Results 261 to 270 of about 176,030 (314)
Muscle Regeneration Can Be Rescued in a Telomerase Deficient Zebrafish Model of Ageing by MMP Inhibition. [PDF]
Yuan Y, Dyer C, Knight RD.
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Blood Flow Restriction Therapy Stimulates Intercellular Mitochondria Transfer and Improves Muscle Regeneration and Shoulder Function in a Murine Rotator Cuff Injury Model. [PDF]
Milan N +14 more
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Dual-targeted hybrid nanovesicles coordinated bone-muscle regeneration via regulating the DUSP4/p38 MAPK pathway to reverse osteosarcopenia. [PDF]
Che B +11 more
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Muscle regeneration in holothurians
Microscopy Research and Technique, 2001AbstractThe muscle system of holothurians includes visceral (coelomic epithelium) and somatic (longitudinal muscle bands, retractors of aquapharyngeal complex) musculature. Visceral musculature regeneration is achieved by the transformation of myoepithelial cells via their dedifferentiation, migration, proliferation, and redifferentiation.
I Y, Dolmatov, T T, Ginanova
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Skeletal Muscle Regeneration in Zebrafish
2023Muscle regeneration models have revealed mechanisms of inflammation, wound clearance, and stem cell-directed repair of damage, thereby informing therapy. Whereas studies of muscle repair are most advanced in rodents, the zebrafish is emerging as an additional model organism with genetic and optical advantages.
Pipalia, TG +4 more
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Prostaglandins in muscle regeneration
Journal of Muscle Research and Cell Motility, 2008Muscle regeneration is a tightly orchestrated process where activated satellite cells (myoblasts) respond to external stimuli in order to proliferate, differentiate and fuse to damaged myofibers. Simultaneously, the injured tissue undergoes an inflammatory response and communication between leukocytes and the spectrum of differentiated and ...
Pedro, Veliça, Chris M, Bunce
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Myogenesis and muscle regeneration
Histochemistry and Cell Biology, 2012Skeletal muscle has received much attention with regard to developmental origin, control of cell differentiation and regeneration. In this article, early landmarks in skeletal muscle research are reviewed and recent findings on myogenesis are addressed with particular focus on novel regulatory molecules including miRNAs, as well as on the topographical
Faisal, Yusuf, Beate, Brand-Saberi
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Regeneration of skeletal muscle
Cell and Tissue Research, 2011Skeletal muscle has a robust capacity for regeneration following injury. However, few if any effective therapeutic options for volumetric muscle loss are available. Autologous muscle grafts or muscle transposition represent possible salvage procedures for the restoration of mass and function but these approaches have limited success and are plagued by ...
Neill J, Turner, Stephen F, Badylak
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Nanomaterial for Skeletal Muscle Regeneration
Tissue Engineering and Regenerative Medicine, 2022Skeletal muscle has an innate regenerative capacity to restore their structure and function following acute damages and injuries. However, in congenital muscular dystrophies, large volumetric muscle loss, cachexia, or aging, the declined regenerative capacity of skeletal muscle results in muscle wasting and functional impairment.
Gun-Jae Jeong +4 more
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Gene Transfer in Regenerating Muscle
Human Gene Therapy, 1994We have compared the efficiency of direct gene transfer in normal and regenerating rat skeletal muscle. Muscle necrosis and regeneration was induced by intramuscular injection of bupivacaine in the soleus muscle of adult rats. Plasmids containing beta-galactosidase (beta-gal) or chloramphenicol acetyltransferase (CAT) genes driven by viral promoters ...
Vitadello M +4 more
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