2023-07-14 838
1. The principle of laser therapy
The laser emits high-energy laser light with four wavelengths (such as 915nm, 810nm, 650nm and 1064nm), and penetrates deeply into the tissue through the characteristics of light of different wavelengths to achieve therapeutic effects. Due to the characteristics of the laser wavelength, the semiconductor laser can penetrate the skin and superficial tissues and reach deeper tissue layers, thus having a better therapeutic effect on deep tissue pain and inflammation.
2. Research and clinical application
2.1 Clinical application of pain management:
Bone and joint pain: Lasers have shown good results in the management of bone and joint pain, and can also reduce pain caused by rheumatoid arthritis, degenerative osteoarthritis and joint injuries. Through the analgesic effect and the effect of promoting tissue repair, the patient's pain symptoms are relieved, and the joint function is improved.
Muscle pain: Muscle pain is often caused by things like sports injuries, muscle spasms, and muscle strains. Laser reduces inflammation and promotes tissue repair by improving blood circulation and accelerating cell metabolism, thereby reducing muscle pain and restoring motor function.
2.2 Clinical application of wound healing:
Trauma Wounds: Laser lasers can facilitate the healing process of trauma wounds. By increasing oxygen supply and promoting cell regeneration, it can speed up the healing rate of traumatic wounds, reduce the risk of infection, and ultimately lead to faster and more comprehensive wound healing.
Burns/Ulcers: Lasers have shown remarkable results in the treatment of burns and ulcers. It reduces pain, reduces inflammation, promotes new blood vessel formation and skin regeneration, thereby promoting the healing of burns and ulcers.
2.3 Clinical application of inflammation relief:
Arthritis: Arthritis is a chronic inflammatory disease and can be used for inflammation relief in arthritis. By inhibiting the release of inflammatory mediators and regulating the immune response, it can reduce pain and inflammation in arthritis patients and improve joint function.
2.4 Nerve regeneration and rehabilitation:
Lasers have also been extensively studied in the field of nerve regeneration and rehabilitation. It can promote the regeneration of nerve cells and improve the recovery of nerve function. For patients such as stroke, spinal cord injury and neuropathy, the application of laser can improve the speed and quality of nerve regeneration and promote the rehabilitation process.
2.5 Photodynamic therapy:
Lasers can also be combined with photosensitizers for photodynamic therapy. A photosensitizer is a substance that reacts when irradiated with laser light of a specific wavelength. The technology could be used to treat cancer, skin diseases and acne, among other things. By selecting different wavelengths and photosensitizers, targeted therapeutic effects can be achieved.
3. Precautions for therapeutic application
3.1 Parameter adjustment
Diode laser therapy needs to be adjusted according to the specific conditions of different diseases and patients, including laser wavelength, power and irradiation time. Clinicians should formulate an individualized treatment plan according to the patient's condition. The LunMed Therapy lasers we provide can not only treat deeper tissues with four-wavelength combined laser, but also separate laser for each wavelength for different diseases. At the same time, we provide 4000+ built-in clinical treatment protocols, allowing doctors and patients to enjoy a safer and more professional treatment process.
3.2 Safety and side effects
Judging from the current research, semiconductor laser therapy is safe when used properly, and has very few side effects. However, for some specific tumors and skin lesions, it should be used with caution and consult a doctor.
4. Conclusion
Overall, semiconductor laser body physiotherapy is a treatment technology with broad application prospects. By using lasers of different wavelengths and combining with other auxiliaryq treatment methods, more targeted treatment effects can be achieved. With the advancement of further research and clinical practice, we can look forward to the wider application and development of semiconductor laser human physiotherapy in many fields.