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Parkinson ’ s Patients Get More Mobility And Better Balance With Whole Body Vibration Therapy
I’ve always believed that with a little coaxing, your body can self-heal – and the same is true for your brain. Conventional doctors will never tell you this. For them, being a physician means managing symptoms with Big Pharma meds. But for years, I’ve been helping patients recover using dietary changes, lasers, stem cells, and hyperbaric oxygen (HBOT). These therapies help your body heal itself. No Big Pharma drug can do this. But I recently began researching another natural therapy – called Whole Body Vibration, or WBV – that can help Parkinson’s patients regain their mobility and balance. WBV isn’t new. It...
Source: Al Sears, MD Natural Remedies - August 28, 2023 Category: Complementary Medicine Authors: Jacob Tags: Anti-Aging Health Natural Cures Source Type: news

Magnetic Nanobubble Mechanical Stress Induces the Piezo1 ‐Ca2+‐BMP2/Smad Pathway to Modulate Neural Stem Cell Fate and MRI/Ultrasound Dual Imaging Surveillance for Ischemic Stroke
Magnetic nanobubbles (MNBs) assembled from magnetic nanoparticles are fabricated. When interacting with neural stem cells (NSCs), these MNB nanostructures can contract and expand with volumetric oscillation, leading to a change in intramembrane mechanical properties. Therefore, MNBs can serve as acoustic sensors to transduce Piezo1-Ca2+- triggered BMP2/Smad signals regulating NSC development and can be tracked using magnetic resonance and ultrasound dual imaging. AbstractNeural stem cells (NSCs) are used to treat various nervous system diseases because of their self-renewal ability and multidirectional differentiation pote...
Source: Small - June 9, 2022 Category: Nanotechnology Authors: Jing Li, Yao Zhang, Zhichao Lou, Mingxi Li, Lin Cui, Zhenrong Yang, Lijuan Zhang, Yu Zhang, Ning Gu, Fang Yang Tags: Research Article Source Type: research

A Review of Mathematical Models for Muscular Dystrophy: A Systems Biology Approach
Discussion With new developments in computational power and data availability, a growing amount of research is using a systems biology approach to understand pathogenesis and progression of disease. Effective and integrated in vitro and in silico models could inform biological phenomena, even without the need of a living subject. For instance, over the last few decades, collagen hydrogel with muscle derived cells (CHMDCs) have promised to revolutionize in vitro experiments and tissue engineering. For CHMDCs to reach the envisioned use, verification by use of mathematical simulations are needed. Recently while examining sha...
Source: PLOS Currents Muscular Dystrophy - February 16, 2018 Category: Neurology Authors: Matthew Houston Source Type: research