# | Aladdin ID | Assay Type | Description | Organism | Compounds | Reference | BAO Format | Source | |
---|---|---|---|---|---|---|---|---|---|
1. | ALA2038097 | B | Displacement of [3H]PGE2 from mouse EP1 receptor expressed in CHO cells after 20 mins by scintillation counting | Mus musculus | 29 | cell-based format | Scientific Literature | ||
2. | ALA2038098 | B | Displacement of [3H]PGE2 from mouse EP2 receptor expressed in CHO cells after 60 mins by scintillation counting | Mus musculus | 29 | cell-based format | Scientific Literature | ||
3. | ALA2038099 | B | Displacement of [3H]PGE2 from mouse EP3 receptor expressed in CHO cells after 60 mins by scintillation counting | Mus musculus | 29 | cell-based format | Scientific Literature | ||
4. | ALA2038100 | B | Displacement of [3H]PGE2 from mouse EP4 receptor expressed in CHO cells after 60 mins by scintillation counting | Mus musculus | 29 | cell-based format | Scientific Literature | ||
5. | ALA2038101 | F | Agonist activity at rat EP2 receptor expressed in CHO cells assessed as cAMP production after 10 mins by radioimmunoassay | Rattus norvegicus | 17 | cell-based format | Scientific Literature | ||
6. | ALA2038102 | F | Agonist activity at rat EP4 receptor expressed in CHO cells assessed as cAMP production after 10 mins by radioimmunoassay | Rattus norvegicus | 29 | cell-based format | Scientific Literature | ||
7. | ALA2038103 | F | Induction of bone fracture healing in CrJ:CD(SD)IGS rat assessed as breaking strength of fractured fibulae at 1 ug/kg administered tropically as PLGA microsphere formulation measured after 17 days relative to control | Rattus norvegicus | 4 | organism-based format | Scientific Literature | ||
8. | ALA2038104 | F | Induction of bone fracture healing in CrJ:CD(SD)IGS rat assessed as breaking strength of fractured fibulae at 3 ug/kg administered tropically as PLGA microsphere formulation measured after 17 days relative to control | Rattus norvegicus | 4 | organism-based format | Scientific Literature | ||
9. | ALA2038105 | F | Induction of bone fracture healing in CrJ:CD(SD)IGS rat assessed as breaking strength of fractured fibulae at 10 ug/kg administered tropically as PLGA microsphere formulation measured after 17 days relative to control | Rattus norvegicus | 4 | organism-based format | Scientific Literature | ||
10. | ALA2038106 | F | Induction of bone fracture healing in CrJ:CD(SD)IGS rat assessed as breaking strength of fractured fibulae at 30 ug/kg administered tropically as PLGA microsphere formulation measured after 17 days relative to control | Rattus norvegicus | 4 | organism-based format | Scientific Literature | ||
11. | ALA2038257 | F | Induction of bone fracture healing in CrJ:CD(SD)IGS rat assessed as breaking strength of fractured fibulae at 100 ug/kg administered tropically as PLGA microsphere formulation measured after 17 days relative to control | Rattus norvegicus | 4 | organism-based format | Scientific Literature | ||
12. | ALA2038258 | F | Induction of bone fracture healing in CrJ:CD(SD)IGS rat assessed as breaking strength of fractured fibulae at 300 ug/kg administered tropically as PLGA microsphere formulation measured after 17 days relative to control | Rattus norvegicus | 4 | organism-based format | Scientific Literature | ||
13. | ALA2038265 | F | Induction of bone fracture healing in CrJ:CD(SD)IGS rat assessed as breaking strength of fractured fibulae administered tropically as PLGA microsphere formulation measured after 17 days relative to control | Rattus norvegicus | 4 | organism-based format | Scientific Literature | ||
14. | ALA2038266 | P | Drug release from PLGA microsphere assessed as compound remaining in microsphere at 100 ug/ml after 7 days | 3 | small-molecule physicochemical format | Scientific Literature | |||
15. | ALA2038267 | P | Drug release from PLGA microsphere assessed as compound remaining in microsphere at 100 ug/ml after 14 days | 3 | small-molecule physicochemical format | Scientific Literature | |||
16. | ALA2038268 | P | Drug release from PLGA microsphere assessed as compound remaining in microsphere at 100 ug/ml after 21 days | 3 | small-molecule physicochemical format | Scientific Literature | |||
17. | ALA2038269 | P | Drug release from PLGA microsphere assessed as compound remaining in microsphere at 100 ug/ml after 28 days | 3 | small-molecule physicochemical format | Scientific Literature |