The popularity of cold laser in rising slowly since it has been determined to be capable of achieving some good results with proper usage. This technique uses light of low levels to stimulate healing. As the lasers used do not contain a lot of energy the term cold is normally used. The levels of energy that they have are not sufficient to cause body tissues to heat when they are exposed to it. Here are facts regarding Laser therapy for ankle sprain.
In comparison with other laser kinds for different functions, there is a very minimum amount of energy in cold lasers. The more powerful lasers therefore find application in the destruction of tumors and coagulate tissues. The lasers that are used in surgery and aesthetic applications also lead to heating of body tissues. Photobiomodulation, low-power/low-level laser therapy and soft laser biostimulation are alternative names for cold laser therapy.
The use of this process involves the focusing of low-energy lasers on a target area of the skin. The body tissues that are affected absorb the light when they are exposed to it. A reaction in the body is caused by the absorbed light. The cells that are targeted then produce a physiological reaction in turn. This physiological process then promotes the regeneration and healing of the 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.
A hand-held laser device is usually used to administer this procedure. The patient can feel the device touch their body when it is being applied. It is only the touch of the device that one feels for the entire process. The process is entirely painless and noninvasive. The patient will not feel vibrations, heat, or sounds as there is none produced.
However, if lasers of longer wavelengths are being used to achieve deep-tissue penetration, it is possible to sense some warmth in the area being treated. The warmth usually comes from the laser. To prevent any possibility of damage to the body cells in the affected area, treatments are usually limited to a few minutes. A typical session will take one to two minutes.
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.
In comparison with other laser kinds for different functions, there is a very minimum amount of energy in cold lasers. The more powerful lasers therefore find application in the destruction of tumors and coagulate tissues. The lasers that are used in surgery and aesthetic applications also lead to heating of body tissues. Photobiomodulation, low-power/low-level laser therapy and soft laser biostimulation are alternative names for cold laser therapy.
The use of this process involves the focusing of low-energy lasers on a target area of the skin. The body tissues that are affected absorb the light when they are exposed to it. A reaction in the body is caused by the absorbed light. The cells that are targeted then produce a physiological reaction in turn. This physiological process then promotes the regeneration and healing of the 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.
A hand-held laser device is usually used to administer this procedure. The patient can feel the device touch their body when it is being applied. It is only the touch of the device that one feels for the entire process. The process is entirely painless and noninvasive. The patient will not feel vibrations, heat, or sounds as there is none produced.
However, if lasers of longer wavelengths are being used to achieve deep-tissue penetration, it is possible to sense some warmth in the area being treated. The warmth usually comes from the laser. To prevent any possibility of damage to the body cells in the affected area, treatments are usually limited to a few minutes. A typical session will take one to two minutes.
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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