Results 251 to 260 of about 492,705 (397)

Clinical Studies on Central Spinal Cord Injury (involved only in the upper limbs)

, 1976
K. Saiki, S. Hattori, Masanobu Oyama, Hiroshi Hayakawa, N. Moriwaki, S. Nitta, Takashi Miyamoto   +6 more
openalex   +2 more sources

ABC of spinal cord injury. Transfer of care from hospital to community. [PDF]

, 1986
D Kinnersly, D Grundy, John A. Russell
openalex   +1 more source

Anxiety and depression in children and adolescents with spinal cord injuries

Developmental Medicine & Child Neurology, 2009
C. Anderson, E. Kelly, S. Klaas, H. Russell, Erica Z Daharsh, Lawrence C. Vogel   +5 more
semanticscholar   +1 more source

Early synapsids neurosensory diversity revealed by CT and synchrotron scanning

The Anatomical Record, EarlyView.
Abstract Non‐mammaliaform synapsids (NMS) represent the closest relatives of today's mammals among the early amniotes. Exploring their brain and nervous system is key to understanding how mammals evolved. Here, using CT and Synchrotron scanning, we document for the first time three extreme cases of neurosensory and behavioral adaptations that probe ...
J. Benoit, R. Araujo, E. S. Lund, A. Bolton, T. Lafferty, Z. Macungo, V. Fernandez   +6 more
wiley   +1 more source

Development and Evaluation of a 3D Motion Capture Model for Upper Extremity Kinematics During Wheelchair Maneuvering in Individuals with Spinal Cord Injuries: A Pilot Study. [PDF]

Bioengineering (Basel)
Bunketorp Käll L, Harðarson GR, Tullin E, Lamberg AS, Tranberg R, Wangdell J.   +5 more
europepmc   +1 more source

Initial hospital care of spinal cord injury patients [PDF]

, 1987
P Dollfus, R Gschaedler
openalex   +1 more source

Bioimaging of sense organs and the central nervous system in extant fishes and reptiles in situ: A review

The Anatomical Record, EarlyView.
Bioimaging of the sense organs and brain of fishes and reptiles. Left panel: 3D reconstruction of the head and brain of the deep‐sea viperfish Chauliodus sloani following diceCT. Right panel: A 3D reconstruction of a 70‐day‐old embryo head of the bearded dragon Pogona vitticeps following diceCT, showing the position of the segmented brain within the ...
Shaun P. Collin, Kara E. Yopak, Jenna M. Crowe‐Riddell, Victoria Camilieri‐Asch, Caroline C. Kerr, Hope Robins, Myoung Hoon Ha, Annalise Ceddia, Travis L. Dutka, Lucille Chapuis   +9 more
wiley   +1 more source

Imaging Demyelinated Axons After Spinal Cord Injuries with PET Tracer [¹⁸F]3F4AP. [PDF]

J Nucl Med
Ramos-Torres KM, Conti S, Zhou YP, Tiss A, Caravagna C, Takahashi K, He M, Wilks MQ, Eckl S, Sun Y, Biundo J, Gong K, He Z, Linnman C, Brugarolas P.   +14 more
europepmc   +1 more source

Restoration of walking in patients with incomplete spinal cord injuries by use of surface electrical stimulation—preliminary results [PDF]

, 1985
Tadej Bajd, B.J. Andrews, A. Kralj, J. Katakis   +3 more
openalex   +1 more source

The effectiveness of immersive virtual reality as a student‐centered tool for learning neuroanatomy: A single‐blind randomized controlled trial with physiotherapy students

Anatomical Sciences Education, EarlyView.
Abstract Neuroanatomy is a crucial component of the physiotherapy curriculum, but its complexity can lead to “neurophobia” among students. Immersive virtual reality (IVR) offers an innovative alternative to traditional methods by providing interactive and realistic three‐dimensional images of neurological structures.
Paloma García‐Robles, Esteban Obrero‐Gaitán, Irene Cortés‐Pérez, María del Rocío Ibancos‐Losada, Ángeles Díaz‐Fernández, María Catalina Osuna‐Pérez   +5 more
wiley   +1 more source