Quantifying the metabolic contribution to photoreceptor death in retinitis pigmentosa via a mathematical model
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Publication:727118
DOI10.1016/j.jtbi.2016.08.001zbMath1352.92078OpenAlexW2508895024WikidataQ39494352 ScholiaQ39494352MaRDI QIDQ727118
Erika T. Camacho, Stephen Wirkus, Claudio Punzo
Publication date: 6 December 2016
Published in: Journal of Theoretical Biology (Search for Journal in Brave)
Full work available at URL: http://europepmc.org/articles/pmc5217295
Related Items (6)
Mathematical modeling of retinal degeneration: aerobic glycolysis in a single cone ⋮ Spatially-dependent model for rods and cones in the retina ⋮ Optimal control with RdCVFL for degenerating photoreceptors ⋮ Mathematical models of retinitis pigmentosa: the oxygen toxicity hypothesis ⋮ The role of RdCVFL in a mathematical model of photoreceptor interactions ⋮ Mathematical models of retinitis pigmentosa: the trophic factor hypothesis
Cites Work
- Photoreceptor death: spatiotemporal patterns arising from one-hit death kinetics and a diffusible cell death factor
- Optimal control in the treatment of retinitis pigmentosa
- Dynamics of two van der Pol oscillators coupled via a bath
- A mathematical model for photoreceptor interactions
- A methodology for performing global uncertainty and sensitivity analysis in systems biology
- Tracing the progression of retinitis pigmentosa via photoreceptor interactions
- An Inverse Problem Statistical Methodology Summary
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