Shockwave therapy, how does it work.

Shockwave therapy, also known as extracorporeal shockwave therapy (ESWT), is a non-invasive treatment used to promote healing in various musculoskeletal conditions. The physiological mechanisms through which shockwave therapy works include:

1. Mechanical Stimulation:
   • Microtrauma Induction: Shockwaves create controlled microtrauma or micro-cavitation bubbles in tissues. This stimulates the body’s natural healing processes.
   • Stress and Strain: The mechanical pressure exerted by shockwaves induces stress and strain in the tissues, leading to changes at the cellular level that promote repair.
2. Increased Blood Flow:
   • Angiogenesis: Shockwaves stimulate the formation of new blood vessels (angiogenesis) in the treated area. This improves blood supply, oxygenation, and nutrient delivery, enhancing tissue repair and regeneration.
   • Neovascularization: The formation of new capillaries improves blood flow and accelerates the healing process.
3. Cellular Response:
   • Stem Cell Activation: Shockwaves can activate resident stem cells and recruit circulating stem cells to the site of injury, contributing to tissue repair and regeneration.
   • Growth Factor Release: Shockwaves trigger the release of growth factors such as vascular endothelial growth factor (VEGF) and bone morphogenetic proteins (BMPs), which play a crucial role in tissue healing and regeneration.
4. Reduction of Inflammation:
   • Modulation of Inflammatory Mediators: Shockwave therapy can alter the levels of pro-inflammatory and anti-inflammatory mediators, reducing chronic inflammation and promoting a more favorable environment for healing.
   • Reduction of Calcification: In conditions like calcific tendinitis, shockwave therapy can help break down calcium deposits, reducing pain and improving function.
5. Pain Relief:
   • Nociceptor Desensitization: Shockwaves can reduce the sensitivity of nerve endings (nociceptors), leading to decreased pain perception.
   • Endorphin Release: The mechanical stimulation from shockwave therapy can promote the release of endorphins, which are natural pain-relieving substances.
6. Improved Tissue Regeneration:
   • Collagen Synthesis: Shockwave therapy stimulates fibroblast activity and increases collagen production, which is essential for tissue repair and strength.
   • Matrix Remodeling: The treatment promotes the remodeling of the extracellular matrix, leading to improved tissue structure and function.

These combined effects make shockwave therapy a valuable treatment option for various conditions, including tendinopathies, plantar fasciitis, non-healing fractures, and myofascial pain syndromes. It is particularly effective in promoting healing, reducing pain, and improving function in chronic and treatment-resistant conditions.