Linda D. Hazlett, Ph. D
Cell biology: morphological, immunological, and molecular analysis of corneal inflammatory
mediators, with emphasis on infectious disease.
Gary Abrams, MD
Mihir Bagchi, Ph.D
Cell biology: morphology and biochemistry of ocular lens, in normal and diseased state.
Richard S. Berk, Ph.D
Pathogenesis of Pseudomonas infections in normal and immunologically debilitated animals;
corneal infections-bacterial toxins; sulfur metabolism, bacterial nutrition.
Bruce A. Berkowitz, Ph.D.
Neuroscience and cell biology: triggering factors and modulators of retinal angiogenesis;
development and application of magnetic resonance imaging methods to measure retinal blood flow and oxygenation;
blood-retinal barrier disruption in human and experimental subjects.
William J. Crossland, Ph.D.
Developmental neurobiology: the formation and maintenance of developing neural connections
in the avian and mammalian nervous systems.
Alexander Dizhoor, Ph.D.
Signal transduction and adaptation in photoreceptors, regulation of cyclic GMP synthesis,
retinal calcium sensor proteins.
Robert Frank, MD
Dennis J. Goebel, Ph.D.
Neuroscience and molecular neurobiology:
neurochemical and receptor interactions in the mammalian retina.
Raymond Iezzi, MD
Mark E. Ireland, Ph.D.
Cell biology: cytoskeletal alteration during lens differe ntiation; receptor-mediated
control of lens biochemistry.
David Jacobs, MD
Harry Maisel
Embryology: morphological, biochemical, and immunological analysis of lens cell
differentiation, with emphasis on membrane and cytoskeleton; congenital malformations in man.
Paul Montgomery, Ph. D.
Immunochemical and cellular aspects of immunity at mucosal sufaces; regulation of secretory IgA
antibody induction; mechanisms governing lymphocyte traffic; ocular immunobiology.
Nancy O'Sullivan, Ph.D.
Immunobiology of the ocular and oral compartments. These include lymphocyte subpopulations
and their interactions with the epithelia at these sites.
Zhuo-Hua Pan, Ph.D.
Neuroscience: role of membrane ion channels and intracellular calcium dynamics in synaptic
transmission in the retina and throughout the central nervous system.
Roberta G. Pourcho, Ph.D.
Neuroscience: cytochemical and biochemical studies of retinal neurotransmitters; fine
structure analysis of synaptic circuitry.
James Puklin, MD
Hitoshi Shichi, MD
Drug metabolism in the eye.
Robert P. Skoff, Ph.D
Developmental neuroscience: development of glial cells in central nervous system, using in
situ and in vitro methodologies; myelin-deficient mutants as models for the study of multiple sclerosis.
Gabriel Sosne, MD
Corneal wound healing, Thymosin beta 4 and wound healing, inflammation, angiogenesis.
Jayne Weiss, MD
Judy Whittum-Hudson, Ph.D
Immunopathogenesis of infectious diseases (chlamydia, herpes simplex virus): immunology of an
antichlamydial vaccine; ocular and mucosal immunology.
Akio Yamazaki, MD
| Linda D. Hazlett, Ph. D | Cell biology: morphological, immunological, and molecular analysis of corneal inflammatory mediators, with emphasis on infectious disease. |
| Gary Abrams, MD | |
| Mihir Bagchi, Ph.D | Cell biology: morphology and biochemistry of ocular lens, in normal and diseased state. |
| Richard S. Berk, Ph.D | Pathogenesis of Pseudomonas infections in normal and immunologically debilitated animals; corneal infections-bacterial toxins; sulfur metabolism, bacterial nutrition. |
| Bruce A. Berkowitz, Ph.D. | Neuroscience and cell biology: triggering factors and modulators of retinal angiogenesis; development and application of magnetic resonance imaging methods to measure retinal blood flow and oxygenation; blood-retinal barrier disruption in human and experimental subjects. |
| William J. Crossland, Ph.D. | Developmental neurobiology: the formation and maintenance of developing neural connections in the avian and mammalian nervous systems. |
| Alexander Dizhoor, Ph.D. | Signal transduction and adaptation in photoreceptors, regulation of cyclic GMP synthesis, retinal calcium sensor proteins. |
| Robert Frank, MD | |
| Dennis J. Goebel, Ph.D. | Neuroscience and molecular neurobiology: neurochemical and receptor interactions in the mammalian retina. |
| Raymond Iezzi, MD | |
| Mark E. Ireland, Ph.D. | Cell biology: cytoskeletal alteration during lens differe ntiation; receptor-mediated control of lens biochemistry. |
| David Jacobs, MD | |
| Harry Maisel | Embryology: morphological, biochemical, and immunological analysis of lens cell differentiation, with emphasis on membrane and cytoskeleton; congenital malformations in man. |
| Paul Montgomery, Ph. D. | Immunochemical and cellular aspects of immunity at mucosal sufaces; regulation of secretory IgA antibody induction; mechanisms governing lymphocyte traffic; ocular immunobiology. |
| Nancy O'Sullivan, Ph.D. | Immunobiology of the ocular and oral compartments. These include lymphocyte subpopulations and their interactions with the epithelia at these sites. |
| Zhuo-Hua Pan, Ph.D. | Neuroscience: role of membrane ion channels and intracellular calcium dynamics in synaptic transmission in the retina and throughout the central nervous system. |
| Roberta G. Pourcho, Ph.D. | Neuroscience: cytochemical and biochemical studies of retinal neurotransmitters; fine structure analysis of synaptic circuitry. |
| James Puklin, MD | |
| Hitoshi Shichi, MD | Drug metabolism in the eye. |
| Robert P. Skoff, Ph.D | Developmental neuroscience: development of glial cells in central nervous system, using in situ and in vitro methodologies; myelin-deficient mutants as models for the study of multiple sclerosis. |
| Gabriel Sosne, MD | Corneal wound healing, Thymosin beta 4 and wound healing, inflammation, angiogenesis. |
| Jayne Weiss, MD | |
| Judy Whittum-Hudson, Ph.D | Immunopathogenesis of infectious diseases (chlamydia, herpes simplex virus): immunology of an antichlamydial vaccine; ocular and mucosal immunology. |
| Akio Yamazaki, MD |