Search Results - "Redenti, S."

Self‐degradable curcumin polymer with anti‐cancer activity by O'Connor, N. A., Einbond, L. S., Redenti, S., Sauane, M., Jitianu, A.

“…ABSTRACT Curcumin is a widely researched and utilized natural product used for a variety of ailments, including as a gastrointestinal aide and an anticancer…”
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Traditional preparations of kava (Piper methysticum) inhibit the growth of human colon cancer cells in vitro by Einbond, L.S., Negrin, A., Kulakowski, D.M., Wu, H.-A., Antonetti, V., Jalees, F., Law, W., Roller, M., Redenti, S., Kennelly, E.J., Balick, M.J.

“…Background: Epidemiological studies indicate there is low incidence of colon cancer in the South Pacific islands, including Fiji, West Samoa, and Vanuatu…”
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Zinc Chelation Enhances the Sensitivity of the ERG b-Wave in Dark-Adapted Skate Retina by Redenti, S., Chappell, R. L.

“…Redenti et al discusses the studies of the effect of histidine on the retina of the skate, Raja erinacea, indicating that application of this zinc chelator…”
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Endogenous Zinc as a Neuromodulator in Vertebrate Retina: Evidence from the Retinal Slice by Chappell, Richard L., Redenti, Stephen

“…By acting on the receptor terminal to reduce calcium entry, zinc could serve as a feedback signal to modulate transmitter release. If this is the case, one…”
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Engineering retinal progenitor cell and scrollable poly(glycerol-sebacate) composites for expansion and subretinal transplantation by Redenti, Stephen, Neeley, William L, Rompani, Santiago, Saigal, Sunita, Yang, Jing, Klassen, Henry, Langer, Robert, Young, Michael J

“…Abstract Retinal degenerations cause permanent visual loss and affect millions world-wide. Presently, a novel treatment highlights the potential of using…”
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A microfabricated scaffold for retinal progenitor cell grafting by Neeley, William L, Redenti, Stephen, Klassen, Henry, Tao, Sarah, Desai, Tejal, Young, Michael J, Langer, Robert

“…Abstract Diseases that cause photoreceptor cell degeneration afflict millions of people, yet no restorative treatment exists for these blinding disorders…”
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Survival, migration and differentiation of retinal progenitor cells transplanted on micro-machined poly(methyl methacrylate) scaffolds to the subretinal space by Tao, Sarah, Young, Conan, Redenti, Stephen, Zhang, Yiqin, Klassen, Henry, Desai, Tejal, Young, Michael J

“…Stem and progenitor cells can be combined with polymer substrates to generate tissue equivalents in culture. The replacement of retinal tissue lost to disease…”
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The use of progenitor cell/biodegradable MMP2–PLGA polymer constructs to enhance cellular integration and retinal repopulation by Tucker, Budd A, Redenti, Stephen M, Jiang, Caihui, Swift, Jesse S, Klassen, Henry J, Smith, Meghan E, Wnek, Gary E, Young, Michael J

“…Abstract The inability of the adult mammalian retina to regenerate can be partly attributed to the expression of injury-induced inhibitory extracellular matrix…”
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Localization of zinc transporter-3 (ZnT-3) in mouse retina by Redenti, Stephen, Chappell, Richard L.

“…Studies of the central nervous system have localized the zinc-transporter-3 (ZnT-3) protein to synaptic vesicles containing glutamate and zinc. We have…”
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Neuroimaging of zinc released by depolarization of rat retinal cells by Redenti, Stephen, Chappell, Richard L.

“…Zinc is associated with glutamatergic pathways in brain and retina, yet its role in neuromodulation remains unknown. High concentrations of reactive zinc in…”
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Zinc Chelation Enhances the Zebrafish Retinal ERG b-Wave by Redenti, Stephen, Chappell, Richard L.

“…Studies in the all-rod retina of the skate support the notion of a role for endogenous zinc as a neuromodulator in the outer retina of vertebrates. Redenti and…”
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Zinc Transport in Vertebrate Retina by Redenti, Stephen, Chappell, Richard L.

“…Zinc transporter-protein-3 (ZnT-3) has six transmembrane domains with a histidine-rich cytoplasmic loop responsible for mediating zinc transport. Studies of…”
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Membrane Properties of Two Subtypes of Skate Bipolar Cells by Qian, Haohua, Chappell, Richard L., Redenti, Stephen, Ripps, Harris

“…Bipolar cells in the vertebrate retina are second order neurons that transmit visual information from rod and cone photoreceptors to the amacrine and ganglion…”
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Potassium Currents Distinguish the Two Subtypes of Morphologically Distinct Skate Bipolar Cells by Qian, Haohua, Chappell, Richard L., Redenti, Stephen, Ripps, Harris

“…Bipolar cells in the vertebrate retina are second-order neurons that convey visual information from photoreceptors to ganglion cells, the neurons that relay…”
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