Ethanol, 2,2'-oxybis-, reaction products with ammonia, morpholine derivs. residues

Administrative data

Link to relevant study record(s)

Reference

Endpoint:

hydrolysis

Type of information:

experimental study

Adequacy of study:

key study

Study period:

2010-09-30 - 2010-11-05

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

guideline study

Qualifier:

according to guideline

Guideline:

EU Method C.7 (Degradation: Abiotic Degradation: Hydrolysis as a Function of pH)

Deviations:

no

GLP compliance:

yes (incl. QA statement)

Specific details on test material used for the study:

Sponsor's identification: Amine C8
Description: dark brown liquid
Batch number: T7-271109
Date received: 21 September 2010
Expiry date: 31 December 2011
Storage conditions: room temperature in the dark

Radiolabelling:

no

Analytical monitoring:

yes

Details on sampling:

- Preparation of samples
Sample solutions were prepared in stoppered glass flasks at a nominal concentration of 1 g/l in the three buffer solutions.
The test solutions were split into individual vessels for each data point.
The solutions were shielded from light whilst maintained at the test temperature.

- Preliminary test/Tier 1
Sample solutions at pH 4, 7 and 9 were maintained at 50.0 ± 0.5°C for a period of 120 hours.
- Analysis of sample solutions
The sample solutions were taken from the water bath at various times and the pH of each solution recorded.
The concentration of the sample solution was determined by gas chromatography (GC).
- Samples
Duplicate aliquots (A and B) of sample solution were diluted by a factor of 100 using acetone.
- Standards
Duplicate standard solutions of test item were prepared in acetone:relevant buffer solution (99:1 v/v) covering a nominal concentration range of 1 to 20 mg/l.
- Matrix blanks
Acetone:relevant buffer solution (99:1 v/v).

Buffers:

- Composition of buffer:
Buffer solution (pH) Components Concentration (mol dm-3)
4 Potassium hydrogen phthalate 0.05
7 Disodium hydrogen orthophosphate (anhydrous) 0.03
Potassium dihydrogen orthophosphate 0.02
Sodium chloride 0.02
9 Disodium tetraborate 0.01
Sodium chloride 0.02

The buffer solutions were filtered through a 0.2 µm membrane filter to ensure they were sterile before commencement of the test. Also these solutions were subjected to ultrasonication and degassing with nitrogen to minimise dissolved oxygen content.

Details on test conditions:

Refer to details on sampling and analytical methods.

Duration:

120 h

pH:

4

Initial conc. measured:

1 g/L

Duration:

120 h

pH:

7

Initial conc. measured:

1 g/L

Duration:

120 h

pH:

9

Initial conc. measured:

1 g/L

Number of replicates:

Duplicate aliquots (A and B) of sample solution were diluted by a factor of 100 using acetone.

Positive controls:

no

Negative controls:

no

Statistical methods:

Not specified.

Preliminary study:

The mean peak areas relating to the standard and sample solutions are presented in remarks on results including tables and figures section.

Transformation products:

not specified

Details on hydrolysis and appearance of transformation product(s):

Less than 10% hydrolysis after 5 days at 50°C.

Key result

pH:

4

Temp.:

25 °C

DT50:

1 yr

Type:

not specified

Key result

pH:

7

Temp.:

25 °C

DT50:

1 yr

Type:

not specified

Key result

pH:

9

Temp.:

25 °C

DT50:

1 yr

Type:

not specified

Other kinetic parameters:

None.

Details on results:

At pH4, 7 and 9 there was less than 10% hydrolysis after 5 days at 50°C, equivalent to a half-life greater than 1 year at 25°C.

Preliminary test/Tier 1

The mean peak areas relating to the standard and sample solutions are shown in the following table:

Table 10.2 pH 4

Solution	MeanArea
	Peak No.1	Peak No.2
pH 4 blank	ND	ND
Standard 1.03 mg/l	ND	8.093 x 105
Standard 5.17 mg/l	1.120 x 106	4.201 x 106
Standard 10.3 mg/l	2.443 x 106	8.863 x 106
Standard 10.4 mg/l	3.079 x 106	9.482 x 106
Standard 15.5 mg/l	3.597 x 106	1.424 x 107
Standard 20.7 mg/l	5.150 x 106	1.976 x 107
Standard 10.3 mg/l	2.000 x 106	8.876 x 107
Standard 10.4 mg/l	2.269 x 106	9.098 x 107
Initial Sample A, pH 4	2.031 x 106	8.714 x 106
Initial Sample B, pH 4	1.929 x 106	9.040 x 106
2.4-Hour Sample A, pH 4	1.588 x 106	7.988 x 106
2.4-Hour Sample B, pH 4	1.656 x 106	8.179 x 106
pH 4 blank	ND	ND
Standard 1.01 mg/l	ND	6.817 x 105
Standard 5.04 mg/l	ND	3.143 x 106
Standard 10.1 mg/l	9.929 x 105	6.674 x 106
Standard 10.4 mg/l	1.506 x 106	8.108 x 106
Standard 15.1 mg/l	1.831 x 106	1.078 x 107
Standard 20.1 mg/l	3.900 x 106	1.456 x 107
Standard 10.1 mg/l	1.503 x 106	6.527 x 106
Standard 10.4 mg/l	1.442 x 106	6.892 x 106
24-Hour Sample A, pH 4	1.562 x 106	6.446 x 106
24-Hour Sample B, pH 4	8.506 x 105	6.814 x 106
pH 4 blank	ND	ND
Standard 1.11 mg/l	ND	3.206 x 105
Standard 5.54 mg/l	4.974 x 105	2.178 x 106
Standard 11.1 mg/l	1.371 x 106	4.755 x 106
Standard 11.5 mg/l	1.470 x 106	5.030 x 106
Standard 16.7 mg/l	2.300 x 106	7.692 x 106
Standard 22.2 mg/l	3.314 x 106	1.049 x 107
Standard 11.1 mg/l	1.281 x 106	5.076 x 106
Standard 11.5 mg/l	1.431 x 106	5.164 x 106
120-Hour Sample A, pH 4	1.100 x 106	4.513 x 106
120-Hour Sample B, pH 4	9.656 x 105	4.500 x 106

         ND: none detected

 

Table 10.3 pH 7

Solution	MeanArea
	Peak No.1	Peak No.2
pH 7 blank	ND	ND
Standard 10.3 mg/l[1]	1.064 x 107	6.992 x 106
Standard 10.4 mg/l[1]	1.121 x 107	7.086 x 106
Initial Sample A, pH 7	5.066 x 106	5.550 x 106
Initial Sample B, pH 7	7.476 x 106	6.860 x 106
2.4-Hour Sample A, pH 7	9.218 x 106	7.283 x 106
2.4-Hour Sample B, pH 7	1.060 x 107	6.783 x 106
pH 7 blank	ND	ND
Standard 1.01 mg/l	5.655 x 105	5.659 x 105
Standard 5.04 mg/l	3.418 x 106	3.138 x 106
Standard 10.1 mg/l	9.189 x 106	5.518 x 106
Standard 10.4 mg/l	1.234 x 107	7.218 x 106
Standard 15.1 mg/l	1.643 x 107	8.610 x 106
Standard 20.1 mg/l	1.875 x 107	1.399 x 107
Standard 10.1 mg/l	1.081 x 107	6.399 x 106
Standard 10.4 mg/l	1.077 x 107	6.962 x 106
24-Hour Sample A, pH 7	1.217 x 107	6.771 x 106
24-Hour Sample B, pH 7	1.103 x 107	7.985 x 106
pH 7 blank	ND	ND
Standard 1.11 mg/l	4.020 x 105	3.913 x 105
Standard 5.54 mg/l	3.901 x 106	2.291 x 106
Standard 11.1 mg/l	9.725 x 106	5.085 x 106
Standard 11.5 mg/l	1.021 x 107	5.216 x 106
Standard 16.7 mg/l	1.521 x 107	7.796 x 106
Standard 22.2 mg/l	2.277 x 107	1.138 x 107
Standard 11.1 mg/l	9.523 x 106	4.959 x 106
Standard 11.5 mg/l	9.993 x 106	5.186 x 106
120-Hour Sample A, pH 7	9.574 x 106	4.216 x 106
120-Hour Sample B, pH 7	9.829 x 106	4.300 x 106

         ND: none detected

 

 

Table 10.4 pH 9

Solution	MeanArea
	Peak No.1	Peak No.2
pH 9 blank	ND	ND
Standard 1.03 mg/l	ND	ND
Standard 5.17 mg/l	2.678 x 106	2.690 x 106
Standard 10.3 mg/l	1.134 x 107	6.616 x 106
Standard 10.4 mg/l	1.013 x 107	6.499 x 106
Standard 15.5 mg/l	1.706 x 107	1.110 x 107
Standard 20.7 mg/l	2.452 x 107	1.682 x 107
Standard 10.3 mg/l	1.002 x 107	5.612 x 106
Standard 10.4 mg/l	1.104 x 107	7.402 x 106
Initial Sample A, pH 9	1.199 x 107	7.355 x 106
Initial Sample B, pH 9	1.075 x 107	7.104 x 106
2.4-Hour Sample A, pH 9	9.028 x 106	7.896 x 106
2.4-Hour Sample B, pH 9	1.038 x 107	6.823 x 106
pH 9 blank	ND	ND
Standard 1.01 mg/l	9.192 x 105	ND
Standard 5.04 mg/l	2.199 x 106	3.073 x 106
Standard 10.1 mg/l	8.950 x 106	7.033 x 106
Standard 10.4 mg/l	7.256 x 106	6.712 x 106
Standard 15.1 mg/l	1.458 x 107	1.042 x 107
Standard 20.1 mg/l	2.003 x 107	1.226 x 107
Standard 10.1 mg/l	7.808 x 106	6.695 x 106
Standard 10.4 mg/l	8.851 x 106	5.999 x 106
24-Hour Sample A, pH 9	1.062 x 107	7.383 x 106
24-Hour Sample B, pH 9	1.001 x 107	6.273 x 106
pH 9 blank	ND	ND
Standard 1.11 mg/l	ND	3.479 x 105
Standard 5.54 mg/l	2.542 x 106	2.123 x 106
Standard 11.1 mg/l	7.300 x 106	4.838 x 106
Standard 11.5 mg/l	8.182 x 106	5.024 x 106
Standard 16.7 mg/l	1.344 x 107	7.897 x 106
Standard 22.2 mg/l	2.039 x 107	1.101 x 107
Standard 11.1 mg/l	7.425 x 106	4.634 x 106
Standard 11.5 mg/l	8.057 x 106	4.897 x 106
120-Hour Sample A, pH 9	8.574 x 106	4.211 x 106
120-Hour Sample B, pH 9	8.745 x 106	4.210 x 106

         ND: none detected

 

Equations of the calibration curve and correlation coefficients for the analyses are shown in the following table:

Table 10.5

Analysis	Correlation Coefficient	Equation of the Curve[2]
		A	B	C
pH 4, Initial, 2.4-Hour, Peak 1	0.997	2.64 x 104	1.83 x 105	3.12 x 103
pH 4, Initial, 2.4-Hour, Peak 2	1.000	-3.45 x 104	7.99 x 105	7.69 x 103
pH 4, 24-Hour Peak 1	0.972	5.47 x 104	5.23 x 104	6.45 x 103
pH 4, 24-Hour Peak 2	0.996	-3.46 x 104	6.41 x 105	4.33 x 103
pH 4, 120-Hour Peak 1	0.999	-3.69 x 104	9.80 x 104	2.43 x 103
pH 4, 120-Hour Peak 2	0.999	-1.03 x 105	4.23 x 105	2.53 x 103
pH 7, Initial, 2.4-Hour Peak 1[3]	0.972	3.00 x 105	1.21 x 106	3.61 x 104
pH 7, Initial, 2.4-Hour Peak 2[3]	1.000	-7.67 x 104	8.40 x 105	5.62 x 103
pH 7, 24-Hour Peak 1[4]	0.984	-1.61 x 105	1.02 x 106	-
pH 7, 24-Hour Peak 2	0.990	9.72 x 104	5.45 x 105	6.17 x 103
pH 7, 120-Hour Peak 1	0.999	-2.32 x 105	7.27 x 105	1.37 x 104
pH 7, 120-Hour Peak 2	1.000	-1.464 x 104	3.89 x 105	5.47 x 103
pH 9, Initial, 2.4-Hour Peak 1	0.994	-6.41 x 105	8.88 x 105	1.64 x 104
pH 9, Initial, 2.4-Hour Peak 2	0.996	-1.88 x 104	4.46 x 105	1.78 x 104
pH 9, 24-Hour Peak 1	0.993	-1.54 x 105	5.94 x 105	2.14 x 104
pH 9, 24-Hour Peak 2[4]	0.991	1.01 x 105	6.32 x 105	-
pH 9, 120-Hour Peak 1	0.999	-1.91 x 105	4.55 x 105	2.15 x 104
pH 9, 120-Hour Peak 2	1.000	-5.33 x 104	3.69 x 105	5.96 x 103

 

[1] The calibration curve was not used in this analysis since a significant change in response occurred after the calibration. Thus the Initial and 2.4-Hour, pH 7 samples were calculated on this set of standards which followed the samples. See Discussion section.

[2] 2^ndorder calibration y = A + Bx + Cx², where y = area, x = concentration (mg/l)

[3] Calibration curve not used to calculate the sample concentrations. Post sample standards used due to a significant change in instrument response during analysis. See Discussion Section.

[4] 1^storder calibration y = A + Bx,where y = area, x = concentration (mg/l)

 

 

The test item concentrations at the given time points are shown in the following tables:

Table 10.5   pH 4 at 50.0 ± 0.5ºC Peak No.1

Time (Hours)	Mean Concentration (g/l)		% of mean initial concentration (g/l)
	A	B	A	B
0	0.945	0.903	-	-
2.4	0.757	0.786	81.9	85.0
24	1.17	0.776	126	84.0
120	0.940	0.845	102	91.5

Result:         Less than 10% hydrolysis after 5 days at 50°C, equivalent to a half-life greater than 1 year at 25°C.

Table 10.6   pH 4 at 50.0 ± 0.5ºC Peak No.2

Time (Hours)	Mean Concentration (g/l)		% of mean initial concentration (g/l)
	A	B	A	B
0	1.03	1.05	-	-
2.4	1.00	1.02	90.8	92.7
24	0.897	1.04	93.4	98.5
120	1.03	1.03	101	101

Result:         Less than 10% hydrolysis after 5 days at 50°C, equivalent to a half-life greater than 1 year at 25°C.

Table 10.7   pH 7 at 50.0 ± 0.5ºC Peak No.1

Time (Hours)	Mean Concentration (g/l)		% of mean theoretical[1]concentration (g/l)
	A	B	A	B
0	0.480	0.709	-	-
2.4	0.874	1.00	86.9	99.8
24	1.21	1.10	120	109
120	1.12	1.14	111	113

Result:         Approximately 10% hydrolysis after 5 days at 50°C, equivalent to a half-life greater than 1 year at 25°C. 

Table 10.8   pH 7 at 50.0 ± 0.5ºC Peak No.2

Time (Hours)	Mean Concentration (g/l)		% of mean theoretical[2]concentration (g/l)
	A	B	A	B
0	0.816	1.01	-	-
2.4	1.07	0.998	107	99.2
24	1.09	1.26	108	125
120	0.958	0.975	95.2	96.9

Result:         Less than 10% hydrolysis after 5 days at 50°C, equivalent to a half-life greater than 1 year at 25°C. 

Table 10.9   pH 9 at 50.0 ± 0.5ºC Peak No.1

Time (Hours)	Mean Concentration (g/l)		% of mean initial concentration (g/l)
	A	B	A	B
0	1.17	1.07	-	-
2.4	0.928	1.04	82.9	93.0
24	1.25	1.19	112	107
120	1.22	1.24	109	111

Result:         Less than 10% hydrolysis after 5 days at 50°C, equivalent to a half-life greater than 1 year at 25°C.

Table 10.10 pH 9 at 50.0 ± 0.5ºC Peak No.2

Time (Hours)	Mean Concentration (g/l)		% of mean initial peak area
	A	B	A	B
0	1.14	1.11	-	-
2.4	1.20	1.07	107	95.5
24	1.15	0.977	103	87.1
120	0.996	0.996	88.8	88.8

Result:         Less than 10% hydrolysis after 5 days at 50°C, equivalent to a half-life greater than 1 year at 25°C[3]. 

[1] The theoretical value of test item concentration has been used to determine the degree of hydrolysis. See Discussion section.

[2] The theoretical value of test item concentration has been used to determine the degree of hydrolysis. See Discussion section.

[3] Variation in the reported concentration data for pH 9 Peak No.2. Based on percentage of theoretical concentration (98%), <10% hydrolysis is indicated.

 

Validity criteria fulfilled:

yes

Conclusions:

The test item was determined to be hydrolytically stable at pH 4, 7 and 9, with estimated half-lives of greater than 1 year at 25°C.

Executive summary:

Abiotic Degradation.  Assessment of hydrolytic stability was carried out using a procedure designed to be compatible with Method C7 Abiotic Degradation, Hydrolysis as a Function of pH of Commission Regulation (EC) No 440/2008 of 30 May 2008. The test item was determined to be hydrolytically stable at pH 4, 7 and 9, with estimated half-lives of greater than 1 year at 25°C.

Description of key information

The assessment of hydrolytic stability of the substance was carried out according to the EU Method C.7 (Butler & White, 2010). The test item was determined to be hydrolytically stable at pH 4, 7 and 9, with estimated half-lives greater than 1 year at 25°C.  The study is given a Klimisch score of 1, was conducted under GLP and is considered as the key study for endpoint coverage.

Key value for chemical safety assessment

Half-life for hydrolysis:

1 yr

at the temperature of:

25 °C

Additional information