A new study published in the Journal of Clinical Investigation suggests that skeletal muscle does more than power movement. Using three complementary mouse models, researchers found that two ...
A research group led by Dr. Naoya Kase and Prof. Megumu Saito have successfully established a model to evaluate skeletal muscle regeneration efficiency and determine how macrophages contribute to the ...
Abnormally high blood sugar (glucose) levels can result in Type 2 diabetes when things go awry with the body's skeletal muscle, which plays a key role in regulating glucose. Scientists are using in ...
Because RyR1 is also expressed in neurons, immune cells, and vascular smooth muscle, the E3896A model offers a unique tool to examine CICR's broader physiological roles. By combining gene engineering, ...
Scientists are using in vitro skeletal muscle engineering to gain a better understanding of the complex genetic and environmental factors underlying diabetes, putting lab-grown, healthy skeletal ...
Skeletal muscles—responsible for movement, joint stabilization, and postural support—are highly metabolically active and heavily reliant on oxygen ...
Can you explain what Myomaker Bio's lab-grown human muscle platform is and the challenge it aims to address in drug development? Myomaker Bio develops three-dimensional human-derived muscle organs and ...
Yuva Biosciences' proprietary MitoNova™ AI platform identified small-molecule candidates that were biologically validated in ...
The brain doesn’t work alone Alzheimer’s research usually focuses on the brain itself. This means studying amyloid plaques, ...
Abnormally high blood sugar (glucose) levels can result in type 2 diabetes when things go awry with the body's skeletal muscle, which plays a key role in regulating glucose. Scientists are using in ...
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