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Physical & Chemical properties

Partition coefficient

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Reference
Endpoint:
partition coefficient
Type of information:
experimental study
Adequacy of study:
key study
Study period:
2019-01-16 to 2019-02-05
Reliability:
1 (reliable without restriction)
Rationale for reliability incl. deficiencies:
guideline study
Qualifier:
according to guideline
Guideline:
OECD Guideline 117 (Partition Coefficient (n-octanol / water), HPLC Method)
Version / remarks:
adopted April 2004
Deviations:
no
Qualifier:
according to guideline
Guideline:
other: EU Method A.24. PARTITION COEFFICIENT (N-OCTANOL/WATER), HIGH PERFORMANCELIQUID CHROMATOGRAPHY (HPLC) METHOD
Version / remarks:
European Commission Regulation (EC) No.440/2008 and No. 2016/266
Deviations:
no
GLP compliance:
yes (incl. QA statement)
Type of method:
HPLC method
Partition coefficient type:
octanol-water
Analytical method:
high-performance liquid chromatography
Key result
Type:
log Pow
Partition coefficient:
< 0.3
Temp.:
25 °C
pH:
7
Remarks on result:
other: below the lowest log Pow value of calibration substances (2-Butanone)
Type:
log Pow
Partition coefficient:
-2.2
Temp.:
25 °C
pH:
7
Remarks on result:
other: via extrapolation
Details on results:
Please see IUCLID section "Any other information on results incl. tables" below.

Preliminary visual estimation of the n-octanol solubility

A defined amount of the test item was stirred with increasing volumes of n-octanol at room temperature and visually checked for any undissolved particles.

Results of the preliminary visual estimation of the n-octanol solubility:

Amount of test item

/ mg

Added volume of n-octanol

/ ml

Total volume of n-octanol

/ ml

Stirring time

/ h

Appearance of mixture

27.6

2

2

1.25

not dissolved

(precipitate)

3

5

1.5

not dissolved

(cloudy)

10

15

2

not dissolved

(cloudy)

85

100

16

not dissolved

(cloudy)

According to this preliminary test the solubility of the test item in n-octanol was below 276 mg/L.

HPLC-Method - Results

The dead time t_0 was determined using formamide and two sparate HPLC runs - results:

t_0 (1) = 1.21 min;

t_0 (2) = 1.21 min;

t_0 (mean) = 1.21 min

Calibration data of the fist and second injection:

 

 

1strun

1strun

1strun

2ndrun

2ndrun

2ndrun

Calibration substance

log POW [1]

tR / min

k

log k

tR / min

k

log k

2-Butanone

0.3

1.39

0.15

-0.82

1.40

0.15

-0.82

Acetanilide

1.0

1.47

0.21

-0.68

1.47

0.21

-0.68

Cinnamyl alcohol

1.9

1.73

0.42

-0.37

1.72

0.42

-0.38

2,6-Dichlorobenzonitrile

2.6

2.14

0.77

-0.11

2.14

0.77

-0.12

Allyl phenyl ether

2.9

2.99

1.47

0.17

2.98

1.46

0.16

Benzophenone

3.2

2.73

1.25

0.10

2.72

1.24

0.09

Cumene

3.7

5.38

3.44

0.54

5.36

3.42

0.53

Diphenyl ether

4.2

4.97

3.10

0.49

4.95

3.09

0.49

Fluoranthene

5.1

9.95

7.21

0.86

9.93

7.19

0.86

4,4’-DDT

6.5

25.59

20.11

1.30

25.54

20.07

1.30

[1] OECD guideline 117, adopted 2004

Regression first run:   log Pow = a + b*log(k)    

Parameters:       a = 2.740

                         b = 2.737

                         r2= 0.9824

log POW of the test item – 1st injection:

Test item

tR/ min

k

log k

log POW

White Willow Bark Extract

1.23

0.02

-1.78

< 0.3[1]

(-2.1)[2]

[1] below the lowest log POW value of calibration substances (2-Butanone)

[2] via extrapolation

Regression second run:  log Pow = a + b*log(k)   

Parameters:        a = 2.743

                          b = 2.739

                          r2= 0.9824

log POW of the test item – 2nd injection:

Test item

tR/ min

k

log k

log POW

White Willow Bark Extract

1.23

0.02

-1.80

< 0.3[1]

(-2.2)[2]

[1]below the lowest log POWvalue of calibration substances (2-Butanone)

[2]via extrapolation

Final results (mean values from first and second determination):

log Pow < 0.3 (below the lowest log Pow value of calibration substances (2-Butanone))

(log Pow - 2.2 (via extrapolation)

Conclusions:
Partition coefficient n-octanol / water (OECD 117) determined at pH 7 / 25 °C:
log Pow < 0.3 (below the lowest log Pow value of calibration substances (2-Butanone))
log Pow -2.2 (via extrapolation)
Executive summary:

In a reliable and valid study performed compliant with GLP the partition coefficient n-octanol / water (Pow) was determined for the submission substance according to OECD 117 (HPLC method). This method was found to be most applicable due to the UVCB character of the substance as well as the anticipated low Pow value as judged from solubility in n-octanol (<276 mg/L as determined from preliminary experiments within this study) and solubility in water (Siemens, 2019 - study number PS20180395-4).

From the study on water solubility (Siemens study number PS20180395-4 - see IUCLID section 4.8) it was known that the test item induces alkaline pH upon dissolution and is of higher solubility at alkaline pH compared to neutral pH. Consequently, partition coefficient n-octanol-water could be dependent on pH as well. To account for this, HPLC was performed with mixtures of methanol / potassium dihydrogen phosphate buffer adjusted to pH 7.

Two replicate HPLC runs were performed, resulting in extrapolated values differing no more than 0.1 log units (log Pow -2.1 and -2.2). As such, the study fulfilled the validity criterion of OECD 117.

Final results:

Partition coefficient n-octanol / water (OECD 117) determined at pH 7 / 25 °C:

log Pow < 0.3 (below the lowest log Pow value of calibration substances (2-Butanone))

log Pow -2.2 (via extrapolation)

Description of key information

Partition coefficient n-octanol / water (OECD 117) determined at pH 7 / 25 °C:

log Pow < 0.3 (below the lowest log Pow value of calibration substances (2-Butanone))

log Pow -2.2 (via extrapolation)

Key value for chemical safety assessment

Log Kow (Log Pow):
0.3
at the temperature of:
25 °C

Additional information

In a reliable and valid study performed compliant with GLP the partition coefficient n-octanol / water (Pow) was determined for the submission substance according to OECD 117 (HPLC method). This method was found to be most applicable due to the UVCB character of the substance as well as the anticipated low Pow value as judged from solubility in n-octanol (<276 mg/L as determined from preliminary experiments within this study) and solubility in water (Siemens, 2019 - study number PS20180395-4).

From the study on water solubility (Siemens study number PS20180395-4 - see IUCLID section 4.8) it was known that the test item induces alkaline pH upon dissolution and is of higher solubility at alkaline pH compared to neutral pH. Consequently, partition coefficient n-octanol-water could be dependent on pH as well. To account for this, HPLC was performed with mixtures of methanol / potassium dihydrogen phosphate buffer adjusted to pH 7.

Two replicate HPLC runs were performed, resulting in extrapolated values differing no more than 0.1 log units (log Pow -2.1 and -2.2). As such, the study fulfilled the validity criterion of OECD 117.

Final results:

Partition coefficient n-octanol / water (OECD 117) determined at pH 7 / 25 °C:

log Pow < 0.3 (below the lowest log Pow value of calibration substances (2-Butanone))

log Pow -2.2 (via extrapolation)

Because extrapolation over such a wide range is associated with considerable uncertainty and no relational operator ("<") can be specified for the key value field, log Kow of 0.3 is given as the key value for chemical safety assessment.