पेशींची गुप्त भाषा: आपले शरीर कंपन आणि हालचालींद्वारे कसा संवाद साधते (The Hidden Language of Cells)

Описание: हा लेख कंपनशील हालचालींचा पेशींवर होणाऱ्या परिणामांचे आणि कंपनशील औषधोपचाराने पेशी स्तरावर कसे उपचार होऊ शकतात याचे सखोल स्पष्टीकरण देतो. त्यात पेशींच्या पडद्यापासून ते डीएनएपर्यंत प्रत्येक पेशीच्या भागावर होणारे परिणाम आणि पेशींमधील ऊर्जा उत्पादन, प्रथिन निर्मिती आणि कचरा व्यवस्थापन यांसारख्या प्रक्रिया कशा सुधारू शकतात यावर चर्चा केली आहे. एकूणच, हे स्रोत शरीराच्या नैसर्गिक कंपनक्षमतेचा उपयोग करून उपचारात्मक क्षमता वाढवण्याच्या संकल्पनेवर लक्ष केंद्रित करतात.

The article explores how external resonating movements communicate directly with cells, leading to profound healing and beneficial effects throughout the body. This concept is rooted in the understanding that every cell possesses its own unique vibrational frequency, forming a "cellular orchestra". When external frequencies match a cell's natural resonance, it triggers a cascade of responses.

Key cellular components respond to these resonating movements in specific ways:

• Cell Membrane: This outer barrier, composed of a fluid lipid bilayer, becomes more fluid when exposed to resonating movements. It contains mechanoreceptors, which are tiny sensors that convert mechanical forces into chemical signals through a process called mechano-transduction. These movements can also open ion channels, allowing for more efficient nutrient flow and waste removal, and shifting the cell's electrical charge or membrane potential.

• Mitochondria: Known as the cell's powerhouses, mitochondria significantly increase ATP production (up to 40%) in response to mechanical stimulation. This surge in energy explains why individuals may feel more energetic after resonance therapy. Resonating movements also influence mitochondrial fission and fusion, processes that optimize their function and help maintain healthier networks.

• Nucleus: The command center of the cell, the nucleus, is directly influenced by external resonating movements. It is connected to the cell membrane by the cytoskeleton, allowing mechanical forces to travel to the nucleus and influence gene expression, potentially turning genes on or off. This can impact processes like tissue repair and inflammatory responses.

• Endoplasmic Reticulum (ER): This cellular manufacturing district, responsible for protein production and folding, sees enhanced efficiency in its protein folding capabilities due to mechanical stress. Resonating movements can also trigger the release of calcium from the ER, which is a crucial signaling molecule involved in various cellular activities like muscle contraction and nerve transmission.

• Lysosomes: These "cellular janitors" become significantly more active with mechanical stimulation, leading to more efficient waste removal. This enhanced cleanup helps maintain cellular health and may contribute to anti-aging effects.

• Cytoskeleton: The cell's dynamic internal scaffolding, the cytoskeleton, reorganizes itself in response to mechanical forces. This reorganization affects cell shape, motility, and internal transport, making cells more efficient overall.

Ultimately, the conversion of mechanical forces into biochemical activities and gene expression is referred to as mechanochemical transduction or mechano-transduction, a fundamental process in how the body heals and adapts. Devices like the Celtron-QRT are mentioned as examples of resonance therapy devices that apply these principles for various benefits, including pain relief, improved energy levels, and faster recovery for athletes.
Adapted from the original article published on LinkedIn.
Link:   / hidden-language-cells-how-your-body-speaks...