Physical medicine and rehabilitation, Stroke, Physical therapy, Immunology and Rehabilitation are his primary areas of study. His work carried out in the field of Physical medicine and rehabilitation brings together such families of science as Robot, Neurorehabilitation and Stroke patient. Bruce T. Volpe conducted interdisciplinary study in his works that combined Stroke and Assisted therapy.
His Physical therapy research is multidisciplinary, incorporating elements of Upper limb, Central nervous system disease, Elbow and Motor skill. Bruce T. Volpe combines subjects such as Systemic lupus erythematosus, Receptor and Blood–brain barrier with his study of Immunology. His studies in Rehabilitation integrate themes in fields like Permanent disability and Acute stroke.
Bruce T. Volpe spends much of his time researching Physical medicine and rehabilitation, Stroke, Neuroscience, Immunology and Rehabilitation. His work in Physical medicine and rehabilitation addresses subjects such as Rehabilitation robotics, which are connected to disciplines such as Motor learning. In his research, Central nervous system disease is intimately related to Physical therapy, which falls under the overarching field of Stroke.
His studies deal with areas such as Receptor, Systemic lupus erythematosus and Blood–brain barrier as well as Immunology. His Rehabilitation research incorporates elements of Clinical trial and Elbow. His work in Hippocampus covers topics such as Ischemia which are related to areas like Hippocampal formation and Endocrinology.
Bruce T. Volpe mostly deals with Immunology, Physical medicine and rehabilitation, Stroke, Neuroscience and Antibody. The study incorporates disciplines such as Central nervous system, Blood–brain barrier, Receptor, Disease and Hippocampus in addition to Immunology. His Physical medicine and rehabilitation study incorporates themes from Rehabilitation, Robotics and Artificial intelligence.
His Rehabilitation course of study focuses on Transcranial magnetic stimulation and Rehabilitation hospital. His Stroke research incorporates themes from Physical therapy and Spasticity. The various areas that he examines in his Neuroscience study include NMDA receptor and Sepsis.
Bruce T. Volpe mainly focuses on Immunology, Hippocampus, Autoantibody, Receptor and Blood–brain barrier. His Immunology research includes themes of Brain damage, Central nervous system and Cell biology. His Hippocampus research is multidisciplinary, incorporating perspectives in Hypermetabolism and Pathophysiology.
His studies examine the connections between Autoantibody and genetics, as well as such issues in Disease, with regards to Fetus. His work deals with themes such as Systemic lupus erythematosus, Sialic acid and Neuroscience, which intersect with Receptor. His study in Internal medicine is interdisciplinary in nature, drawing from both Pregnancy and Endocrinology.
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H.I. Krebs;N. Hogan;M.L. Aisen;B.T. Volpe.
international conference of the ieee engineering in medicine and biology society (1998)
The gut microbiota influences blood-brain barrier permeability in mice
Viorica Braniste;Maha Al-Asmakh;Czeslawa Kowal;Farhana Anuar.
Science Translational Medicine (2014)
Robot-Assisted Therapy for Long-Term Upper-Limb Impairment after Stroke
Albert C. Lo;Peter D. Guarino;Lorie G. Richards;Jodie K. Haselkorn.
The New England Journal of Medicine (2010)
A subset of lupus anti-DNA antibodies cross-reacts with the NR2 glutamate receptor in systemic lupus erythematosus.
Lorraine A. DeGiorgio;Konstantin N. Konstantinov;Sunhee C. Lee;John A. Hardin.
Nature Medicine (2001)
Rehabilitation Robotics: Performance-Based Progressive Robot-Assisted Therapy
H. I. Krebs;J. J. Palazzolo;L. Dipietro;M. Ferraro.
Autonomous Robots (2003)
Movement smoothness changes during stroke recovery.
Brandon Rohrer;Susan Fasoli;Hermano Igo Krebs;Richard Hughes.
The Journal of Neuroscience (2002)
A novel approach to stroke rehabilitation Robot-aided sensorimotor stimulation
B.T. Volpe;H.I. Krebs;N. Hogan;L. Edelstein.
The Effect of Robot-Assisted Therapy and Rehabilitative Training on Motor Recovery Following Stroke
M L Aisen;H I Krebs;N Hogan;F McDowell.
JAMA Neurology (1997)
Robot-Aided Neurorehabilitation: A Robot for Wrist Rehabilitation
H.I. Krebs;B.T. Volpe;D. Williams;J. Celestino.
international conference of the ieee engineering in medicine and biology society (2007)
Increasing Productivity and Quality of Care : Robot-aided Neuro Rehabilitation
H I Krebs;B T Volpe;M L Aisen;N Hogan.
Journal of Rehabilitation Research and Development (2000)
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