When a cold laser therapy is used in a proper way, there are some positive results that can be achieved and this fact makes it more popular. Healing by this process is stimulated by light in low levels. There is a lot of energy that is contained in the lasers and this explains its name cold. Heating is not a possibility in the body tissues that the lasers are being exposed to. This is worth knowing about Laser therapy for ankle sprain.
Compared to other types of lasers that are used for other jobs, cold lasers have the least amounts of energy. Lasers with slightly higher levels of energy are used in the destruction of tumors and coagulate tissues. Lasers meant for surgical purposes and esthetics also causes body tissues to heat. Others names such as low-power/low-level laser therapy, soft laser, biostumulation, and photobiomodulation are also used in reference to cold laser therapy.
When this process is being applied, it involves the application of low-level light to the targeted area. Upon being exposed to the light, the affected body tissues absorb it. The absorbed light then causes a reaction in the body and the affected cells respond with a physiological reaction of their own. This is what promotes the process of regeneration or healing of damaged cells.
The typical wave range is between 700 and 600 nanometers for most lasers used in this process. But, lasers with longer wavelengths can also be used. Normally, when deeper level of penetration is required than lasers with longer wavelengths are used. Such cases call for lasers with wavelengths ranging between 780 and 950 nanometers.
This procedure is conducted using a laser device that is held in the hand. The device is usually placed on the body of the patient and they can feel it. However, beyond feeling the device touch the body, there is no other feeling one feels throughout the process. The procedure is totally painless and noninvasive. There are no vibrations, heat, or sounds that the patient feels.
A patient can however feel some warmth in cases where lasers of larger wavelengths are used so as to penetrate deeper into the tissues. The lasers normally produce the warmth. The application of the treatment is normally limited to a few minutes so as to avoid any damage that might be possibly caused to the affected area. A standard application will take between 1 and 2 minutes per session.
Photobiomodulation is neither limited in terms of who can used it nor is it an entirely new idea. Lots of different medical practitioners such as doctors, dentists, and physical therapists apply it in treatment of various medical conditions. Also, the ways in which it can be used vary a lot. However, it is mostly used in pain relief and repair of body tissues where inflammation is involved.
This procedure can treat problems like ligament sprains, tendonitis, bursitis, and muscle strains. Additional conditions may include neck pain, lower back pain, knee pain, and tennis elbow. Using this method promotes healing by reducing inflammation and swelling in joints and soft tissue. This approach is used in dentistry for healing ulceration and treating inflamed tissues.
Compared to other types of lasers that are used for other jobs, cold lasers have the least amounts of energy. Lasers with slightly higher levels of energy are used in the destruction of tumors and coagulate tissues. Lasers meant for surgical purposes and esthetics also causes body tissues to heat. Others names such as low-power/low-level laser therapy, soft laser, biostumulation, and photobiomodulation are also used in reference to cold laser therapy.
When this process is being applied, it involves the application of low-level light to the targeted area. Upon being exposed to the light, the affected body tissues absorb it. The absorbed light then causes a reaction in the body and the affected cells respond with a physiological reaction of their own. This is what promotes the process of regeneration or healing of damaged cells.
The typical wave range is between 700 and 600 nanometers for most lasers used in this process. But, lasers with longer wavelengths can also be used. Normally, when deeper level of penetration is required than lasers with longer wavelengths are used. Such cases call for lasers with wavelengths ranging between 780 and 950 nanometers.
This procedure is conducted using a laser device that is held in the hand. The device is usually placed on the body of the patient and they can feel it. However, beyond feeling the device touch the body, there is no other feeling one feels throughout the process. The procedure is totally painless and noninvasive. There are no vibrations, heat, or sounds that the patient feels.
A patient can however feel some warmth in cases where lasers of larger wavelengths are used so as to penetrate deeper into the tissues. The lasers normally produce the warmth. The application of the treatment is normally limited to a few minutes so as to avoid any damage that might be possibly caused to the affected area. A standard application will take between 1 and 2 minutes per session.
Photobiomodulation is neither limited in terms of who can used it nor is it an entirely new idea. Lots of different medical practitioners such as doctors, dentists, and physical therapists apply it in treatment of various medical conditions. Also, the ways in which it can be used vary a lot. However, it is mostly used in pain relief and repair of body tissues where inflammation is involved.
This procedure can treat problems like ligament sprains, tendonitis, bursitis, and muscle strains. Additional conditions may include neck pain, lower back pain, knee pain, and tennis elbow. Using this method promotes healing by reducing inflammation and swelling in joints and soft tissue. This approach is used in dentistry for healing ulceration and treating inflamed tissues.
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