Miljöpåverkan
Miljöinformationen för testosteron är framtagen av företaget Bayer för Androgel®
Miljörisk:
Risk för miljöpåverkan av testosteron kan inte uteslutas då det inte finns tillräckliga ekotoxikologiska data.
Nedbrytning:
Testosteron bryts ned långsamt i miljön.
Bioackumulering:
Testosteron har hög potential att bioackumuleras.
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Detaljerad miljöinformation
Testosterone, testosterone undecanoate
Testosterone enanthate is an ester of testosterone and a long fatty acid. The biological active moiety of this compound is testosterone. Therefore, this classification is based on testosterone.
Hazardous environmental properties: “Risk of environmental impact of testosterone cannot be excluded, since there is not sufficient ecotoxicity data”.
Degradation: “Testosterone" is slowly degrading in the environment.
Bioaccumulation: “Testosterone” has a high potential for bioaccumulation.
Detailed background information
Environmental Risk Classification
Predicted Environmental Concentration (PEC)
In order to normalize testosterone undecanoate on testosterone units, the sales volume was adjusted to the molecular weight of testosterone:
Testosterone |
288.4 g/Mol |
-- |
Testosterone undecanoate |
456.7 g/Mol |
0.63 |
PEC is calculated according to the following formula:
PEC (μg/L) = (A*109*(100-R))/(365*P*V*D*100) = 1.5*10-6*A*(100-R)
Where:
A = 150.84 kg testosterone equivalents as the total of 115.78 kg testosterone and 35.06 kg testosterone undecanoate (total sales data in Sweden in 2019 from IQVIA database).
R = 0 % removal rate (due to loss by adsorption to sludge particles, by volatilization, hydrolysis or biodegradation) = 0 if no data is available.
P = number of inhabitants in Sweden = 9 *106
V (L/day) = volume of wastewater per capita and day = 200 (ECHA default (1))
D = factor for dilution of wastewater by surface water flow = 10 (ECHA default (1))
Based on this formula and data the PEC was calculated as 0.023 μg/L.
Predicted No Effect Concentration (PNEC)
Ecotoxicological studies
Algae (Desmodesmus subspicatus):
NOEC 72 h (growth inhibition, growth rate) ≥ 1 mg/L (saturated solution) (OECD TG 201). (2)
Crustacean:
Acute toxicity (waterflea Daphnia magna):
EC50 48 h (immobilization) > 1.8 mg/L (saturated solution) (OECD TG 202). (3)
There is no data on chronic toxicity to crustaceans or fish.
Environmental risk classification (PEC/PNEC ratio)
Since no data on fish or any chronic aquatic hazard data are available, the risk of environmental impact of testosterone cannot be excluded, since there is not sufficient ecotoxicity data available.
Degradation
Biotic degradation
Ready degradability: not ready biodegradable
Testosterone enantate was studied for aerobic biodegradability in water in a manometric respiration test according to guideline OECD TG 301F (4). It was degraded to 60 % after 28 days. The degradation, however, proceeded slowly and did not fulfill the ready degradability criteria of OECD TG 301.
Abiotic degradation
Hydrolysis:
Testosterone enantate has a hydrolytical half-life of 218-374 days at pH 9 and 25°C and is stable at pH values ≤ 7. (5)
Justification of chosen degradation phrase:
Since the biodegradation rate was 60% in a ready biodegradation test, but the stringent criteria for ready biodegradability was not met, and the substance is hydrolytically stable, the phrase “Testosterone is slowly degraded in the environment” is justified.
Bioaccumulation
Partitioning coefficient:
Log KOW of 7 at pH 7 and 25°C for testosterone enantate (Shake flask method, OECD TG 117). (6)
Justification of chosen bioaccumulation phrase:
As the log KOW is 7, the phrase “testosterone has a high potential for bioaccumulation” is justified.
Excretion (metabolism)
Testosterone is only to a small extent excreted unchanged (7). Conjugates such as glucuronides and sulphates as well as androsterone and etiocholanolone were identified (8).
PBT/vPvB assessment
A conclusion on PBT properties is not possible as data on chronic toxicity is missing. The substance is unlikely to be vPvB as a high percentage of biodegradation (failing the criteria for ready biodegradation) was observed.
References
(1) ECHA, European Chemicals Agency. 2008 Guidance on information requirements and chemical safety assessment.
(2) Growth inhibition test of testosterone enantate (ZK5137) on the green algae Desmodesmus subspicatus. Experimental Toxicology, Schering AG, study no. TXST20020330, report no. A18033 (2006)
(3) Acute immobilization of testosterone enantate (ZK5137) with Daphnia magna. Experimental Toxicology, Schering AG, study no. TXST20020331, report no. A18429 (2005)
(4) Study on the biodegradability of testosterone enantate (ZK5137) in the manometric respiration test. Experimental Toxicology, Schering AG, study no. TX20020321, report no. A14328 (2002)
(5) Testosterone enantate/ ZK00005137/Report on physicochemical properties/Estimation of hydrolytic stability on basis of hydrolytic behavior of structurally similar compounds. Analytical Development Physical Chemistry, Schering AG, study no. 1274, report no. A 09814 (1999)
(6) Bayer AG Safety data sheet according to Regulation (EC) No. 1907/2006, No. 122000004039 Testosterone Enanthate Version 10.0 Revision Date 01.02.2016
(7) Melmed S, Polonsky KS, Larsen PR, Kronenberg HM. Williams Textbook of Endocrinology. Elsevier Health Sciences. pp. 711 (2015)
(8) Cumming DC, Wall SR . Non-sex hormone-binding globulin-bound testosterone as a marker for hyperandrogenism. The Journal of Clinical Endocrinology and Metabolism. 61 (5): 873–6 (1985)