2023 - Research.com Neuroscience in France Leader Award
Marc Peschanski spends much of his time researching Striatum, Neuroscience, Huntington's disease, Cell biology and Pathology. He interconnects Neuroprotection, Central nervous system disease, Degenerative disease and Ciliary neurotrophic factor in the investigation of issues within Striatum. His Neuroscience research includes themes of Noxious stimulus, Diffuse noxious inhibitory control and Anatomy.
His research on Huntington's disease concerns the broader Disease. His Cell biology research incorporates elements of lac operon, Cell type, Cellular differentiation and Central nervous system. The study incorporates disciplines such as Axon, Stem cell and Astrocyte, Glial scar in addition to Pathology.
His primary scientific interests are in Neuroscience, Cell biology, Induced pluripotent stem cell, Transplantation and Embryonic stem cell. His study in Neuroscience is interdisciplinary in nature, drawing from both Huntington's disease, Disease and Anatomy. As a part of the same scientific family, Marc Peschanski mostly works in the field of Anatomy, focusing on Spinal cord and, on occasion, Lesion.
Marc Peschanski usually deals with Induced pluripotent stem cell and limits it to topics linked to Stem cell and Embryoid body, Bioinformatics and Cell culture. The Transplantation study combines topics in areas such as Central nervous system disease, Central nervous system, Neuron and Pathology. His studies in Embryonic stem cell integrate themes in fields like Immunology, Cellular differentiation and Somatic cell.
His scientific interests lie mostly in Induced pluripotent stem cell, Embryonic stem cell, Cell biology, Neuroscience and Stem cell. His Induced pluripotent stem cell study integrates concerns from other disciplines, such as Cell therapy, Cellular differentiation, Transplantation and Neural stem cell. His work deals with themes such as Neurogenesis, Signal transduction, Anatomy and Somatic cell, which intersect with Embryonic stem cell.
Marc Peschanski has included themes like Molecular biology, Membrane, microRNA and Tissue engineered in his Cell biology study. His Neuroscience research is multidisciplinary, incorporating perspectives in Wnt signaling pathway, Progenitor cell, Biotechnology, Autism and Disease. His Stem cell research incorporates themes from Skin grafting, Transcriptome, Human skin and Embryoid body.
Marc Peschanski mainly focuses on Induced pluripotent stem cell, Embryonic stem cell, Genetics, Cell biology and Stem cell. His Induced pluripotent stem cell research includes themes of Cellular differentiation, Immunology, Human leukocyte antigen, Genotype and Neuroscience. His research integrates issues of Wnt signaling pathway, Progenitor cell, Drug repositioning, Haploinsufficiency and Autism spectrum disorder in his study of Neuroscience.
His work deals with themes such as Stem cell marker, Repressor and Transplantation, which intersect with Embryonic stem cell. Lamin, LMNA, Gene isoform, Cell culture and Progerin is closely connected to microRNA in his research, which is encompassed under the umbrella topic of Cell biology. In his research on the topic of Neural stem cell, Huntingtin Protein, Gene expression profiling, Mutation, Mutant and Huntington's disease is strongly related with Regulation of gene expression.
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Transfer of a foreign gene into the brain using adenovirus vectors.
Saïd Akli;Catherine Caillaud;Emmanuelle Vigne;Leslie D. Stratford-Perricaudet.
Nature Genetics (1993)
Motor and cognitive improvements in patients with Huntington's disease after neural transplantation.
Anne-Catherine Bachoud-Lévi;Philippe Rémy;Jean-Paul Nǵuyen;Pierre Brugières.
The Lancet (2000)
Neural transplantation for the treatment of Parkinson's disease.
Anders Björklund;Stephen S.B. Dunnett;Patrik Brundin;Jon A.J. Stoessl.
Lancet Neurology (2003)
Effect of fetal neural transplants in patients with Huntington's disease 6 years after surgery: a long-term follow-up study
Anne-Catherine Bachoud-Lévi;Véronique Gaura;Pierre Brugières;Jean-Pascal Lefaucheur.
Lancet Neurology (2006)
Protective effect of encapsulated cells producing neurotrophic factor CNTF in a monkey model of Huntington's disease.
Dwaine F. Emerich;Shelley R. Winn;Philippe M. Hantraye;Marc Peschanski.
Chronic 3-nitropropionic acid treatment in baboons replicates the cognitive and motor deficits of Huntington's disease.
S Palfi;R J Ferrante;E Brouillet;M F Beal.
The Journal of Neuroscience (1996)
Bilateral motor improvement and alteration of L-dopa effect in two patients with Parkinson's disease following intrastriatal transplantation of foetal ventral mesencephalon
M. Peschanski;G. Defer;J. P. N'Guyen;F. Ricolfi.
Striatal progenitors derived from human ES cells mature into DARPP32 neurons in vitro and in quinolinic acid-lesioned rats.
Laetitia Aubry;Aurore Bugi;Nathalie Lefort.
Proceedings of the National Academy of Sciences of the United States of America (2008)
Combinatorial analysis of developmental cues efficiently converts human pluripotent stem cells into multiple neuronal subtypes
Yves Maury;Julien Côme;Rebecca A Piskorowski;Nouzha Salah-Mohellibi.
Nature Biotechnology (2015)
Human embryonic stem-cell derivatives for full reconstruction of the pluristratified epidermis: a preclinical study
Hind Guenou;Xavier Nissan;Fernando Larcher;Jessica Feteira.
The Lancet (2009)
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