Miljöpåverkan
Miljöinformationen för ticagrelor är framtagen av företaget AstraZeneca för Brilique, POSSIA
Miljörisk:
Användning av ticagrelor har bedömts medföra försumbar risk för miljöpåverkan.
Nedbrytning:
Ticagrelor bryts ned i miljön.
Bioackumulering:
Ticagrelor har låg potential att bioackumuleras.
Läs mer
Detaljerad miljöinformation
PEC/PNEC = 0.090 μg/L / 53 μg/L = 0.00170
PEC/PNEC ≤ 0.1
Environmental Risk Classification
Predicted Environmental Concentration ( PEC)
The PEC is based on the following calculation:
PEC (µg/L) = (A*109*(100-R))/(365*P*V*D*100)
PEC (µg/L) = 1.37*10-6*A*(100-R)
PEC = 1.37 * 10-6 *588.20*(100-0)
= 0.090 µg/L
Where;
A (kg/year) = total sold amount API in Sweden year 2020, data from IQVIA
= 588.20 kg
R (%) = removal rate (due to loss by adsorption to sludge particles, by volatilization, hydrolysis or biodegradation)
= 0%
P = number of inhabitants in Sweden
=10*106
V (L/day) = volume of wastewater per capita and day
= 200 L/day (Ref 1)
D = factor for dilution of waste water by surface water flow
= 10 (Ref 1)
Note: The factor 109 converts the quantity used from kg to μg
Metabolism and excretion
Ticagrelor is extensively metabolised in humans with approximately 27% of the dose
excreted as the parent compound.
Ecotoxicity Data
Study Type |
Method |
Result |
Reference |
Activated sludge, respiration inhibition test |
OECD 209 |
3 h NOEC = 100 mg/L 3 h EC50 >100 mg/L |
2 |
Toxicity to the freshwater green alga, Selenastrum capricornutum |
OECD 201 |
72 h NOECgrowth rate = 0.82 mg/L 72 h LOECgrowth rate = 1.9 mg/L 72 h EC50 growth rate = >5.2 mg/L 72 h NOECbiomass = 0.82 mg/L 72 h LOECbiomass = 1.9 mg/L 72 h EC50 biomass = >5.2 mg/L |
3 |
Acute toxicity to Daphnia magna |
OECD202 |
48 h EC50 (immobility) = 1.4 mg/L |
4 |
Acute toxicity to rainbow trout, Oncorhynchus mykiss |
OECD203 |
96h LC50 (mortality) >2.7 mg/L |
5 |
Chronic toxicity to Daphnia magna |
OECD 211 |
21 d NOEC (reproduction, survival length) = 0.53 mg/L 21 d LOEC (reproduction, survival length) = 1.7 mg/L |
6 |
Fish early-life stage toxicity with fathead minnow, Pimephales promelas (note 2) |
OECD 210 |
32 d NOEC (hatch, survival, length and weight) = 1.8 mg/L 32 d LOEC (hatch, survival, length and weight) >1.8 mg/L |
7 |
Toxicity to sediment dwelling midge, Chironomus riparius |
OECD 218 |
28 d NOEC (development rate, total emergence, sex ratio) = 30 mg/kg dry weight 28 d LOEC (development rate, total emergence, sex ratio) > 30 mg/kg dry weight |
8 |
Predicted No Effect Concentration (PNEC)
Long-term tests have been undertaken for species from three trophic levels. Therefore, the PNEC is based on the chronic toxicity to the giant water flea (Daphnia magna), 0.53 mg/L, and an assessment factor of 10 is applied, in accordance with ECHA guidance.
PNEC = 530/10 µg/L = 53 µg/L
Environmental Risk Classification (PEC/PNEC ratio)
PEC/PNEC = 0.090 μg/L / 53 μg/L = 0.00170
PEC/PNEC = ≤ 0.1
The PEC/PNEC ratio decides the wording of the aquatic environmental risk phrase, and the risk phrase for PEC/PNEC = ≤ 0.1 reads as follows; “Use of ticagrelor has been considered to result in insignificant environmental risk” has been assigned.
In Swedish: “Användning av Tikagrelor har bedömts medföra försumbar risk för miljöpåverkan” under the heading Miljörisk.
Environmental Fate Data
Study Type |
Method |
Result |
Reference |
Aerobic biodegradation |
OECD 301F |
<5% degradation after 28 days Not readily biodegradable |
9 |
Adsorption/desorption to sludge |
OPPTS 835.1110 |
Kd(ads) = 1571 Koc = 4246 |
10 |
Aerobic transformation in aquatic sediment systems |
OECD 308 |
DT50 total system = 11.3 days with <15% of applied radioactivity remaining as parent compound (2.3% in water + 8.0% in sediment) compound at the end of the study
DT50 total system = 19.6 days with <15% of applied radioactivity remaining as parent compound (0% in water + 2.8% in sediment) at the end of the study Evidence suggest that the substance is degraded and will not be persistent in the aquatic environment |
11 |
Results from the aerobic biodegradation test (Ref. 9), showed that ticagrelor is not readily biodegradable.
Evidence from the OECD 308 study (Ref. 11) indicates that ticagrelor is likely to dissipate from the aqueous phase and partition into the sediment phase.
High organic matter (HOM) sediment system:
The average mass balances upon application (day zero) showed 22% and 29% of the applied radioactivity remained unaccounted for in the high and low organic matter vessels, respectively. Recoveries in all vessels sacrificed after day 0 were showed mass balances ranging 81.8 to 105.8% of applied radioactivity (AR) throughout the 99-day study.
The radiolabelled ticagrelor dissipated rapidly from the water phase, with a half-life of 2.2 days. The proportion of ticagrelor remaining in the water phase at the end of the study was 6.1% AR in the high organic matter system while no remaining ticagrelor was observed in the water phase of the low organic matter system at the end of the study.
Sediments were extracted with ethanol initially and additional solvent extractions performed to address the high proportion of unextracted residue (observed particularly in the high organic matter sediment). The additional solvent extractions removed varying amounts of additional radioactivity; from the high organic matter sediment, THF, DMSO and SolueneTM removed 17, 18 and 19% AR, respectively and from low organic matter sediment methanol, acetone, THF, DMSO and SolueneTM all removed a further 2 to 8% AR. Nonetheless, at the end of the study an average of 51.7% AR and 31.75% AR were bound to the high and low organic matter sediments, respectively.
The proportion of radiolabel extracted from the sediment and identified as ticagrelor decreased from a maximum of 32.9% at day 14 to 8.0% AR by day 99 in the high organic matter sediment and from a maximum of 47.69% at day 14 to 2.8% AR by day 99 in the low organic matter sediment.
A significant proportion of ticagrelor was mineralised in both systems in this study, with 14% AR and 29% AR having been evolved as carbon dioxide in the high and low organic matter systems at the end of the study.
The calculated total system half-lives were 11.3 days and 19.6 days for the high and low
organic matter systems.
Based on the data above, ticagrelor is not predicted to be readily biodegraded during wastewater treatment. However, there is evidence that metformin hydrochloride will degrade within the aquatic environment.
Based on the above information, the phrase “Ticagrelor is degraded in the environment.” has been assigned.
In Swedish: “Tikagrelor bryts ned i miljön.”under the heading “Nedbrytning”.
Physical Chemistry Data for Ticagrelor
Study Type |
Method |
Result |
Reference |
Preliminary hydrolysis |
OECD 111 |
18% after 5 days at 50°C (pH 5) <10% after 5 days at 50°C (pH 7) <10% after 5 days at 50°C (pH9) Hydrolysis half-life at 25°C ≥ 1 year |
12 |
Water solubility |
OECD 105 |
5.3 mg/L at pH 5 3.5 mg/L at pH 7 11 mg/L at pH 9 |
13 |
Octanol/water partition coefficient |
OECD 107 |
log Dow > 4.02 at pH 5, 7 and 9 |
14 |
Ticagrelor is not ionisable, is water soluble and hydrolytically stable. It is not readily biodegradable during sewage treatment and is not predicted to significantly partition onto sludge solids. In the natural environment, ticagrelor is expected to partition into aquatic sediments and undergo significant degradation. The risk of bioaccumulation of ticagrelor in aquatic organisms is low.
Therefore, the phrase “Ticagrelor is degraded in the environment” has been assigned.
In Swedish: “Tikagrelor bryts ned i miljön” under the heading ‘Nedbrytning’.
Bioaccumulation Data
Study Type |
Method |
Result |
Reference |
Preliminary study: bioconcentration potential in rainbow trout (O. mykiss ) |
OECD305 |
BCF at 1.0 μg/L = 6.36 L/Kg (based on total radioactivity) Not bioaccumulative |
15 |
Ticagrelor is not ionisable, however, the octanol-water distribution coefficient, LogDow, was determined across an environmentally relevant pH-range (Ref. 14).
Bioconcentration of ticagrelor in Oncorhynchus mykiss was assessed, and the whole body BCF at 1.0 µg/L of ticagrelor was 6.36 after 28 days uptake. Since the BCF is < 500, ticagrelor has a low potential for bioaccumulation. Therefore, the phrase ‘Ticagrelor has low potential for bioaccumulation’ has been assigned.
In Swedish: ”Tikagrelor har låg potential att bioackumuleras,” under the heading ”Bioackumulering”.
References
-
[ECHA] European Chemicals Agency. 2008. Guidance on Information Requirements and Chemical Safety Assessment.
-
AZD1640: Effect on the respiration rate of activated sludge.
Brixham Environmental Laboratory, UK. Report No BL8213. December 2005.
-
AZD6140: Toxicity to the green alga Selenastrum capricornutum. Brixham Environmental Laboratory, UK. Report No BL8237. December 2006.
-
AZD1640: Acute Toxicity to Daphnia Magna. Brixham Environmental Laboratory, UK. Report No BLS3310. October 2005.
-
AZD1640: Acute Toxicity to rainbow trout (Oncorhynchus mykiss).
Brixham Environmental Laboratory, UK. Report No BLS3359. October 2005. -
AZD1640: Chronic Toxicity to Daphnia Magna. Brixham Environmental Laboratory, UK. Report No BL8604. September 2008.
-
AZD1640: Determination of effects on the early-life stage of the fathead minnow (Pimephales promelas). Brixham Environmental Laboratory, UK. Report No BL8362. July 2007
-
[14C]AZD1640: Effects in sediment on emergence of the midge, Chironomus riparius. Brixham Environmental Laboratory, UK. Report No BL8659. February 2009.
-
AZD1640: Determination of 28 day ready biodegradability. Brixham Environmental Laboratory, UK. Report No BL8262. March 2006.
-
AZD1640: Adsorption and desorption of sewage sludge. Brixham Environmental Laboratory, UK. Report No BL8344. December 2006.
-
AZD1640: Aerobic transformation in aquatic sediment. Brixham Environmental Laboratory, UK. Report No BL8610. December 2008.
-
AZD1640: Hydrolysis as a function of pH – preliminary study results summary. Brixham Environmental Laboratory, UK. Report No BLS3343. July 2006.
-
AZD1640: Water solubility. Brixham Environmental Laboratory, UK. Report No BL8220. December 2005.
-
ADZ1640: Determintation of n-octanol-water partition coefficient. Brixham Environmental Laboratory, UK. Report No BL8280. January 2007.
-
[14C]AZD1640: Determination of the accumulation of [14C]AZD1640 in rainbow trout (Oncorhynchus mykiss). Brixham Environmental Laboratory, UK. Report No BL8680. September 2008.