Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019829 (Hodgkin's disease)
 30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ocular manifestations can be the presenting symptom of hematological diseases. Ocular changes can be found in up to 90% of the patients depending on the underlying disease. Most patients with ocular manifestations however are asymptomatic. Hematological disorders can manifest in all structures and adnexa of the eye. The most common manifestations are conjunctival pallor and hemorrhages, intraretinal hemorrhages and cotton wool spots. Retinal infiltrates, manifestations in the lids, anterior segment, optic nerve, orbit and adnexa are rare. Different ocular manifestations in anemia, leukemia, malignant Non-Hodgkin lymphoma, Hodgkin's disease, chronic myeloproliferative diseases, plasmocytoma, myelodysplastic syndromes, coagulopathies, and reticulo-histiocytic diseases are described. Not only the underlying disease but also chemotherapy, bone marrow transplantation can lead to ocular complications.
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PMID:[Ocular changes in primary hematologic diseases]. 971 61

Retinal implants restore limited visual perception to blind implantees by electrical stimulation of surviving neurons. We consider the efficacy of two electrical stimulation parameters, frequency of stimulation and interphase gap between cathodic and anodic phases, on the required charge to reach a desired neuronal spike rate. Using a Hodgkin-Huxley model of a neuron, we find the most efficient means of achieving a desired spike rate for neurons by electrical stimulation is to use a stimulation frequency identical to the desired spike rate, as well as a long interphase gap.
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PMID:Minimisation of required charge for desired neuronal spike rate. 2336 58

Retinal ganglion cells (RGCs) display differences in their morphology and intrinsic electrophysiology. The goal of this study is to characterize the ionic currents that explain the behavior of ON and OFF RGCs and to explore if all morphological types of RGCs exhibit the phenomena described in electrophysiological data. We extend our previous single compartment cell models of ON and OFF RGCs to more biophysically realistic multicompartment cell models and investigate the effect of cell morphology on intrinsic electrophysiological properties. The membrane dynamics are described using the Hodgkin - Huxley type formalism. A subset of published patch-clamp data from isolated intact mouse retina is used to constrain the model and another subset is used to validate the model. Two hundred morphologically distinct ON and OFF RGCs are simulated with various densities of ionic currents in different morphological neuron compartments. Our model predicts that the differences between ON and OFF cells are explained by the presence of the low voltage activated calcium current in OFF cells and absence of such in ON cells. Our study shows through simulation that particular morphological types of RGCs are capable of exhibiting the full range of phenomena described in recent experiments. Comparisons of outputs from different cells indicate that the RGC morphologies that best describe recent experimental results are ones that have a larger ratio of soma to total surface area.
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PMID:The effect of morphology upon electrophysiological responses of retinal ganglion cells: simulation results. 2383 60