advertisement
Stamer WD 12
Showing records 1 to 12 | Display all abstracts from Stamer WD61431 Role of nitric oxide in murine conventional outflow physiology
Chang JY
American Journal of Physiology and Cell Physiology 2015; 309: C205-14
61301 A biomimetic Schlemm's canal inner wall: A model to study outflow physiology, glaucoma pathology and high-throughput drug screening
Dautriche CN; Szymanski D
Biomaterials 2015; 65: 86-92
61431 Role of nitric oxide in murine conventional outflow physiology
Stamer WD
American Journal of Physiology and Cell Physiology 2015; 309: C205-14
61301 A biomimetic Schlemm's canal inner wall: A model to study outflow physiology, glaucoma pathology and high-throughput drug screening
Kerr M
Biomaterials 2015; 65: 86-92
61431 Role of nitric oxide in murine conventional outflow physiology
Bertrand J
American Journal of Physiology and Cell Physiology 2015; 309: C205-14
61301 A biomimetic Schlemm's canal inner wall: A model to study outflow physiology, glaucoma pathology and high-throughput drug screening
Torrejon KY
Biomaterials 2015; 65: 86-92
61431 Role of nitric oxide in murine conventional outflow physiology
Read AT
American Journal of Physiology and Cell Physiology 2015; 309: C205-14
61301 A biomimetic Schlemm's canal inner wall: A model to study outflow physiology, glaucoma pathology and high-throughput drug screening
Bergkvist M
Biomaterials 2015; 65: 86-92
61431 Role of nitric oxide in murine conventional outflow physiology
Marando CM; Ethier CR
American Journal of Physiology and Cell Physiology 2015; 309: C205-14
61301 A biomimetic Schlemm's canal inner wall: A model to study outflow physiology, glaucoma pathology and high-throughput drug screening
Xie Y
Biomaterials 2015; 65: 86-92
61431 Role of nitric oxide in murine conventional outflow physiology
Overby DR
American Journal of Physiology and Cell Physiology 2015; 309: C205-14
61301 A biomimetic Schlemm's canal inner wall: A model to study outflow physiology, glaucoma pathology and high-throughput drug screening
Danias J; Stamer WD; Sharfstein ST
Biomaterials 2015; 65: 86-92
