His scientific interests lie mostly in Anatomy, Retina, Retinal ganglion, Tectum and Optic nerve. His study in Anatomy is interdisciplinary in nature, drawing from both Retinal, Nucleus and Thalamus. His Retina study frequently draws connections between adjacent fields such as Intraocular pressure.
His Retinal ganglion study integrates concerns from other disciplines, such as Cell biology, Programmed cell death and Ganglion. To a larger extent, Sansar C. Sharma studies Neuroscience with the aim of understanding Tectum. His work investigates the relationship between Optic nerve and topics such as Axon that intersect with problems in Ultrastructure and Neuropil.
Sansar C. Sharma focuses on Anatomy, Retina, Neuroscience, Retinal ganglion and Tectum. The concepts of his Anatomy study are interwoven with issues in Retinal, Nucleus and Central nervous system. His Retina research is multidisciplinary, incorporating perspectives in Programmed cell death and Ganglion.
His work in the fields of Neuroscience, such as Neuron, Midbrain and Reinnervation, intersects with other areas such as Fasciculus. Sansar C. Sharma has researched Retinal ganglion in several fields, including Intraocular pressure, Nerve fiber layer, Receptor, Cell biology and Brain-derived neurotrophic factor. His Tectum study deals with Electrophysiology intersecting with Visual system.
Sansar C. Sharma mainly focuses on Ophthalmology, Glaucoma, Cell biology, Retinal ganglion and Reinnervation. His research investigates the connection between Glaucoma and topics such as Intraocular pressure that intersect with problems in Optic nerve, Ultrastructure and Pathology. His research in Nerve injury intersects with topics in Neurotrophic factors, Immunostaining and Anatomy.
His research integrates issues of Glial cell line-derived neurotrophic factor and Blockade in his study of Anatomy. RNA-Binding Protein With Multiple Splicing is a subfield of Retina that Sansar C. Sharma explores. His Retina research includes themes of Occlusion, Ocular hypertension and Cauterization.
His primary scientific interests are in Neuroscience, Laryngeal Muscle, Glaucoma, Reinnervation and Nerve injury. His work on Retina, Inner nuclear layer and Neuron as part of general Neuroscience study is frequently linked to Ion homeostasis, bridging the gap between disciplines. His Laryngeal Muscle study is associated with Anatomy.
The study incorporates disciplines such as Endoplasmic reticulum, Intraocular pressure and Pathology in addition to Glaucoma. His research in Intraocular pressure intersects with topics in Ultrastructure, Optic disk, Connective tissue and Histology. His studies deal with areas such as Endocrinology, Nerve growth factor, Axon guidance, Internal medicine and Larynx as well as Reinnervation.
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Programmed cell death of retinal ganglion cells during experimental glaucoma
E. Garcia-Valenzuela;S. Shareef;J. Walsh;S.C. Sharma.
Experimental Eye Research (1995)
Glia–neuron interactions in the mammalian retina
Elena Vecino;F.David Rodriguez;Noelia Ruzafa;Xandra Pereiro.
Progress in Retinal and Eye Research (2016)
Apoptosis in adult retinal ganglion cells after axotomy.
Garcia-Valenzuela E;Gorczyca W;Darzynkiewicz Z;Sharma Sc.
Journal of Neurobiology (1994)
Chronic ocular hypertension following episcleral venous occlusion in rats
S.R. Shareef;E. Garcia-Valenzuela;A. Salierno;J. Walsh.
Experimental Eye Research (1995)
Axial differences in the reinnervation of the goldfish optic tectum by regenerating optic nerve fibres
R M Gaze;S C Sharma.
Experimental Brain Research (1970)
Patterns of retinal ganglion cell survival after brain-derived neurotrophic factor administration in hypertensive eyes of rats
Mei-Lan Ko;Mei-Lan Ko;Dan-Ning Hu;Dan-Ning Hu;Robert Ritch;Robert Ritch;S.C Sharma.
Neuroscience Letters (2001)
Caspase inhibitors block the retinal ganglion cell death following optic nerve transection.
P. Chaudhary;F. Ahmed;P. Quebada;S.C. Sharma.
Molecular Brain Research (1999)
Organization of extrinsic tectal connections in goldfish (Carassius auratus)
B. G. Grover;S. C. Sharma.
The Journal of Comparative Neurology (1981)
The Combined Effect of Brain-Derived Neurotrophic Factor and a Free Radical Scavenger in Experimental Glaucoma
Mei–Lan Ko;Mei–Lan Ko;Dan–Ning Hu;Dan–Ning Hu;Robert Ritch;Robert Ritch;Sansar C. Sharma.
Investigative Ophthalmology & Visual Science (2000)
The retinal projections in the goldfish: An experimental study
Brain Research (1972)
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