advertisement
Experimental Eye Research 63
Showing records 1 to 25 | Display all abstracts in Experimental Eye Research76583 Stimulation of the adenosine A3 receptor, not the A1 or A2 receptors, promote neurite outgrowth of retinal ganglion cells
Nakashima KI
Experimental Eye Research 2018; 170: 160-168
76454 Genomic loci modulating retinal ganglion cell death following elevated IOP in the mouse
Struebing FL
Experimental Eye Research 2018; 169: 61-67
76673 Role of SARM1 and DR6 in retinal ganglion cell axonal and somal degeneration following axonal injury
Fernandes KA
Experimental Eye Research 2018; 171: 54-61
76675 Bilateral early activation of retinal microglial cells in a mouse model of unilateral laser-induced experimental ocular hypertension
de Hoz R
Experimental Eye Research 2018; 171: 12-29
76872 The effects of age on mitochondria, axonal transport, and axonal degeneration after chronic IOP elevation using a murine ocular explant model
Kimball EC
Experimental Eye Research 2018; 172: 78-85
76833 Comparative analysis of retinal ganglion cell damage in three glaucomatous rat models
Huang W
Experimental Eye Research 2018; 172: 112-122
76521 Effect of brimonidine, an α2 adrenergic agonist, on human meibomian gland epithelial cells
Han X
Experimental Eye Research 2018; 170: 20-28
76838 Excess homocysteine upregulates the NRF2-antioxidant pathway in retinal Müller glial cells
Navneet S
Experimental Eye Research 2018; 0:
76521 Effect of brimonidine, an α2 adrenergic agonist, on human meibomian gland epithelial cells
Liu Y
Experimental Eye Research 2018; 170: 20-28
76673 Role of SARM1 and DR6 in retinal ganglion cell axonal and somal degeneration following axonal injury
Mitchell KL
Experimental Eye Research 2018; 171: 54-61
76838 Excess homocysteine upregulates the NRF2-antioxidant pathway in retinal Müller glial cells
Cui X
Experimental Eye Research 2018; 0:
76583 Stimulation of the adenosine A3 receptor, not the A1 or A2 receptors, promote neurite outgrowth of retinal ganglion cells
Iwao K
Experimental Eye Research 2018; 170: 160-168
76833 Comparative analysis of retinal ganglion cell damage in three glaucomatous rat models
Hu F
Experimental Eye Research 2018; 172: 112-122
76675 Bilateral early activation of retinal microglial cells in a mouse model of unilateral laser-induced experimental ocular hypertension
Ramírez AI
Experimental Eye Research 2018; 171: 12-29
76454 Genomic loci modulating retinal ganglion cell death following elevated IOP in the mouse
King R
Experimental Eye Research 2018; 169: 61-67
76872 The effects of age on mitochondria, axonal transport, and axonal degeneration after chronic IOP elevation using a murine ocular explant model
Jefferys JL
Experimental Eye Research 2018; 172: 78-85
76454 Genomic loci modulating retinal ganglion cell death following elevated IOP in the mouse
Li Y
Experimental Eye Research 2018; 169: 61-67
76673 Role of SARM1 and DR6 in retinal ganglion cell axonal and somal degeneration following axonal injury
Patel A
Experimental Eye Research 2018; 171: 54-61
76675 Bilateral early activation of retinal microglial cells in a mouse model of unilateral laser-induced experimental ocular hypertension
González-Martín R
Experimental Eye Research 2018; 171: 12-29
76521 Effect of brimonidine, an α2 adrenergic agonist, on human meibomian gland epithelial cells
Kam WR
Experimental Eye Research 2018; 170: 20-28
76583 Stimulation of the adenosine A3 receptor, not the A1 or A2 receptors, promote neurite outgrowth of retinal ganglion cells
Inoue T
Experimental Eye Research 2018; 170: 160-168
76872 The effects of age on mitochondria, axonal transport, and axonal degeneration after chronic IOP elevation using a murine ocular explant model
Pease ME
Experimental Eye Research 2018; 172: 78-85
76838 Excess homocysteine upregulates the NRF2-antioxidant pathway in retinal Müller glial cells
Zhao J
Experimental Eye Research 2018; 0:
76833 Comparative analysis of retinal ganglion cell damage in three glaucomatous rat models
Wang M
Experimental Eye Research 2018; 172: 112-122
76838 Excess homocysteine upregulates the NRF2-antioxidant pathway in retinal Müller glial cells
Wang J
Experimental Eye Research 2018; 0:
