with respect to the dose level, was consistent throughout the treatment period (i.e., the test item intake for G3 was approximately twice that of G2, and the same for G4 was approximately thrice of G3).

Food efficiency:

effects observed, non-treatment-related

Description (incidence and severity):

F1 PUPS: Not examined

COHORT 1A: Effects observed, non-treatment-related
MALE
The mean food efficiency of male rats, belonging to the 300 ppm dose group, was statistically significantly higher during treatment days 50-57 when compared with that of the control group.
The mean food efficiency of male rats, belonging to the 100 ppm dose group, was statistically significant higher during treatment days 50-57 and lower during treatment days 29-36, 57-64, when compared with that of the control group.
The mean food efficiency of male rats, belonging to the 50 ppm dose group, was statistically and significantly lower during treatment days 15-22, 36-43, and 64-71 when compared with that of the control group.

FEMALE
The mean food efficiency of female rats, belonging to the 300 ppm dose group, was statistically significant higher during treatment days 50-57 and lower during treatment days 64-TS when compared with that of the control group. The mean food efficiency of female rats, belonging to the 50 ppm dose group, was statistically and significantly lower during treatment days, 8-15 and 43-50 when compared with that of the control group.

These occasional higher and lower mean food efficiencies without dose dependency could be considered incidental and without any toxicological relevance.

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

not examined

Ophthalmological findings:

not examined

Haematological findings:

effects observed, treatment-related

Description (incidence and severity):

F1 PUPS: Not examined

COHORT 1A: Effects observed, treatment-related: Statistically significant lower values were noted for haematocrit, RBC, and haemoglobin of males of the 300 ppm dose. These effects were considered to be related to the test item treatment and considered a mild effect as the decrease compared to control was below 6%. A statistically significant higher value was observed for PT of males of the 100 and 300 ppm doses, and WBC and lymphocyte of females of the 300 ppm dose which were not considered to be an effect of the test item treatment due to inconsistencies between sexes and/or generations. A statistically significant lower MCV was noted in females of the 50 and 300 ppm dose groups, and APTT of females of the 50 and 100 ppm dose groups. These alterations were not related to treatment in the absence of dose dependency.

Clinical biochemistry findings:

effects observed, treatment-related

Description (incidence and severity):

F1 PUPS: Not examined

COHORT 1A: Effects observed, treatment-related: Statistically significant lower globulin was noted in male and female rats of the 300 ppm dose. This effect lead to a statistically significant higher albumin: globulin ratio of male and female rats of the 300 ppm dose group. The effect was also observed in males of the 100 ppm dose. It was considered to be related to the test item treatment. A statistically significant higher albumin: globulin ratio of female rats of the 100 ppm group was observed whereas no changes were observed in globulin or albumin level. Statistically significant lower total cholesterol was observed in male and female rats of the 300 ppm dose group. These effects were considered to be related to the test item treatment and more specifically to be related to alterations in the liver.

Urinalysis findings:

no effects observed

Description (incidence and severity):

F1 PUPS: Not examined

COHORT 1A: No effects observed: Urinalysis did not reveal any treatment-related effect. Count/values of treated groups were comparable with that of the control group.

Sexual maturation:

effects observed, treatment-related

Description (incidence and severity):

F1 PUPS: Effects observed, treatment-related
MALE
The mean balano-preputial separation (BPS) of male pups (cohort 1A and 1B), belonging to the 300 ppm dose group, was statistically and significantly increased when compared with that of the control group. The mean balano-preputial separation of male pups (cohort 1B), belonging to the 50 and 100 ppm dose groups, was statistically and significantly increased when compared with that of the control group. The mean body weight of male pups (cohort 1A and 1B) on the day of balano-preputial separation was comparable between the control and the test item treated groups. This increase in balano-preputial separation in the 300 ppm dose group could be due to a lower preweaning body weight. This effect could be considered a treatment-related growth retardation effect of the test item on developing pups. The mean balano-preputial separation of male pups (cohort 1B), belonging to the 50 and 100 ppm dose groups, were within historical control data range (44.27 to 49.05) of the performing laboratory. Therefore, it was considered to be a biological variation without any toxicological importance.

FEMALE
Vaginal opening of female pups was comparable between the control and the test item treated groups. The mean body weight on the day vaginal opening of female pups (cohort 1A and 1B), belonging to the 300 ppm dose groups, was statistically and significantly decreased when compared with that of the control group. It could be considered a growth retardation effect of the test item on developing pups.

Anogenital distance (AGD):

effects observed, non-treatment-related

Description (incidence and severity):

F1 PUPS: Effects observed, non-treatment--related: The mean anogenital distance of female pups, belonging to the 300 ppm dose group, was statistically and significantly increased on postnatal day 0 when compared with that of the control group. However, anogenital distance of F2 pups was comparable with that of the control group. Therefore, this effect could be considered incidental to treatment and without any toxicological relevance.

Nipple retention in male pups:

not examined

Organ weight findings including organ / body weight ratios:

effects observed, treatment-related

Description (incidence and severity):

F1 PUPS: Effects observed, treatment-related: Statistically significant lower values were noted for terminal body weight of male and female pups. A statistically significant lower value was noted for the absolute weight of the liver in 300 ppm dose females. This effect was also noted in 300 ppm dosed males and although it did not reach statistical significance in males, it was considered related to treatment as it was supported by histopathology. Statistically significant higher values were noted in relative weights of the brain in 300 ppm dosed male and female pups, which was caused by a lower body weight. The lower value noted for the absolute weight of the brain in 300 ppm dosed females was considered not related to treatment.

COHORT 1A: Effects observed, treatment-related: Statistically significant lower terminal body weights were noted in male and female rats. Statistically significant higher relative liver weight was noted in the male and female rats of the 300 ppm dose. Moreover, six male rats of the 300 ppm dose group had values above historical range for relative weight of liver, while none of the control male rat had values above historical range (Male: 2.409 to 3.541 %, central 95 percentile, n = 155; Female: 3.382 to 5.097%, central 95 percentile, n = 138). The effect was considered related to the test item treatment and was supported by hypertrophy observed with histopathology. Statistically significant higher relative weights were also noted in the thyroid of males of the all three dose levels. Values of male rats of the 300 ppm dose group were below upper limit of historical range, while only 1 male rat each of low dose and mid dose level had values above historical range (0.0033 to 0.0077 %, central 95 percentile, n = 155). Hence, effect was not related to the test item treatment. Higher relative weight of the kidneys was noted in males of the 300 ppm dose. Effects on relative kidney weights were likely to be due to a decrease in body weight.
A statistically significant reduction was observed in the absolute weight of the heart and spleen of females of the 300 ppm dose, which could be owed to lower body weight. A statistically significant lower value was noted in the absolute weight of the brain of males and an increase was observed in the relative weight of the thymus of females of the 300 ppm. These effects were not related to the test item treatment as it lacked histopathological lesions. Statistically significant lower values were noted in terminal body weight, absolute weights of liver, heart, epididymis (left), and epididymis cauda (right) of males of the 50 ppm dose, which was unrelated to treatment in the absence of a dose dependency. Similarly, statistically significant lower values noted in whole epididymis and cauda (left) of males of the 300 ppm dose were not related to treatment in the absence of consistency between the two sides. Statistically significant lower values observed in absolute weight of the adrenals of male rats of the 50 ppm dose (left and right), 300 ppm dose (left) and 50 ppm dose (right) were not associated with the test item treatment as it lacked a dose-dependency/consistency between sexes and histopathological examination did not reveal any changes.

Gross pathological findings:

effects observed, treatment-related

Description (incidence and severity):

F1 PUPS: Effects observed, non-treatment-related: Macroscopic examination of F1 weanling pups did not reveal any pathologic lesions. One of the pups which was found dead in the 100 ppm dose group revealed neck oedema upon gross examination.

COHORT 1A: Effects observed, treatment-related: Macroscopic examination revealed treatment-related lesions in the liver (greyish discolouration).

Histopathological findings:

effects observed, treatment-related

Description (incidence and severity):

F1 PUPS: Effects observed, treatment-related: Glycogen depletion in the liver was observed in the 300 ppm dose group pups. It could be due to nutritional insufficiency and it was considered as an effect of the test item.

COHORT 1A: Effects observed, treatment-related: Histopathological examination revealed treatment-related lesions in the liver (hepatocyte hypertrophy) and in the thyroid (follicular cell hypertrophy). Hepatocyte hypertrophy in liver and follicular cell hypertrophy in thyroid were observed with higher number of incidences in the 300 ppm dose rats of both sexes. Incidences noted in the 50 and 100 ppm dose were almost comparable to that of the control except for a higher number of incidences of liver hypertrophy found in male rats of the 100 ppm dose group. Lesions observed in liver were well comparable with increased weight of the liver.

Other effects:

effects observed, treatment-related

Description (incidence and severity):

F1 PUPS: Effects observed, treatment-related

LIVE BIRTH, SURVIVAL, AND LACTATION INDICES
Live birth, survival, and lactation indices were comparable amongst the control group and the test item treated groups. Survival index of male pups, belonging to the 100 ppm dose group, was statistically significant higher on the postnatal day 7, when compared with that of the control group. It was reflected as significantly lower mortality of male pups on the postnatal day 7. This effect could be considered incidental and without any toxicological relevance.

LITTER SIZE AND MALE SEX RATIO
Litter size and male sex ratio of F1 pups were comparable with that of the control group.

BODY TEMPERATURE
The mean body temperature of male, female, and a combination of both sexes’ pups, belonging to the 300 ppm dose group, was statistically significantly lower on postnatal day 0 when compared with that of the control group. This lower body temperature could be due to a decrease in mean body weight of the pups on postnatal day 0. This effect could be considered a treatment-related adverse effect of the test item on developing pups.

PHYSICAL DEVELOPMENT LANDMARK
Physical development landmark of male and female pups was comparable between the control and the test item treated groups.

THYROID HORMONES
Serum T3 level of female rat pups (F1) on PND 22, belonging to the 100 ppm dose group, was statistically and significantly higher when compared with that of the control group. However, serum T3 level of male rat pups (F1) on PND 22 was comparable with that of the control group. The changes observed at 100 ppm lack dose dependency, hence, they are considered as incidental in nature. Serum T4 and TSH levels of male and female pups (F1) on PND 22 were comparable between the control and the test item treated groups. Serum T4 and T3 levels of pups (F1) on PND 4 were comparable between the control and the test item treated groups.

COHORT 1A: Effects observed, treatment-related
OESTROUS CYCLE
The mean oestrous cycle length of female rats was comparable between the control and the test item treated groups.

SPERM PARAMETERS
- Sperm motility: Sperm motility of male rats was comparable with that of the control group.
- Sperm Count: Cauda epididymis sperm and testicular spermatid counts were comparable between the control and the high dose groups.
- Sperm Morphology: No test item treatment-related changes were observed in sperm morphology (number and percentage) between the control and the high dose groups.

SPLENIC LYMPHOCYTE SUBPOPULATION
Splenic lymphocyte subpopulation of male and female rats was comparable with that of the control group.

THYROID HORMONES
Serum TSH and T4 levels of cohort 1A female rats, belonging to the 300 ppm dose group, were statistically significantly higher when compared with that of the control group. Increased serum thyroid levels of female rats could be due to hypertrophy of the thyroid.

OVARIAN FOLLICULAR QUANTITATION
The total number and ovarian follicles of different types i.e. primordial, growing and antral follicles in the 300 ppm dose group of F1 generation females were found comparable with that of the control group.

Developmental neurotoxicity (F1)

Behaviour (functional findings):

not examined

Developmental immunotoxicity (F1)

Developmental immunotoxicity:

not examined

Effect levels (F1)

open allclose all

Target system / organ toxicity (F1)

Results: F2 generation

General toxicity (F2)

Clinical signs:

effects observed, non-treatment-related

Description (incidence and severity):

No treatment-related clinical signs were observed in all pups. However, weakness was occasionally observed in some F2 pups( G1, 2; G2, 1; G3, 2; G4, 2).

Dermal irritation (if dermal study):

not examined

Mortality / viability:

no mortality observed

Description (incidence and severity):

The mortality index of F2 pups was comparable between the control and the test item treated groups.

Body weight and weight changes:

effects observed, treatment-related

Description (incidence and severity):

BODY WEIGHT
Male Pups
The mean body weight of male pups, belonging to the 300 ppm dose group, was statistically and significantly lower on postnatal days 14 and 21 when compared with that of the control group.

Female Pups
The mean body weight of female pups, belonging to the 300 ppm dose group, was statistically and significantly lower on postnatal days 14 and 21 when compared with that of the control group.

Composite of Male and Female Pups
The mean body weight of pups, belonging to the 300 ppm dose group, was statistically and significantly lower on postnatal day 14 and 21 when compared with that of the control group. This lower mean body weight of pups, belonging to the 300 ppm dose group toward the end of the lactation period could be due to decreased milk production of lactating females and direct exposure of pups to the test item through diet during 3rd week of lactation (i.e., approximately from postnatal day 14 onwards). Therefore, it could be considered as an adverse effect of the test item on developing pups.

BODY WEIGHT GAIN
Male Pups
The mean body weight gain of male pups, belonging to the 300 ppm dose group, was statistically and significantly lower during postnatal days 4-7, 7-14, and 14-21 when compared with that of the control group.
The mean body weight gain of male pups, belonging to the 100 ppm dose group, was statistically and significantly lower during postnatal days 7-14 when compared with that of the control group.

Female Pups
The mean body weight gain of female pups, belonging to the 300 ppm dose group, was statistically and significantly lower during postnatal days 4-7, 7-14, and 14-21 when compared with that of the control group. The mean body weight gain of female pups, belonging to the 100 ppm dose group, was statistically and significantly lower during postnatal days 7-14 when compared with that of the control group.

Composite of Male and Female Pups
The mean body weight gain of pups, belonging to the 300 ppm dose group, was statistically and significantly lower during postnatal days 4-7, 7-14, and 14-21 when compared with that of the control group. The mean body weight gain of pups, belonging to the 100 ppm dose group, was statistically and significantly lower during postnatal days 7-14 when compared with that of the control group.
This lower mean body weight gain of pups, belonging to the 100 and 300 ppm dose groups toward the end of the lactation period could be due to decreased milk production of lactating females and direct exposure of pups to the test item through diet. Therefore, it could be considered as an adverse effect of the test item on developing pups.

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):

The mean anogenital distance of F2 pups was comparable between the control and the test item treated groups.

Nipple retention in male pups:

not examined

Organ weight findings including organ / body weight ratios:

effects observed, non-treatment-related

Description (incidence and severity):

Statistically significant lower terminal body weight was noted in male and female pups. In F2 weanling pups, statistically significant lower values were noted for absolute weight of spleen and thymus in the 300 ppm dose of both sexes and also of the thymus in the 100 ppm dose males, while higher values were noted for relative weights of brain in the 300 ppm dose of both sexes. Effects were considered related to a lower body weight. A statistically significant higher relative liver weight was noted in the 300 ppm dosed females which was not related to treatment due to the absence of consistency between sexes and the lack of histopathological support.

Gross pathological findings:

no effects observed

Description (incidence and severity):

Macroscopic examination of F2 weanling pups did not reveal any pathologic lesions.

Histopathological findings:

no effects observed

Description (incidence and severity):

Microscopic findings in the liver were comparable between the control and the test item treated groups of F2 pups.

Other effects:

effects observed, non-treatment-related

Description (incidence and severity):

LIVE BIRTH, SURVIVAL AND LACTATION INDICES
The live birth index of pups, belonging to the 50 ppm dose group, was statistically and significantly lower, when compared with that of the control group. The lower live birth index without any dose dependency could be considered as incidental and without any toxicological relevance. Survival and lactation indices of F2 pups were comparable between the control and the test item treated groups.

LITTER SIZE AND MALE SEX RATIO
Litter size and male sex ratio of F2 pups was comparable with that of the control group.

BODY TEMPERATURE
The mean body temperature of male and female pups, belonging to the 100 ppm dose group, was statistically and significantly lower on postnatal day 0 when compared with that of the control group. This lower body temperature without any dose dependency could be considered as incidental.

PHYSICAL DEVELOPMENT LANDMARK
Physical development landmark of male and female pups was comparable amongst the control and the test item treated groups.

Developmental neurotoxicity (F2)

Behaviour (functional findings):

not examined

Developmental immunotoxicity (F2)

Developmental immunotoxicity:

not examined

Effect levels (F2)

Target system / organ toxicity (F2)

Overall reproductive toxicity

Any other information on results incl. tables

Verification of homogeneity and concentration of the test item in the test diet

The mean percent recovery obtained for the test diet was within the acceptance level of ±20% of the nominal concentration demonstrating that the exposure concentrations were as intended by the study plan and the %CV was less than 20, suggesting that the test diets were homogeneously mixed.

TABLE 1a. Test item intake during treatment period (P0)

Group N°	Dose Levels (ppm)	Test Item Intake (mg/kg body weight/day)
		Male Rats	Female Rats
		Treatment Period	Pre-mating Period	Gestation Period	Lactation Period
G1	0	0.00	0.00	0.00	0.00
G2	50	3.74	4.66	3.99	9.03
G3	100	7.44	9.30	7.95	18.25
G4	300	22.11	27.43	23.48	56.19

TABLE 1b. Test item intake during the treatment period (F1 Cohort 1A)

Group N°	Dose Levels (ppm)	Test Item Intake (mg/kg body weight/day)
		Male Rats	Female Rats
G1	0	0.00	0.00
G2	50	5.74	6.98
G3	100	11.13	13.42
G4	300	34.63	40.86

 

TABLE 1c. Test item intake during the treatment period (F1 Cohort 1B)

Group N°	Dose Levels (ppm)	Test Item Intake (mg/kg body weight/day)
		Male Rats	Female Rats
		Treatment Period	Pre-mating Period	Gestation Period	Lactation Period
G1	0	0.00	0.00	0.00	0.00
G2	50	5.93	4.22	4.47	9.34
G3	100	10.11	8.40	8.84	18.58
G4	300	30.05	25.14	27.54	62.23

 

TABLE 2: Summary of Effect on Fertility, Reproduction, and Development – Parent Female (P)

Observations	Values
Group & Dose (ppm)	G1 (0)	G2 (50)	G3 (100)	G4 (300)
Pairs Started (N)	25	25	25	25
Females Achieving Pregnancy (N)	22	24	23	18
Conceiving Days 1 - 5 (N)	24	25	25	25
Conceiving Days 6 - 10 (N)	0	0	0	0
Conceiving Days³11 (N)	0	0	0	0
Pregnancy = 21 days (N)	0	0	0	0
Pregnancy = 22 days (N)	7	16	14	12
Pregnancy = 23 days (N)	12	7	8	6
Pregnancy³24 days (N)	2	1	0	0
Female Sacrificed on Gestation Day 25 (N)	3	1	3	7
Dams with Live Pups at Day 4 (N)	21	24	22	18
N° of Female Rats Standardized on Lactation Day 4	8	12	12	11
Dams with Live Pups at Weaning (N)	20	24	22	18
N° of Female Rats (along with Pups) Sacrificed on Lactation Day 22	20	24	22	18
N° of Female Rats Sacrificed (Without Pups)	2	0	0	0
Implants (Mean±SD)	10.18±4.43	11.17±2.76	10.96±3.40	11.33±2.74
ABNORMAL PUPS (excluding dead/cannibalised pups)
Dams with 0	20	22	19	17
Dams with 1 (Weakness)	2	2	2	1
Dams with ≥2 (Weakness)	0	0	1	0
LOSS OF OFFSPRING
Pre-natal (implantations minus live births)
Females with 0	6	10	10	10
Females with 1	8	7	9	5
Females with 2	6	7	1	2
Females with ≥ 3	2	0	3	1
Post-natal (live births minus alive at post-natal day 4)
Females with 0	16	18	17	16
Females with 1	5	5	5	1
Females with 2	1	1	0	1
Females with ≥ 3	0	0	0	0
FERTILITY DATA
Number of Males Housed with Female	25	25	25	25
Number of Males Impregnating Female	25	25	25	25
Number of Females Housed with Male	25	25	25	25
Number of Females with Sperm Positive Vaginal Smear	25	25	25	25
Number of Females Confirmed Pregnant	22	24	23	18
Number of Females Giving Birth	22	24	22	18
Number of Females Giving Birth to at least a Viable Pup	22	24	22	18
Number of Females Giving Birth to All Viable Pups	21	23	21	17
Duration of Gestation (days) (Mean±SD)	22.76±0.62	22.38±0.58	22.36±0.49	22.33±0.49
FERTILITY INDEX
Male Fertility Index	100.00	100.00	100.00	100.00
Female Fertility Index	88.00	96.00	92.00	72.00
Gestation Index	88.00	96.00	88.00	72.00
Parturition Index	88.00	96.00	88.00	72.00
Percentage of Pregnant Rats	88.00	96.00	92.00	72.00
Percentage of Non-pregnant Rats	12.00	4.00	8.00	28.00
Mating Index	100.00	100.00	100.00	100.00
Prenatal Loss (Mean±SD)	1.23±1.07	0.88±0.85	0.96±1.26	0.67±0.91
Postnatal Loss (Mean±SD)	0.32±0.57	0.29±0.55	0.23±0.43	0.17±0.51
Prenatal Loss (%) (Mean±SD)	15.52±18.87	7.72±7.52	13.25±22.94	5.42±7.09¯*
Postnatal Loss (%) (Mean±SD)	11.03±26.27	2.72±4.97	1.66±3.15	1.35±4.23

Key: N = Number of rats, SD = Standard deviation,* =Student’s t-test

Key:  ¯=Significantly lower than control (p=<0.05)

Note: Non-pregnant rats were excluded from statistical analysis of implants and pre- and postnatal losses.

Presumed mated female was not considered for calculation of conceiving and pregnancy days

TABLE 3. Summary of Effect on Fertility, Reproduction, and Development - Pup data

Number of Pups

Group N°	G1			G2			G3			G4
Sex	M	F	T	M	F	T	M	F	T	M	F	T
Total N° of Pups on Day of Littering	94	104	198	121	127	248	117	114	231	93	100	194
Cannibalized pups on day of littering	0	0	0	0	0	0	0	0	0	0	0	1
Pups Still birth on Day of Littering	1	0	1	1	0	1	1	0	1	1	0	1
Total N° of Live Pups on Day of Littering	93	104	197	120	127	247	116	114	230	92	100	192
Litter Size on PND 4	89	101	190	116	124	240	114	111	225	90	99	189
Litter Size on PND 4 (R)	83	87	170	103	112	215	97	99	196	82	85	167
Litter Size on PND 7	78	85	163	102	110	212	97	98	195	79	82	161
Litter Size on PND 14	77	82	159	100	108	208	93	96	189	77	79	156
Litter Size on PND 21	75	80	155	99	106	205	93	95	188	74	78	152

Pups Mortality Index

Group N°	G1			G2			G3			G4
Sex	M	F	T	M	F	T	M	F	T	M	F	T
1-4 (N°)	4	3	7	4	3	7	2	3	5	2	1	3
Mortality Indexon PND 4	4.30	2.88	3.55	3.33	2.36	2.83	1.72	2.63	2.17	2.17	1.00	1.56
4R -7 (N°)	5	2	7	1	2	3	0	1	1	3	3	6
Mortality Indexon PND 7	6.02	2.30	4.12	0.97	1.79	1.40	0.00¯©	1.01	0.51	3.66	3.53	3.59
4R -14 (N°)	6	5	11	3	4	7	4	3	7	5	6	11
Mortality Indexon PND 14	7.23	5.75	6.47	2.91	3.57	3.26	4.12	3.03	3.57	6.10	7.06	6.59
14R -21 (N°)	8	7	15	4	6	10	4	4	8	8	7	15
Mortality Indexon PND 21	9.64	8.05	8.82	3.88	5.36	4.65	4.12	4.04	4.08	9.76	8.24	8.98

Key:  M = Male, F = Female, T = Total, R = Retained, N° = Number,^a= Cannibalized (sex not identified),© = Chi-square test

¯=Significantly lower than control (p=<0.05)

Pups survival Index

Group N°	G1			G2			G3			G4
Sex	M	F	T	M	F	T	M	F	T	M	F	T
Survival Index on PND 4	95.70	97.12	96.45	96.67	97.64	97.17	98.28	97.37	97.83	97.83	99.00	98.44
Survival Index on PND 7	93.98	97.70	95.88	99.03	98.21	98.60	100.00­©	98.99	99.49	96.34	96.47	96.41
Survival Index on PND 14	92.77	94.25	93.53	97.09	96.43	96.74	95.88	96.97	96.43	93.90	92.94	93.41
Survival Index on PND 21	90.36	91.95	91.18	96.12	94.64	95.35	95.88	95.96	95.92	90.24	91.76	91.02

 

Lactation Index, Live Birth Index and Postnatal Loss

Group N°	G1			G2			G3			G4
Sex	M	F	T	M	F	T	M	F	T	M	F	T
Lactation Index (%)	90.36	91.95	91.18	96.12	94.64	95.35	95.88	95.96	95.92	90.24	91.76	91.02
Live Birth Index (%)	98.94	100.00	99.49	99.17	100.00	99.60	99.15	100.00	99.57	98.92	100.00	98.97
Postnatal Loss (PND 0-4)	4	3	7	4	3	7	2	3	5	2	1	3

Key:    M = Male, F = Female, T = Total, R = Retained, N° = Number, PND = Postnatal Day, © = Chi-square test

­ = Significantly higher than control (p=<0.05)

TABLE 4. Organ weight percent change compared to control

Generation	Parameters	Group				Percent Change
		G1	G2	G3	G4	G2	G3	G4
Parent	B. wt. (TS)-Female	247.345	235.104	237.327	218.806¯¯	-4.9	-4.1	-11.5
	Liver (Male)-R	2.614	2.641	2.669	3.026­­	1.0	2.1	15.8
	Liver (Female)-R	3.894	4.095	4.083	4.696­­	5.2	4.9	20.6
	Thyroid (Female)-R	0.0066	0.0072	0.0072	0.0080­­	9.1	9.1	21.2
Cohort 1A	B. wt. (TS)- Male	322.685	297.62	315.23	295.965¯¯	-7.8	-2.3	-8.3
	B. wt. (TS)-Female	191.63	183.54	194.27	176.300¯	-4.2	1.4	-8.0
	Liver (Male)-R	3.069	2.974	3.069	3.435­­	-3.1	0.0	11.9
	Liver (Female)-R	3.174	3.154	3.178	3.558­­	-0.6	0.1	12.1
	Thyroid (Male)-R	0.0047	0.0053­	0.0053­	0.0058­­	12.8	12.8	23.4
Cohort 1B	B. wt. (TS)-Female	237.415	228.653	233.494	212.606¯¯	-3.7	-1.7	-10.4
	Liver (Male)-R	2.593	2.570	2.628	2.946­­	-0.9	1.3	13.6
	Liver (Female)-R	4.226	4.397	4.444	4.847­­	4.0	5.2	14.7
	Thyroid (Female)-R	0.0054	0.0052	0.0053	0.0060­	-3.7	-1.9	11.1
F1-Weanling Pups	B. wt. (TS)-Male	42.569	40.443	38.764	35.340¯	-5.0	-8.9	-17.0
	Liver (Male)-A	1.971	1.865	1.734	1.564	-5.4	-12.0	-20.6
	B. wt. (TS)-Female	39.833	39.890	37.471	32.515¯	0.1	-5.9	-18.4
	Liver (Female)-A	1.786	1.853	1.689	1.438¯$	3.8	-5.4	-19.5
F2-Weanling Pups	B. wt. (TS)-Male	40.780	42.018	37.589	34.871¯¯	3.0	-7.8	-14.5
	B. wt. (TS)-Female	40.495	40.900	36.718	33.900¯¯	1.0	-9.3	-16.3

Key: M-Male, F-Female, TS-Terminal sacrifice

TABLE 5. Microscopic Findings of Parents, Cohort 1A and F1& F2 Pups

Lesion	Generation	Sex	Group
			G1	G2	G3	G4
Liver: Hypertrophy, hepatocytes	Parent	M	1	1	3	14
		F	0	2	5	14
	Cohort 1A	M	0	1	3	9
		F	0	0	1	8
Thyroid: Hypertrophy, follicular cell	Parent	M	3	3	6	15
		F	2	6	6	18
	Cohort 1A	M	4	3	4	12
		F	0	0	0	8
Liver: Glycogen depletion, hepatocytes	F1 Pups	M	0	0	0	8
		F	1	0	0	6
	F2 Pups	M	0	1	0	1
		F	1	1	1	2

Key: M-male, F-Female

TABLE 6. Summary ofSerum T3 and T4 Level in Parent Male Rats

Groups and Dose: G1 - 0; G2 - 50; G3 - 100; G4 - 300 ppm

Hormone	Group N°
	G1			G2			G3			G4
	Mean	SD	N	Mean	SD	N	Mean	SD	N	Mean	SD	N
T3	406.896	85.522	10	379.680	66.411	10	354.102	47.875	10	430.092	93.733	10
T4	162884.407	25143.440	10	159581.646	22284.244	10	164727.417	30623.771	10	161425.613	35243.036	10

 

TABLE 7. Summary ofSerum T3 and T4 Level in Parent Female Rats

Hormone	Group N°
	G1			G2			G3			G4
	Mean	SD	N	Mean	SD	N	Mean	SD	N	Mean	SD	N
T3	634.485	77.520	10	669.095	89.733	10	666.089	78.733	10	542.548	107.996	10
T4	52170.941	12929.265	10	59036.481	6080.748	10	59296.682	12923.489	10	49277.953	9673.531	10

 

TABLE 8. Summary of Serum T4 Level in PND 4 Rat Pups (F1)

Hormone	Group N°
	G1			G2			G3			G4
	Mean	SD	N	Mean	SD	N	Mean	SD	N	Mean	SD	N
T4	166263.378	36641.300	8	151498.847	31071.914	12	183356.165	39221.749	11	175831.884	15736.875	12
T3	173.989	28.964	8	194.562	26.907	12	183.808	32.597	11	164.592	21.045	12

 

TABLE 9. Summary of Serum T3 and T4 Level in PND 22 Male Rat Pups (F1)

Hormone	Group N°
	G1			G2			G3			G4
	Mean	SD	N	Mean	SD	N	Mean	SD	N	Mean	SD	N
T3	947.624	149.214	10	893.210	128.097	10	885.531	99.916	10	828.537	155.784	10
T4	32088.317	5505.246	10	30624.640	3437.663	10	32546.858	4931.690	10	38553.791	21088.103	10

Key: N = Number of animals, SD = Standard deviation, N = Number

TABLE 10. Summary of Serum T3 and T4 Level in PND 22 Female Rat Pups (F1)

Hormone	Group N°
	G1			G2			G3			G4
	Mean	SD	N	Mean	SD	N	Mean	SD	N	Mean	SD	N
T3	1166.706	98.492	10	1130.596	152.894	10	1300.428­*	171.315	10	1371.200	395.309	10
T4	75886.896	12449.540	10	74471.364	8805.684	10	78445.631	13454.459	10	91869.842	25523.427	10

 

TABLE 11. Summary of Serum T3 and T4 Level i nCohort 1A Male Rats

Hormone	Group N°
	G1			G2			G3			G4
	Mean	SD	N	Mean	SD	N	Mean	SD	N	Mean	SD	N
T3	608.631	105.624	10	634.192	114.392	10	673.808	92.116	10	631.297	97.648	10
T4	46283.928	4749.377	10	46933.934	4885.995	10	52575.119	5758.954	10	44885.595	6853.688	10

 

TABLE 12. Summary of Serum T3 and T4 Level in Cohort 1A Female Rats

Hormone	Group N°
	G1			G2			G3			G4
	Mean	SD	N	Mean	SD	N	Mean	SD	N	Mean	SD	N
T3	657.453	131.922	10	690.129	108.068	10	691.313	68.543	10	792.604	184.617	10
T4	30867.390	6085.017	10	34932.867	7235.657	10	32105.700	5251.861	10	49568.749­­#	10927.196	10

Keys: N = Number of animals, SD = Standard deviation, N = Number

­= Significantly higher than control (p=<0.05); ­­= Significantly higher than control (p=<0.01)

* =Student’s t-test, # = Dunnett’s t-test

 

TABLE 13: Pup body temperature

Postnatal Day 0	Group N°
	G1			G2			G3			G4
	Mean	SD	N	Mean	SD	N	Mean	SD	N	Mean	SD	N
F1 Male	24.95	0.48	20	24.9	0.41	24	24.82	0.52	22	24.43↓↓$	0.37	18
F1 Female	25.01	0.62	20	24.97	0.45	24	24.79	0.47	22	24.40↓↓$	0.3	18
F1 Male+ female	24.97	0.58	22	24.93	0.42	24	24.8	0.47	22	24.40↓↓$	0.31	18
F2 Male	24.94	0.57	20	24.77	0.6	17	24.39↓$	0.54	18	24.62	0.42	17
F2 Female	25.02	0.49	20	24.71	0.6	17	24.45↓↓$	0.52	17	24.65	0.43	17
F2 Male+ female	24.99	0.49	20	24.75	0.6	17	24.42↓↓$	0.53	18	24.65	0.41	17

N = Number of observations, SD = Standard deviation, N° Number, $ t-test with Bonferroni’s adjustment, ↓ = Significantly lower than control (p≤0.05), ↓↓ = Significantly lower than control (p≤0.01)

 

 

TABLE 14: Summary of Effect on Fertility, Reproduction, and Development – Parent Female (P1)

Observations	Values
Group & Dose (ppm)	G1 (0)	G2 (50)	G3 (100)	G4 (300)
Pairs Started (N)	20	20	20	20
Females Achieving Pregnancy (N)#	20	20	20	20
Conceiving Days 1 - 5 (N)	19	16	17	19
Conceiving Days 6 - 10 (N)	0	0	0	1
Conceiving Days ³ 11 (N)	0	3	2	0
Pregnancy = 21 Days (N)	0	0	2	1
Pregnancy = 22 Days (N)	16	14	15	16
Pregnancy = 23 Days (N)	3	2	0	0
Pregnancy ³ 24 Days (N)	0	1	1	0
Female Sacrificed on Gestation Day 25 (N)	0	2	2	3
Dams with Live Pups at Day 4 (N)	20	17	18	17
N° of Female Rats Standardized on Lactation day 4	6	4	6	0
Dams with Live Pups at Weaning (N)	20	17	18	17
N° of Female Rats (along with pups) Sacrificed on Lactation Day 22	20	17	18	17
N° of Female Rats Sacrificed (without pups)	0	0	0	0
Implants (Mean ± SD)	11.05 ± 1.93	9.22 ± 2.88¯β	9.47 ± 3.29	9.59 ± 1.37¯β
ABNORMAL PUPS (excluding dead/cannibalised pups)
Dams with 0	18	16	16	15
Dams with 1 (Weakness)	2	1	2	2
Dams with ≥2 (Weakness)	0	0	0	0
LOSS OF OFFSPRING
Pre-natal (implantations minus live births)
Females with 0	7	8	9	8
Females with 1	7	4	9	7
Females with 2	6	4	1	1
Females with ≥ 3	0	2	0	1
Post-natal (live births minus alive at post-natal day 4)
Females with 0	16	15	17	14
Females with 1	2	1	1	3
Females with 2	1	0	0	0
Females with ≥ 3	1	1	0	0
FERTILITY DATA
Number of Males Housed with Female	20	20	20	20
Number of Males Impregnating Female	20	20	20	20
Number of Females Housed with Male	20	20	20	20
Number of Females with Sperm Positive Vaginal Smear	19	19	19	20
Number of Females Confirmed Pregnant	20	20	20	20
Number of Females Giving Birth	20	17	18	17
Number of Females Giving Birth to at least a Viable Pup	20	17	18	17
Number of Females Giving Birth to All Viable Pups	20	15	18	17
Duration of Gestation (days) (Mean ± SD)	22.16 ± 0.37	22.24 ± 0.56	22.00 ± 0.59	21.94 ± 0.24
FERTILITY INDEX
Male Fertility Index	100	100	100	100
Female Fertility Index	100	90	95	85
Gestation Index	100	85	90	85
Parturition Index	100	85	90	85
Percentage of Pregnant Rats	100	90	95	85
Percentage of Non-pregnant Rats	0	10	5	15
Mating Index	100	100	100	100
Prenatal Loss (Mean ± SD)	0.95 ± 0.83	1.00 ± 1.08	0.58 ± 0.61	0.71 ± 0.85
Postnatal Loss (Mean ± SD)	0.45 ± 1.19	0.24 ± 0.75	0.06 ± 0.24	0.18 ± 0.39
Prenatal Loss (%) (Mean ± SD)	8.75 ±7.97	14.59 ± 24.15	12.20 ± 24.27	6.70 ± 7.33
Postnatal Loss (%) (Mean ± SD)	4.15 ± 9.44	2.38 ± 8.16	0.79 ± 3.37	1.91 ± 4.29

Key: N = Number of rats, SD = Standard deviation,* =Student’s t-test

Key:  ¯=Significantly lower than control (p=<0.05)

Note: Non-pregnant rats were excluded from statistical analysis of implants and pre- and postnatal losses.

Presumed mated female was not considered for calculation of conceiving and pregnancy days

 

 

TABLE 15. Summary of Effect on Fertility, Reproduction, and Development - Pup data

Number of Pups (F2)

Group N°	G1			G2			G3			G4
Sex	M	F	T	M	F	T	M	F	T	M	F	T
Number of Pups
Total N° of Pups on Day of Littering	93	109	202	72	77	151a	88	81	169	76	75	151
Cannibalized Pups on Day of Littering	0	0	0	0	0	2	0	0	0	0	0	0
Pups Still birth on Day of Littering	0	0	0	1	0	1	0	0	0	0	0	0
Total N° of Live Pups on Day of Littering	93	109	202	71	77	148	88	81	169	76	75	151
Litter Size on	91	102	193	70	74	144	88	80	168	74	74	148
PND 4
Litter Size on	86	95	181	65	72	137	84	75	159	74	74	148
PND 4 (R)
Litter Size on	84	94	178	65	71	136	83	74	157	73	73	146
PND 7
Litter Size on	81	93	174	65	71	136	83	73	156	73	72	145
PND 14
Litter Size on	80	93	173	64	71	135	81	73	154	73	71	144
PND 21
Pups Mortality Index
1-4 (N°)	2	7	9	1	3	4	0	1	1	2	1	3
Mortality Index on PND 4	2.15	6.42	4.46	1.41	3.9	2.7	0	1.23	0.59	2.63	1.33	1.99
4R -7 (N°)	2	1	3	0	1	1	1	1	2	1	1	2
Mortality Index on PND 7	2.33	1.05	1.66	0	1.39	0.73	1.19	1.33	1.26	1.35	1.35	1.35
4R -14 (N°)	5	2	7	0	1	1	1	2	3	1	2	3
Mortality Index on PND 14	5.81	2.11	3.87	0	1.39	0.73	1.19	2.67	1.89	1.35	2.7	2.03
14R -21 (N°)	6	2	8	1	1	2	3	2	5	1	3	4
Mortality Index on PND 21	6.98	2.11	4.42	1.54	1.39	1.46	3.57	2.67	3.14	1.35	4.05	2.7
Pups Survival Index
Survival Index on PND 4	97.85	93.58	95.54	98.59	96.1	97.3	100	98.77	99.41	97.37	98.67	98.01
Survival Index on PND 7	97.67	98.95	98.34	100	98.61	99.27	98.81	98.67	98.74	98.65	98.65	98.65
Survival Index on PND 14	94.19	97.89	96.13	100	98.61	99.27	98.81	97.33	98.11	98.65	97.3	97.97
Survival Index on PND 21	93.02	97.89	95.58	98.46	98.61	98.54	96.43	97.33	96.86	98.65	95.95	97.3
Lactation Index, Live Birth Index and Postnatal Loss
Lactation	93.02	97.89	95.58	98.46	98.61	98.54	96.43	97.33	96.86	98.65	95.95	97.3
Index (%)
Live Birth	100	100	100	98.61	100	98.01¯©	100	100	100	100	100	100
Index (%)
Postnatal	2	7	9	1	3	4	0	1	1	2	1	3
Loss (PND 0-4)

Key:    M = Male, F = Female, T = Total, R = Retained, N° = Number, PND = Postnatal Day, © = Chi-square test

­ = Significantly higher than control (p=<0.05)