Octane, 1,1,1,2,2,3,3,4,4,5,5,6,6-tridecafluoro-

Administrative data

Endpoint:

basic toxicokinetics in vivo

Type of information:

experimental study

Adequacy of study:

key study

Reliability:

3 (not reliable)

Rationale for reliability incl. deficiencies:

other: non-GLP compliant animal study, available as unpublished report

Data source

Referenceopen allclose all

Materials and methods

Test guidelineopen allclose all

GLP compliance:

no

Test material

Specific details on test material used for the study:

Supplier: Asahi Glass Co., Ltd.
Lot number: 51604132
Purity: 99.894%

Test animals

Species:

rat

Strain:

Crj: CD(SD)

Details on species / strain selection:

This test system is widely used to evaluate elemental pharmacokinetic parameters.

Sex:

male

Details on test animals or test system and environmental conditions:

Supplier: Charles Rivers Laboratories Japan, Inc.
Weight: 295-308 g at initiation of quarantine and acclimation, 332-363 g at grouping
Age: 9 weeks at initiation of quarantine and acclimation, 10 weeks at grouping

Environment
Temperature: 22.6-23.2°C
Humidity: 47-54%
Ventilation: 15 times/hour
Illumination: 12 hours/day of artificial light (07:00 to 19:00). The lights were manually switched on for examinations (20:04 to 20:20 for blood sampling, 22:05 to 22:40 for clinical signs, blood sampling and urine sampling)
Food: solid food (CRF-1, Lot No.: 160509, Oriental Yeast Co., Ltd.) ad libitum
Water: ad libitum
Quarantine and Acclimation: 7 days

Administration / exposure

Route of administration:

oral: gavage

Vehicle:

olive oil

Details on exposure:

The dosing formulation was administered orally using a disposable gastric catheter for rats and a syringe. The test article formulations were stirred with a stirrer during collection.
Dosing volume: 5 mL/kg (individual dose volume was calculated based on the dosing day)

Duration and frequency of treatment / exposure:

Single administration

No. of animals per sex per dose / concentration:

6

Control animals:

not specified

Details on study design:

Six male Sprague Dawley rats were given a single dose of 500 mg/kg AC-6000 by gavage. Blood samples were collected from the cervical vein of three rats for each time point at 2, 4, 6, 8, 10, 12, 24, 48 and 72 hours after dosing and were analysed for both AC-6000 and perfluorohexanoic acid (PFHxA). The remaining rats were individually kept in metabolism cages and urine was collected over the following time periods post-dosing: 0-6; 6-12; 12-24; 24-48; 48-72 hrs. The urine samples from the three rats were also analysed for the two substances.

Statistics:

Statistical analysis was not performed on clinical signs, mortality and urine volumes.

Results and discussion

Any other information on results incl. tables

No animal died or became moribund in any animal.

 

No body weight or urine sampling abnormality was noted in any animal.

 

Table 1: Clinical signs in male rats

Animal no.	Day 0 (pre dosing)	Day 0 (6h)	Day 0 (8h)	Day 0 (12h)	Day 1	Day 2	Day 3
1	-	-	-	-	-	-	-
2	-	-	-	-	-	-	-
3	-	-	-	-	-	-	-
4	-	-	-	-	-	-	-
5	-	-	-	-	-	-	-
6	-	-	-	-	-	-	-

-: no abnormal signs

 

Table 2: Body weight (g) in male rats

Animal no.	Day 0
1	354
2	356
3	359
4	353
5	335
6	371
Mean	354.7
SD	11.6

 

Table 3: Urine volumes (mL) in male rats

	Time after dosing (hour)
Animal no.	0* to 6	6 to 12	12 to 24	24 to 48	48 to 72
4	1.5	0.5	4.9	9.8	9.0
5	1.9	0.9	5.3	10.8	9.9
6	2.3	0.9	3.1	8.0	9.9
Mean	1.90	0.77	4.43	9.53	9.6
SD	0.4	0.23	1.17	1.42	0.52

* immediately after dosing

 

Table 4: Individual serum concentrations of AC-6000 following oral dose of AC-6000

	Rat-1	Rat-2	Rat-3
Hours post-dose	Serum Concentration of AC-6000 (ng/mL)			Average*	SD
2	1283	1489	1758	1510	238
4	1413	1256	3922	2197	1496
6	<518**	<518	<518	-***	-
8	2236	903	2044	1728	720
10	1002	<518	867	935	-
12	622	823	566	670	135
24	616	598	<518	607	-
48	<518	<518	<518	-	-
72	<518	<518	<518	-	-

*The values which were below LLOQ were not included in the average values

**LLOQ for serum concentrations of AC-6000

***not calculated

 

Table 5: Individual serum concentrations of PFHxA following oral dose of AC-6000

	Rat-1	Rat-2	Rat-3
Hours post-dose	Serum Concentration of PFHxA (ng/mL)			Average*	SD
2	21.4	<20.0**	35.1	28.3	-***
4	28.9	53.4	24.4	35.5	15.6
6	36.3	<20.0	50.6	43.4	-
8	31.6	96.0	26.7	51.4	38.7
10	42.3	22.1	52.4	38.9	15.4
12	25.1	88.6	26.1	46.6	36.4
24	24.4	<20.0	48.8	36.6	-
48	<20.0	<20.0	<20.0	-	-
72	<20.0	<20.0	<20.0	-	-

*The values which were below LLOQ were not included in the average values

**LLOQ for serum concentrations of PFHxA

***Not calculated

 

Table 7: Mean pharmacokinetic parameters for serum concentrations of AC-6000 following oral dose of AC-6000

Cmax (ng/mL)	tmax* (h)	Kel**(1/h)	Half-life**(h)	AUC0 -t (ng/mL)
2197	4	0.237	2.9	5830

*Values were estimated

**For the terminal elimination phase (8h to 12h-post dosing)

Note that the data at 6h after dose administration was excluded from the pharmacokinetic analysis since this data was suspected to be discontinuous sampling values in the study.

 

Table 8: Individual urine concentrations of AC-6000 following oral dose of AC-6000

	Rat-1	Rat-2	Rat-3
Hours post-dose	Urine Concentration of AC-6000 (ng/mL)			Average	SD
0 -6	<518*	837	<518	-**	-
6 -12	<518	<518	<518	-	-
12 -24	<518	<518	<518	-	-
24 -48	<518	<518	<518	-	-
48 -72	<518	<518	<518	-	-

*The values which were below LLOQ were not included in the average values

**Not calculated

 

Table 9: Individual urine concentrations of PFHxA following oral dose of AC-6000

	Rat-1	Rat-2	Rat-3
Hours post-dose	Urine concentrations of PFHxA (ng/mL)			Average	SD
0-6	923	599	626	716	1997
6 -12	1957	5494	2119	3190	1997
12 -24	1859	5852	1892	3201	2296
24 -48	1005	1551	1287	1281	273
48 -72	443	498	451	460	33.3

Applicant's summary and conclusion

Conclusions:

The average AC-6000 serum concentrations in rats following oral AC-6000 administration were 2197 ng/mL at 4h. The Kel (1/h) and half-life were 0.237 and 2.9, respectively, using the terminal phase (8h to 12h-post dosing). Tha AUC0-t (ng/mL) was 5830. At 48h and 72h after the dose administration, the serum concentration AC-6000 in all test animals were below the LLOQ (518 ng/mL). The maximum average serum concentration of PFHxA was 51.4 ng/mL at 8h after dosing, which was approximately 1.8-fold higher that that at 2h after the dose administration.
The urine concentrations of AC-6000 in rats were <518 (below LLOQ), <518 and 837 ng/mL at 0-6h after dose administration suggesting that it is quickly metabolised in the rat. AC-6000 concentrations in urine at 6-12, 12-24, 24-48 and 48-72 hours were below LLOQ. The maximum urine PFHxA concentration was 3201 ng/mL at 12-24h after dosing, which was approximately 4.5-fold higher that that of value at 0-6h after dosing. The average urine concentration of PFHxA at 48-72h post-dosing was 460 ng/mL, which was approximately 14% of that at 12-24h after dosing.

Executive summary:

Six male rats were dosed orally once with 500 mg/kg AC-6000. No adverse effects were observed on animal body weight and urine or other clinical symptoms. The AC-6000 serum Kel (1/h) and half-life were 0.237 and 2.9, respectively, using the terminal phase (8h to 12h-post dosing). The AUC0-t (ng/mL) was 5830. The maximum average serum concentration of PFHxA was 51.4 ng/mL at 8h after dosing, which was approximately 1.8-fold higher that that at 2h after the dose administration. It was thought that AC-6000 was metabolised quickly in the rat as urine concentrations of AC-6000 were <518 (below  LLOQ), <518 and 837 ng/mL at 0-6h. The maximum urine PFHxA concentration was 3201 ng/mL at 12-24h after dosing, which was approximately 4.5-fold higher that that of value at 0-6h after dosing. The average urine concentration of PFHxA at 48-72h post-dosing was 460 ng/mL, which was approximately 14% of that at 12-24h after dosing.