The benefits of bio-mechanical stimulation massage are many. In addition to reducing muscle tension and reducing nerve excitability, it also increases neuronal excitation, reduces inflammation and improves blood flow. It helps reduce stress and depression. These are the top biomechanical stimulation benefits. In addition to relieving chronic pain, biomechanical stimulation improves the blood circulation, lessens inflammation, and improves muscles aches and pains. It can also help prevent painful conditions like osteoporosis and rheumatoidarthritis, tendonitis and rheumatoid arthritis. The blood flow is increased Biomechanical stimulation massage provides the obvious benefit of improving blood flow. But, this effect might not be as obvious as you might think. Although it affects circulation, massage has several other biological effects. Massage can raise the temperature of the skin and cause hyperaemia superficially. The capillaries of the skin respond to the force of the massage and dilate. Massage may cause blood to flow away from the muscles beneath to the skin , causing blood to flow to the skin instead of the normal circulation. Reduces muscle tension Biomechanical stimulation massage therapy offers many benefits that can help ease muscle tension. It helps relieve muscles spasms, improve lymphatic drainage and blood circulation and reduces stress levels. It helps improve posture, reduces muscle soreness, and helps combat the effects of ageing. Bio-mechanical stimulation massage can restore hormone balance. The body naturally produces hormones and regulates a variety of bodily functions, such as inflammation and pain. The body's natural hormones can be affected by environmental conditions such as pollution, stress and even. Bio-mechanical stimulation massage is not only helpful in recovering from injuries but also helps to ease muscle spasms as well as improves blood flow. Increases neurological excitability The effects of massage utilizing bio-mechanical stimulation (BMS) on neuromuscular excitability are largely unknown, it is believed to decrease muscle tension, enhance well-being and improve athletic performance. Massage reduces neuromuscular excitability through a process known as post-activation potentiation. Massage may decrease the neuromuscular excitability of muscles by stimulating their mechanoreceptors and relaxing muscles. Massage can also reduce tension or muscle spasms following exercise. More research is required to establish the connection between neuromuscular excitability and massage. Reduces muscle pain A massage that is biomechanical reduces muscular pain, eases tension and aids in body healing. This kind of therapy is typically part of a comprehensive therapy program. It helps help relieve pain and avoid muscle strain. Bio-mechanical stimulation massages are beneficial for those suffering from chronic pains and pains. Increases satellite cell phone numbers Recent research has shown that massage therapy using biomechanical stimuli can boost the amount of satellite cell in skeletal muscles. Satellite cells are mechanosensitive cells that respond to changes in their niche's environment. They are tethered to the extracellular matrix by a dystrophin-associated glycoprotein complex. Satellite cell numbers could be affected by changes in the extracellular matrix as well as the mechanical properties of muscles. Massage has the potential to increase satellite cell numbers. Increases the number of M1 macrophages In addition to their anti-inflammatory capabilities, macrophages have high plasticity, which makes them susceptible to phenotype transitions like the conversion from M1 to M2. This phenotype transition could result in an inflammation-related condition or an anti-inflammatory condition. There are a variety of ways to regulate the inflammation response. These include reducing neutrophilic responses and increasing M1 macrophages. Protects against further injuries Researchers from Colorado State University, and The University of Kentucky have discovered that biomechanical stimulation (or a type of massage) may help prevent further injury by boosting the number of satellite cells in muscles. Study also found that mechanical stimulation could cause a phenotype shift in M1 macrophages, which transform into anti-inflammatory macrophages, M2 macrophages. https://daehanmassage.com/sejong/ Furthermore, this alteration in signaling might enhance the body's reaction to rehabilitation.
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