The scientist’s investigation covers issues in Neuroscience, Magnetic resonance imaging, Spinal cord, Disease and Atrophy. His work on Myelin is typically connected to Allodynia as part of general Neuroscience study, connecting several disciplines of science. His Magnetic resonance imaging research integrates issues from Multivariate analysis and Neuroimaging.
His Spinal cord study combines topics in areas such as Olfactory bulb, Central nervous system, Neuroplasticity and Transplantation. His Disease research is multidisciplinary, incorporating perspectives in Clinical trial and Physical medicine and rehabilitation. Christian Spenger combines subjects such as Alzheimer's disease, Entorhinal cortex, Dementia and Brain mapping with his study of Atrophy.
Christian Spenger spends much of his time researching Neuroscience, Disease, Magnetic resonance imaging, Internal medicine and Pathology. His study in the field of Spinal cord, Central nervous system, Posterior parietal cortex and Somatosensory system is also linked to topics like Allodynia. His studies deal with areas such as Hindlimb, Anatomy, Sensory system and Cell biology as well as Spinal cord.
His work carried out in the field of Disease brings together such families of science as Multivariate analysis, Clinical trial and Physical medicine and rehabilitation. His work in Magnetic resonance imaging covers topics such as Neuroimaging which are related to areas like Cohort. The Internal medicine study which covers Endocrinology that intersects with Dorsal root ganglion.
Christian Spenger mostly deals with Disease, Alzheimer's disease, Magnetic resonance imaging, Cognitive impairment and Atrophy. His studies in Disease integrate themes in fields like Cognition, Neuroscience, Decision tree learning, Immunology and Cluster analysis. His work in Brain mapping and Entorhinal cortex is related to Neuroscience.
Christian Spenger is investigating Alzheimer's disease as part of his inquiry into Pathology and Internal medicine. His Magnetic resonance imaging research incorporates elements of Cerebral cortex, Multivariate analysis, Psychiatry, Neuroimaging and Control subjects. His Atrophy research is multidisciplinary, incorporating perspectives in Pathogenesis and Audiology.
Christian Spenger mainly focuses on Alzheimer's disease, Atrophy, Magnetic resonance imaging, Pathology and Disease. His research on Alzheimer's disease concerns the broader Internal medicine. The concepts of his Atrophy study are interwoven with issues in Entorhinal cortex and Neuroscience, Brain mapping.
His studies deal with areas such as Genetics and Neurodegeneration as well as Neuroscience. His Magnetic resonance imaging research incorporates themes from Dementia, Multivariate analysis, Neuroimaging and Audiology. His Disease research includes elements of Central nervous system disease and Physical medicine and rehabilitation.
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Allodynia limits the usefulness of intraspinal neural stem cell grafts; directed differentiation improves outcome
Christoph P Hofstetter;Niklas A V Holmström;Johan A Lilja;Petra Schweinhardt;Petra Schweinhardt.
Nature Neuroscience (2005)
Association of plasma clusterin concentration with severity, pathology, and progression in Alzheimer disease
Madhav Thambisetty;Andrew Simmons;Latha Velayudhan;Abdul Hye.
Archives of General Psychiatry (2010)
Automated hippocampal shape analysis predicts the onset of dementia in mild cognitive impairment
Sergi G. Costafreda;Ivo D. Dinov;Zhuowen Tu;Yonggang Shi.
A template for spatial normalisation of MR images of the rat brain.
Petra Schweinhardt;Peter Fransson;Lars Olson;Christian Spenger.
Journal of Neuroscience Methods (2003)
NOGO mRNA expression in adult and fetal human and rat nervous tissue and in weight drop injury.
A. Josephson;J. Widenfalk;H.W. Widmer;L. Olson.
Experimental Neurology (2001)
AddNeuroMed—The European Collaboration for the Discovery of Novel Biomarkers for Alzheimer's Disease
Simon Lovestone;Paul Francis;Iwona Kloszewska;Patrizia Mecocci.
Annals of the New York Academy of Sciences (2009)
Cortical sensory map rearrangement after spinal cord injury: fMRI responses linked to Nogo signalling.
Toshiki Endo;Christian Spenger;Teiji Tominaga;Stefan Brené.
Implants of polymer-encapsulated genetically modified cells releasing glial cell line-derived neurotrophic factor improve survival, growth, and function of fetal dopaminergic grafts.
J. Sautter;J.L. Tseng;D. Braguglia;P. Aebischer.
Experimental Neurology (1998)
Education increases reserve against Alzheimer’s disease—evidence from structural MRI analysis
Yawu Liu;Valtteri Julkunen;Teemu Paajanen;Eric Westman.
Multivariate analysis of MRI data for Alzheimer's disease, mild cognitive impairment and healthy controls.
Eric Westman;Andrew Simmons;Yi Zhang;J-Sebastian Muehlboeck.
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