His main research concerns Genetics, Retinal, Retina, Electroretinography and Erg. His Genetics study typically links adjacent topics like Macular degeneration. His work carried out in the field of Retinal brings together such families of science as Anatomy and Cell biology.
His research on Retina focuses in particular on Retinal degeneration. His Electroretinography research incorporates elements of Retinoschisis, Photopic vision and Pathology. His Erg study integrates concerns from other disciplines, such as Nuclear magnetic resonance and Outer nuclear layer.
His primary scientific interests are in Genetics, Ophthalmology, Retinal, Retina and Electroretinography. His study in Retinitis pigmentosa, Gene, Mutation, Missense mutation and Exon falls within the category of Genetics. His work on Macular degeneration, Visual acuity, Fluorescein angiography and Fundus as part of general Ophthalmology research is frequently linked to Ciliary neurotrophic factor, thereby connecting diverse disciplines of science.
His Retinal research integrates issues from Genetic enhancement and Pathology. His Retina research focuses on Cell biology and how it relates to Retinal Rod Photoreceptor Cells. His Electroretinography research focuses on Erg and how it connects with Internal medicine.
Paul A. Sieving mainly focuses on Retinal, Retina, Ophthalmology, Cell biology and Retinoschisis. Paul A. Sieving interconnects Optical coherence tomography and Genetic enhancement in the investigation of issues within Retinal. His Genetic enhancement study necessitates a more in-depth grasp of Genetics.
His Retina research is mostly focused on the topic Erg. Paul A. Sieving combines subjects such as Visual acuity and Anatomy with his study of Erg. The various areas that Paul A. Sieving examines in his Retinoschisis study include Electroretinography and Pathology.
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Nrl is required for rod photoreceptor development
Alan J. Mears;Mineo Kondo;Mineo Kondo;Prabodha K. Swain;Yuichiro Takada.
Nature Genetics (2001)
Ciliary neurotrophic factor (CNTF) for human retinal degeneration : Phase I trial of CNTF delivered by encapsulated cell intraocular implants
Paul A. Sieving;Rafael C. Caruso;Weng Tao;Hanna R. Coleman.
Proceedings of the National Academy of Sciences of the United States of America (2006)
Retinopathy induced in mice by targeted disruption of the rhodopsin gene
Humphries Mm;Rancourt D;Farrar Gj;Kenna P;Kenna P.
Nature Genetics (1997)
A 5-bp deletion in ELOVL4 is associated with two related forms of autosomal dominant macular dystrophy
Kang Zhang;Kang Zhang;Marina Kniazeva;Min Han;Wen Li.
Nature Genetics (2001)
Push-pull model of the primate photopic electroretinogram: a role for hyperpolarizing neurons in shaping the b-wave
Paul A. Sieving;Koichiro Murayama;Franklin Naarendorp.
Visual Neuroscience (1994)
Multiple Evanescent White Dot Syndrome: I. Clinical Findings
Lee Merrill Jampol;Paul A. Sieving;David Pugh;Gerald A. Fishman.
Archives of Ophthalmology (1984)
A proximal retinal component in the primate photopic ERG a-wave.
Ronald A. Bush;Paul A. Sieving.
Investigative Ophthalmology & Visual Science (1994)
PCDH15 is expressed in the neurosensory epithelium of the eye and ear and mutant alleles are responsible for both USH1F and DFNB23
Zubair M. Ahmed;Saima Riazuddin;Jamil Ahmad;Steve L. Bernstein.
Human Molecular Genetics (2003)
Mutations in the Cone-Rod Homeobox Gene Are Associated with the Cone-Rod Dystrophy Photoreceptor Degeneration
Prabodha K. Swain;Shiming Chen;Qing Liang Wang;Louisa M. Affatigato.
Genetics and phenotypes of RPE65 mutations in inherited retinal degeneration
D. A. Thompson;P. Gyurus;L. L. Fleischer;E. L. Bingham.
Investigative Ophthalmology & Visual Science (2000)
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