Low level laser therapy is a safe, painless, and effective treatment option for a variety of dental conditions. It is a non-invasive, painless treatment that can be performed in a dental office or at home, making it a convenient and accessible option for patients. If you are experiencing tooth sensitivity, gum inflammation, or mouth sores, talk to your dentist about the potential benefits of LLLT.
Low level laser therapy (LLLT) is a non-invasive treatment option that uses low intensity lasers to stimulate healing and reduce pain in the oral cavity. It has been shown to be effective in treating a variety of dental conditions, including tooth sensitivity, gum inflammation, and mouth sores.
LLLT works by delivering low levels of light energy to the targeted tissue. This energy is absorbed by the cells, which triggers a photochemical reaction that leads to the release of substances that promote healing and reduce inflammation. LLLT can be administered using a handheld device, such as a laser probe, or through the use of a laser-emitting mouthguard or splint.
We have several options available for low level laser therapy for pain, including free standing, hands free devices, and portable handheld devices.
Free Standing Devices
The Erchonia FX 405 is a free standing device and will allow your patients to receive patients while you are attending to other duties. The FX 405 provides pain relief and reduces inflammation with its red and violet lasers with no adverse side effects.
The Erchonia FX 635 is also a free standing device and is proven to promote cellular function through painless bio-stimulation. The revolutionary design of the FX 635 Laser allows for dependable positioning of the three patented laser diode arms perfectly to target these pain conditions.
The Erchonia XLR8 laser uses red lasers to treat pain and sensitivity conditions. This device is is a cordless handheld device with a simple graphic interface and preset / customisable protocols to treat different ailments.
The Erchonia Violet and Red Laser is the newest Erchonia cordless handheld device. The combination of the red and violet lasers offers unique anti-bacterial and anti-microbial properties and can treat an extensive range of conditions.
The Erchonia Base Station is a desktop unit with three (3) touchscreen handheld laser devices, a smart docking base and the ability to program all of the lasers using their touchscreen GUIs.
One of the main advantages of LLLT for dental care is that it is a painless and non-invasive treatment option. It does not require the use of needles or anesthesia, and there is no risk of infection or scarring. LLLT can be performed in a dental office setting or at home, making it a convenient and accessible treatment option.
LLLT has been shown to be effective in reducing tooth sensitivity, a common dental condition that occurs when the outer layer of the tooth, called the enamel, becomes thin or damaged, exposing the dentin underneath. When the dentin is exposed, it can cause pain or discomfort when the teeth come into contact with cold or hot foods or beverages. LLLT can help to reduce sensitivity by stimulating the production of dentin, which helps to protect the tooth from further damage.
LLLT has also been shown to be effective in reducing gum inflammation, a condition known as gingivitis. Gingivitis is caused by the accumulation of bacteria in the mouth, which can lead to inflammation and swelling of the gums. LLLT has been shown to reduce inflammation and promote the healing of damaged gum tissue, helping to prevent the progression of gingivitis to more serious forms of gum disease.
LLLT has also been used to treat mouth sores, including canker sores and cold sores. These sores can be painful and can make eating and speaking difficult. LLLT has been shown to reduce pain and promote the healing of these sores, helping to alleviate discomfort and improve oral function.
Contact us today 1-800-657-6009 to learn more about how we can help you grow your business with the our Erchonia Low Level Lasers today! We also have leasing options available.