sodium 3-[(3,4-dicyanophenyl)thio]propane-1-sulfonate

Administrative data

Endpoint:

hydrolysis

Type of information:

experimental study

Adequacy of study:

key study

Study period:

Start of experimental work : 26th March 2013. End of experimental work 31st May 2013

Reliability:

1 (reliable without restriction)

Rationale for reliability incl. deficiencies:

other: Meets the criteria as reliable without restriction according to Klimisch et al (1997).

Data source

Materials and methods

GLP compliance:

yes

Test material

Radiolabelling:

no

Study design

Details on sampling:

Preliminary Hydrolysis Test

For the initial HPLC analysis, the test solutions were left to reach room temperature and then 0.6 ml of each hydrolysis test was diluted to 10.0 ml with sample diluent.

For the 5 days hydrolysis analysis, one vial of each test was removed from the oven at 50 ºC +/- 0.5ºC after 5 days and allowed to cool to room temperature. 0.6 ml of each test was diluted to 10.0 ml with sample diluent.

Full Hydrolysis Test at pH 9

For the initial analysis at each temperature, each of the remaining aliquots was left to reach room temperature and then 0.6 ml of each hydrolysis test was diluted to 10.0 ml with sample diluent. A buffer blank solution was prepared at the same time by taking 0.6 ml of the pH 9 buffer solution and diluting to 10.0 ml with sample diluent.

For the other time points, one vial of each of the test solutions was removed from each oven at each time point. The test solutions were allowed to reach room temperature before diluting 0.6 ml of each test solution to a separate 10.0 ml volumetric flask and make up to volume with pH sample diluent. A blank solution was prepared at each time point as described above.

Buffers:

Preparation of Buffer Solutions

Three buffer solutions were prepared for preliminary test. The pH 9 buffer solution for the full hydrolysis study was prepared as for the pH 9 buffer in the preliminary test.

pH 4.0 Buffer Solution
164ml of 0.2M acetic acid solution was added to 36ml of 0.2M sodium acetate and diluted to 1 litre with ELGA Ultrapure water. The solution was degassed with helium.

pH 7.0 Buffer Solution
296ml of 0.1N sodium hydroxide solution was added to 500ml of 0.1M monopotassium phosphate solution and diluted to 1 litre with ELGA Ultrapure water. The solution was degassed with helium.

pH 9.0 Buffer Solution
213ml of 0.1N sodium hydroxide solution was added to 500ml of 0.1M boric acid in 0.1M potassium chloride and diluted to 1 litre with ELGA Ultrapure water. The solution was degassed with helium.

All buffers were autocalved at 121ºC for 15 min and then placed in a 50ºC oven to warm overnight before use.

Buffer blanks were also run to demonstrate specificity.

Details on test conditions:

TEST SYSTEM
- Sterilisation method: All glassware used during the analysis was autoclaved before use.

OTHER TEST CONDITIONS
- Adjustment of pH: The pH of each buffer solution was measured prior to use and no pH adjustment was required. The initial pH's of all test solutions were within 0.1 pH units of required pH, therefore no pH adjustment was necessary.

Duration of testopen allclose all

Number of replicates:

Two replicates per pH.

Positive controls:

no

Negative controls:

no

Results and discussion

Preliminary study:

The pH 4.0 and 7.0 hydrolysis tests showed that there was been less than 10% hydrolysis after 5 days at 50°C ±0.5°C versus the initial time point and therefore no futher testing was required.

The pH 9.0 hydrolysis test showed approximately 30% hydrolysis after 5 days at 50°C ±0.5°C versus the initial time point and further testing was required at pH9.0 as stipulated in the test method.

Transformation products:

yes

Identity of transformation productsopen allclose all

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

See attached background material for hydrolysis products.

Total recovery of test substance (in %)open allclose all

Dissipation DT50 of parent compoundopen allclose all

Any other information on results incl. tables

Results

 Preliminary Test - Individual Results of Hydrolysis Tests

Test	Concentration mg/L	Initial result mg/L	Result after 5 days mg/L	% Recovery after 5 days	% Loss
pH4-1	2368	2309	2321	100.5	None
pH4-2	2214	2163	2178	100.7	None
pH7-1	2210	2232	2230	99.9	0.1
pH7-2	2416	2451	2416	98.6	1.4
pH9-1	2222	2224	1556	70.0	30.0
pH9-2	2296	2316	1612	69.6	30.4

 

The buffer blanks gave no interferences at or around the retention time of the analyte peaks and specificity in buffer for hydrolysis testing was deemed acceptable.

 

The results of the initial HPLC analysis show that hydrolysis did not occur immediately. At pH 4.0 and 7.0 there has been less than 10% hydrolysis after 5 days at 50°C ± 0.5°C versus the initial time point. As stipulated in the test guideline no further testing is required at these pH's.

 

At pH 9.0 there was approximately 30% hydrolysis after 5 days at 50°C ± 0.5°C versus the initial time point and thus further hydrolysis testing is required as stated in the test guideline.

Full Hydrolysis Test Results at pH 9

 

For the hydrolysis at pH 9 at 20±0.5ºC, 40±0.5ºC and 50±0.5ºC, the plot of the log transformed data of the test solutions concentrations versus time is a straight line (r>0.99), therefore the reaction is pseudo-first order. See below for the first order rate constant, Kobs, for each temperature and the predicted first order rate constant at 25°C:

 

pH 9 Kobs at 20 ± 0.5°C not applicable as less than 10% hydrolysis

pH 9 Kobs at 40 ± 0.5°C = 0.01685 days-1 (1456 secs-1)

pH 9 Kobs at 50 ± 0.5°C = 0.0702 days-1 (6066 secs-1)

pH 9 Kobs at 25°C = 0.002 days-1

 

Test Item Half-life

pH 9 at 20.0°C±0.5°CTest	not applicable as less than 10% hydrolysis
pH 9 at 40.0°C±0.5°C Test	Half life, t0.5, is 41.1 days (987.1 hours)
pH 9 at 50.0°C±0.5°C Test	Half life, t0.5, is 9.9 days (236.9 hours)

 

Individual Results at pH 9 at 40.0 ºC±0.5ºC

All of the time points were included for the calculation of the rate constant, K_obs, see the table below:

 

40°C test-1				40°C test-2
Time (days)	C0(mg/l)	Ct(mg/l)	ln(C0/Ct)	Time (days)	C0(mg/l)	Ct(mg/l)	ln(C0/Ct)
0	2473	2473	0.0000	0	2529	2529	0.0000
3	2473	2372	0.0417	3	2529	2416	0.0457
7	2473	2189	0.1220	7	2529	2256	0.1142
10	2473	2110	0.1587	10	2529	2176	0.1503
14	2473	1950	0.2376	14	2529	1996	0.2367
18	2473	1849	0.2908	18	2529	1909	0.2812
24	2473	1628	0.4181	24	2529	1692	0.4019
30	2473	1487	0.5087	30	2529	1548	0.4909

 

 

 

Rates of formation of the major hydrolysis products

 

The hydrolysis rate constant of the major hydrolysis products could not be determined as the formation rates were not first order.

From the data acquired during the full hydrolysis at pH9, it was noted the formation of three major hydrolysis products (>10%) with retention times of 6.6, 7.1 and 13.6 minutes.

 

 Identification of Hydrolysis Products by Electrospray LCMS

 

The major hydrolysis products observed during full hydrolysis testing at pH 9.0 were identified by Negative Electrospray LCMS using a Waters ZQ with Waters Alliance 2695 LC with UV and negative ion detection. The peaks were assigned on the basis of their relative retention times. See the attached background material section for the suggested structures.

Applicant's summary and conclusion

Validity criteria fulfilled:

yes

Conclusions:

At pH 4.0 and 7.0 the test item under goes less than 10% hydrolysis after 5 days at 50°C ±0.5°C. In the preliminary test, at pH 9.0 the test item showed approximately 30% hydrolysis after 5 days at 50°C ±0.5°C versus the initial time point. In the higher tier tests hydrolysis was found to be pseudo first- order. Three major hydrolysis products were identified.

Executive summary:

Introduction

Hydrolysis as a function of pH was determined for the test item using a method designed to be compliant with OECD text Method 111 Hydrolysis as a function of pH)

Method

Hydrolysis was measured at pH 4.0, pH 7.0 and pH 9.0 using a preliminary test.  The pH 9.0 preliminary hydrolysis tests showed approximately 30% hydrolysis after 5 days at 50°C ±0.5°C and as stipulated in the test guideline higher tier hydrolysis testing of the test item at pH 9 was undertaken to determine if hydrolysis followed first-order kinetic behaviour. Major hydrolysis products at pH9 were also identified using electrospray LCMS.

 Results and Conclusion

At pH 4.0 and 7.0 the test item under goes less than 10% hydrolysis after 5 days at 50°C ±0.5°C. In the preliminary test, at pH 9.0 the test item showed approximately 30% hydrolysis after 5 days at 50°C ±0.5°C versus the initial time point. In the higher tier tests hydrolysis was found to be pseudo first- order. Three major hydrolysis products were identified from electrospray LCMS.