Physiological Dynamics in Demyelinating Diseases: Unraveling Complex Relationships through Computer Modeling
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TLDR
This work will discuss how computational modeling applied to questions at different biological levels can help link together disparate observations and decipher complex mechanisms whose solutions are not amenable to simple reductionism.Abstract:
Despite intense research, few treatments are available for most neurological disorders. Demyelinating diseases are no exception. This is perhaps not surprising considering the multifactorial nature of these diseases, which involve complex interactions between immune system cells, glia and neurons. In the case of multiple sclerosis, for example, there is no unanimity among researchers about the cause or even which system or cell type could be ground zero. This situation precludes the development and strategic application of mechanism-based therapies. We will discuss how computational modeling applied to questions at different biological levels can help link together disparate observations and decipher complex mechanisms whose solutions are not amenable to simple reductionism. By making testable predictions and revealing critical gaps in existing knowledge, such models can help direct research and will provide a rigorous framework in which to integrate new data as they are collected. Nowadays, there is no shortage of data; the challenge is to make sense of it all. In that respect, computational modeling is an invaluable tool that could, ultimately, transform how we understand, diagnose, and treat demyelinating diseases.read more
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Towards in vivo g-ratio mapping using MRI: unifying myelin and diffusion imaging
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References
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Journal ArticleDOI
Positive symptoms in multiple sclerosis: their treatment with sodium channel blockers, lidocaine and mexiletine
Masaki Sakurai,Ichiro Kanazawa +1 more
TL;DR: Lidocaine almost completely abolished the paroxysmal manifestation of painful tonic seizures, neuralgic attacks, paroxYSmal itching, and Lhermitte's sign and similar effects were obtained with orally-administered mexiletine.
Journal ArticleDOI
Paroxysmal symptoms as the first manifestations of multiple sclerosis.
J A Twomey,M L Espir +1 more
TL;DR: Attention has been focused on paroxysmal symptoms of brain stem and spinal cord origin of the following types: parxysmal dysarthria and ataxia, diplopia, tonic seizures, paroxYSmal akinesia, par oxysmal sensory disturbances and pains, which have been reported as the first symptoms of MS with remissions ranging from less than one to 21 years before other manifestations of MS have developed.
Journal ArticleDOI
Three-dimensional structure of myelin basic protein. II. Molecular modeling and considerations of predicted structures in multiple sclerosis.
TL;DR: A computational model of myelin basic protein has been constructed based on the premise of a phylogenetically conserved β-sheet backbone and on electron microscopical three-dimensional reconstructions that suggests post-translational modifications that lead to a reduced surface charge could result first in a weakened attachment to the myelin membrane rather than in a gross conformational change of the protein itself.
Journal ArticleDOI
A distributed-parameter model of the myelinated nerve fiber.
J.A. Halter,John W. Clark +1 more
TL;DR: A new model for the characterization of electrical activity in the nodal, paranodal and internodal regions of isolated amphibian and mammalian myelinated nerve fibers is presented and the ability of this model to produce detailed representations of the transaxonal, transmyelin and transfiber potentials and currents is demonstrated.