Results 61 to 70 of about 54,339 (259)
New opportunities for bioscaffold‐enabled spinal cord injury repair
BMEMat, EarlyView.Schematic illustration of bioscaffolds for spinal cord injury repair. We summarize the effects of bioscaffold properties on SCI repair, highlight different types of bioscaffolds, various fabrication strategies, and in vivo transformations for the clinical development of SCI‐repairing bioscaffolds.
Xiaoqing Qi +11 more
wiley +1 more source
Neuronal differentiation and tissue engineering strategies for central neurous system injury repair
BMEMat, EarlyView.This review outlines tissue engineering advances for central nervous system (CNS) injury treatment, focusing on three core components: seed cells, inductive factors, and scaffold materials, with evaluation of their respective strengths and limitations. Tissue engineering for CNS injury repair.
Zhuqing Xia +9 more
wiley +1 more source
Neoplasms involving the spinal cord in Zimbabweans: an analysis of 262 cases
, 1994 A review of 262 histologically verified spinal cord tumors in Black Zimbabweans who were operated on in Harare Central and Parirenyatwa Hospitals, Harare, Zimbabwe during the period 1st January 1972 to 31st December 1991 is presented.
Garrido, P.I.
core
Merlin Regulation of Mouse Spinal Cord Neural Precursor Cell Function
, 2014 Cancers of the spinal cord are uncommon neoplasms, the majority of which are glial cell tumors (ependymoma and astrocytoma) thought to arise from multipotent neuroglial progenitor (stem) cells (NPCs) within the spinal cord.
Garcia, Cynthia
core +1 more source
Biomaterial design strategies for enhancing mitochondrial transplantation therapy
BMEMat, EarlyView.Biomaterials to facilitate mitochondrial transplantation therapy: biomaterials as barriers to protect mitochondria from pathophysiological microenvironments, like osmotic stress caused by the excessive concentration of calcium ion, reactive oxygen species, and advanced glycation end products; biomaterials integrating with biochemical cues to improve ...
Shaoyang Kang +12 more
wiley +1 more source
MR diffusion tensor imaging and fiber tracking in 5 spinal cord astrocytomas.
, 2006 International audienceSpinal cord astrocytomas are rare neoplasms that can result in alteration of the spinal cord structural integrity, which can be assessed by using diffusion tensor imaging methods.
Fillard, P. +5 more
core
Marine silicon for biomedical sustainability
BMEMat, EarlyView.Schematic illustrating marine silicon for biomedical engineering. Abstract Despite momentous divergence from oceanic origin, human beings and marine organisms exhibit elemental homology through silicon utilization. Notably, silicon serves as a critical constituent in multiple biomedical processes.
Yahui Han +3 more
wiley +1 more source
BMEMat, EarlyView.The effects of NETs on regeneration of various diabetic tissues, and strategies targeting NETs for diabetes tissue regeneration. In the diabetic environment, NETs undergo complex metabolic and immune reprogramming, leading to dynamic changes in antibacterial and proinflammatory functions, and affecting regeneration of multiple systemic tissues.
Xinyi Jiang +6 more
wiley +1 more source
Imaging of tumors of the spinal canal and cord.
, 1988 Magnetic resonance is the best noninvasive modality for imaging the size, shape, position, and presence or absence of compression of the spinal cord. MR is less optimal than CT for the assessment of intrinsic bone abnormalities.
Zimmerman, R A, Bilaniuk, L T
core
Neurovascular coupling in bone regeneration: Mechanisms, advanced biomaterials and challenges
BMEMat, EarlyView.This figure illustrates various material strategies for neurovascularized bone regeneration, including electroactive scaffolds, ion‐loaded materials, drug delivery systems, surface modifications, cells/cell products, growth factors, and peptides. These approaches aim to synergistically promote the regeneration of neural, vascular, and bone tissues ...
Yixin Ma +8 more
wiley +1 more source