2-ethylhexyl acetate

Administrative data

Endpoint:

dermal absorption in vivo

Type of information:

migrated information: read-across from supporting substance (structural analogue or surrogate)

Adequacy of study:

key study

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

other: Comparable to guideline study; Critical study for SIDS endpoint; hydrolysis product of 2-ethylhexyl acetate

Data source

Materials and methods

Principles of method if other than guideline:

AME (absorption, metabolism, excretion) following dermal application of [14C]-2-EH

GLP compliance:

yes

Test material

Radiolabelling:

yes

Test animals

Species:

rat

Strain:

Fischer 344

Sex:

female

Details on test animals or test system and environmental conditions:

cf. cross-referenced study

Administration / exposure

Type of coverage:

other: Pyrex glass cylinders

Vehicle:

unchanged (no vehicle)

Duration of exposure:

96 hours

Doses:

1 g/kg bw

Details on study design:

APPLICATION OF DOSE:



TEST SITE
- Preparation of test site: shaved dorsal skin
- Area of exposure: 2.27 mm² (inner diameter of the Pyrex glass cylinder)
- Type of cover / wrap if used: adhesive



SITE PROTECTION / USE OF RESTRAINERS FOR PREVENTING INGESTION: yes: adhesive


REMOVAL OF TEST SUBSTANCE
- Washing procedures and type of cleaning agent: aspiration of remaining test material, repeated washing with a 40% Hisoderm soap solution
- Time after start of exposure: 6 hrs


SAMPLE COLLECTION
- Collection of blood: from the tail vein; 5 samples within the first 10 min; then at 25, 50, 75, and 95 min.
- Collection of urine and faeces: separately, at intervals 0-8; 8-24; 24-48; 48-96 hrs
- Collection of expired air: (1) in sodium hydroxide traps and (2) in silica gel traps; time intervals as above
- Terminal procedure: no data
- Analysis of organs: no


SAMPLE PREPARATION
- Storage procedure: freezing until use (urine, faeces); blood: heparinised
- Preparation details: combustion (total radiaoactivity in urine and faeces); one-step digestant-scintillant treatment (blood); enzymatic treatment of urine for metabolite identification (ß-glucuronidase, sulfatase, acid) follwoed by filtering


ANALYSIS
- Method type(s) for identification: GC-MS, HPLC-MS-MS, Liquid scintillation counting, TLC

Results and discussion

Signs and symptoms of toxicity:

not specified

Dermal irritation:

not specified

Absorption in different matrices:

- Non-occlusive cover + enclosure rinse: 11.43%
- Skin wash: 38.95%
- Skin test site: 34.99%
- Urine: 3.32%
- Cage wash: 0.87%
- Faeces: 0.57%
- Expired air (if applicable): 1.84%

Total recovery:

- Total recovery: 91.97%
- Recovery of applied dose acceptable: yes
- Results adjusted for incomplete recovery of the applied dose: no

Any other information on results incl. tables

Table 4. Recovery of radioactivity from a 6-h, 1^.0 g/kg dermal application of neat [¹⁴C]2-ethylhexanol to
a 2^.27 cm² area on the clipped backs of female Fischer 344 rats.

		Collection period (h)
Sample	0-8	8-24	24-48	48-96	Total
Urine	1.41 ±0.47	1.66 ±0.25	019±0.03	0.07±0.02	3.32±072
Faeces	0.03±0.02	0.39±0.066	015±0.06	0.01±0.01	0.57±0.09
Cage wash (water)	0.58±0.13	0.24±0.03	0.04±0.01	0.03±0.01	0.87±0.
Silica gel breath traps	0.94±0.83	0.40±0.16	0.04±0.01	0.03±0.01	1.41±0.92
Sodium hydroxide breath traps	0,24±0.04	0.13±0.07	0.03±0.01	0.03± 0.01	0.43±0.06
Dose recovered from the exposure site at 6h					34.99±16.61
Washing recovery from the exposure site at 6h					38.95±9.78
Dose on cell cover at 6h					11.43±5.17 +5.17
Total recovery	3.19 ±0.77	2.81±0.38	0.44±0.11	0.17±0.03	91.97±5.75

Values are the mean per cent of dose SSD recovered from four animals.

Table 5. Recovery of radioactivity following a 1 mg/kg i.v. (tail vein) dose of [¹⁴C]2-ethylhexanol (in
saline) to female Fischer 344 rats.

		Collection period (h)
Sample	0-8	8-24	24-48	48-96	Total
Urine	35.79±1.89	14.50+2.99	1.59±0.28	1.40±0.26	53.28±3.70
Faeces	0.19±0.30	2.89±0.95	0.55±0.15	0.22±0.05	3.84±1.19
Cage wash (water)	15.94±3.36	3.66±1.74	0.66+0.28	0.92±0'44	21.17±2'92
Silica gel breath	0.22 ± 0.03	0.15±0.04	0.04 ±0.01	0.03 ± 0.01	0.44± 0.07
traps Sodium hydroxide	19.12 ± 1.02	2.15±0.18	0.94±0.11	0.77±0.07	22.97±1.23
breath traps Total recovery	71.24±3.42	23.35+3.01	3.77±0.67	3.33±0.42	101.69±1.11

Values are the mean per cent of dose +/- SD recovered from four animals

Table 6. Quantitation of urinary metabolites of 2-ethylhexanol in female Fischer 344 rats.

				Per cent of dose per peak
	Single low oral dose		Single high oral dose		Repeated low oral dose		Dermal dose
Peak ID	Free	Glucuronide	Free	Glucuronide	Free	Glucuronide	Free	Glucuronide
5-OH-EHA	1.11±0-64	1.28±1.26	3.06±0.88	1.18±0.77	0.73±0.21	2.93±2.27	<0.01	0.30±0.37
2-Ethyladipate + 5-OH-EHA	5.55±2.27	24.12±6.84	4.13+0.95	8.17+4.09	2.37+1.62	25.30±2.19	<0.01	1.61±0.37
6-OH-EHA	1.56±1.10	6.81+1.97	0.80+0.71	6.26±0.55	1.43±0.87	6.89±1.65	<0.01	0.57±0.32
Lactones of 5-OH-EHA	0.44±0.17	0.19±0.25	0.28±0.05	0.01	0.56±0.41	0.82±1.54	<0.01	0.01
2-Ethyl-5-hexenoic acid	<0.01	0.16±0.11	0.01	0.10±0.13	0.06±0.12	0.20±0.11	<0.01	0.01
EHA	0.54±0.68	6.30±1.21	4.77±3.69	20.14±3.25	1.27±1.08	7.45+2.42	<0.01	0.52±0.23
2-Ethylhexanol	0.03+0.05	1.53±0.51	0.01	0.34±0.31	0.22±0.40	1.19±0.15	<0.01	0.06±0.07

Values represent the mean±SD of four animals over the 0-24-h collection period. Quantitation is based on hplc separation and radiochemical detection of metabolites. The structural assignments are based on hplc and glc-mass selective detection analysis of samples and authentic standards both

before and after enzymic hydrolysis.

• Dermal absorption was low. This is also reflected by the low AUC (4.6 µg-eqivalent/g x h) compared to the i.v. studies (87.2 µg-eqivalent/g x h) which was conducted at a 1000 -fold lower dose level (1 mg/kg bw9.
• The metabolic pattern was similar to that seen after oral gavage (cf. attached document in cross-referenced study summary). Occurence of 3% of the dose in faeces was discussed to result from biliary excretion of conjugates.

Applicant's summary and conclusion

Conclusions:

Bioavailability of 2-EH via the dermal route is low. Metabolism and excretion of absorbed material is fast, with no difference to the oral route.

Executive summary:

2-EH was only slowly absorbed following dermal application of 1 g/kg bw. Less than 7% of the dose was absorbed within 6 hours of skin contact. The absorbed dose underwent rapid oxidative metabolism and glucuronidation followed by rapid excretion, predominantly in the urine. The absorption rate was 0.57 mg/cm²/h, which is in the range that was determined for rat skin in vitro (0.22 mg/cm²/h; Barber et al., 1992). The metabolic pattern was similar in all experiments, i.e. there were no differences that could be attributed to the oral or dermal route, the low or high dose level, or to single or repeated treatment. One exception is the marginally delayed excretion at 8 hours after dosing in the group receiving the high oral dose which indicates some saturation of the metabolic capacity (Deisinger, 1994).