Low level Laser Photobiomodulation For Oral Ulcers and Lesions

I had many cycles of oral ulcerations thru my 9 months of active Chemotherapy. Most would resolve after a week coming and going in small 1mm-2mm presentations on the gums and palate. This certainly made eating difficult from the sudden burning sensation they would cause anytime food substances would contact them. But there are times when the smaller ulcers can combine into a larger one that just doesn’t heal over weeks. Mostly due to the repeated trauma of food particles irritating it and reulcerating the lesion. In this situation there are only palliative measures that my care team could suggest, such as Steroid rinses or antiseptics to keep the area from getting infected…Hoping for healing on its own. Well one such lesions Ulcerated to over a nickel size and persisted over 6weeks until I could not take the Excruciating burning feeling any longer. I researching I discovered that Low-Level Laser therapy, or LED technology Photobiomodulation has been used for Healing tissues since the 60’s in Europe. More recently studies had been done multiple times providing significant Patient trials where significant healing times were noticed. I purchased this devise myself and after using it 3x/day for 2minute session I had progressive Healing of the Ulceration that wasn’t healing…suddenly in completely gone in 20 days but what was most important and significant was that the pain went away significantly in less than four days of use and the mucosa started to heal with new tissue in 7days. My care team was surprised and Sent me to other specialists to observe the healing that was so significant all of them were talking about the dramatic changes. The photos in the Video are of my Mouth and results.

If you have any questions about my experience or need any guidance on the product I used please add them to the comments and I will respond to you, Namaste.

This is the devise I purchased and used:
Red Light Therapy Device, Cold Sore Canker Sore Treatment Torch for Lips, Infrared Light Therapy Wand for Face Fever Blister, Healing Pain Relief for Mouth

https://amzn.to/3PxIOBF
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Review Article:
Photobiomodulation—Underlying Mechanism and Clinical Applications

https://pubmed.ncbi.nlm.nih.gov/32503238/

” The effectiveness of PBM on the target tissue is dependent on the parameters used such as light source, wavelength, energy density, light pulse structure, and the duration of the laser application [12]. Epigenetic mechanisms, which are regulated by environmental cues, are also affected by laser treatment [11]. Red light or near-infrared light (NIR) are the most commonly used wavelengths in PBM (600–1100 nm) [13]. In longer wavelengths, 1064 nm is often chosen for studies and applications [14,15]. However, Wang et al. discovered that blue (420 nm) and green (540 nm) light enhanced the differentiation of human adipose-derived stem cells (hADSCs), highlighting the possibilities of translating this knowledge into novel future therapeutic approaches [16].” See references in the article.

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One of the key advantages of infrared light therapy is its ability to penetrate deep into tissues, reaching the affected nerves directly. Heat from the therapy goes beyond the surface to stimulate healing at a cellular level. By delivering energy deep into the body, it helps address nerve damage and promotes regeneration. Numerous studies and review have shown the positive effects of infrared light therapy on diabetes.
Stimulating Mitochondrial Function and ATP Production in Cells
Neuropathy often results from impaired mitochondrial function in cells, leading to decreased ATP (adenosine triphosphate) production. Infrared light therapy helps counteract heat this by stimulating mitochondrial activity and enhancing ATP production. This increase in cellular energy not only aids in nerve repair but also supports overall cell function, contributing to improved health for individuals with diabetes. The effectiveness of infrared light therapy in treating neuropathy has been demonstrated through a review and analysis of existing studies. Enhancing Blood Flow, Reducing Inflammation, and Promoting Healing Infrared light has been shown to enhance blood flow and reduce inflammation in tissues affected by neuropathy. This therapy, known as heat therapy, improves the environment for nerve healing. By increasing circulation, it helps deliver oxygen and nutrients more efficiently while removing waste products. This review of infrared light therapy highlights its effectiveness in promoting anti-inflammatory responses and suppressing pro-inflammatory markers, making it a valuable treatment option for nerve pain.
Alleviating Pain by Increasing Endorphin Release in the Body
Infrared light therapy is a natural solution for pain relief in neuropathy. It triggers increased endorphin release, the body’s own pain-relieving chemicals, promoting well-being. This review explores the benefits of infrared light therapy for neuropathy treatment.
By addressing the talking points above, it becomes evident that infrared light therapy holds great potential for providing effective relief from neuropathy pain. Its ability to penetrate deep into tissues, stimulate cellular function, enhance blood flow, reduce inflammation, and trigger endorphin release all contribute to its therapeutic benefits. As further research continues to uncover the full extent of its advantages, more individuals are turning to this non-invasive treatment option in their quest for lasting relief from neuropathy pain. The heat generated by infrared light therapy can help alleviate discomfort. A review of the available data supports the effectiveness of infrared light therapy for neuropathy pain.
Before starting any new treatment or therapy for neuropathy or any other medical condition, remember to consult with a healthcare professional. This review will focus on the use of DPN and IR heat therapy.
Infrared light therapy is a popular method for pain relief, especially for neuropathy pain. It utilizes far infrared to target nerve pain and reduce inflammation. Many users have reported significant relief after using infrared therapy for their pain. If you’re looking for an effective way to alleviate pain and inflammation, consider giving infrared therapy a try.
Effect of Near-Infrared Light-Emitting Diodes on Nerve
Near-infrared light therapy, also known as red light therapy, has shown promising effects in the treatment of neuropathy. This non-invasive approach utilizes monochromatic near-infrared (NIR) light-emitting diodes to target nerve damage and promote healing within the nervous system. The heat generated by the NIR light helps stimulate blood flow and relieve pain. In this dpn review, we will explore the data supporting the effectiveness of near-infrared light therapy for neuropathy treatment.
Near-Infrared Light Triggers a Cascade of Cellular Responses in Nerves
When far infrared (FIR) heat is applied to affected areas, it penetrates deep into the tissues, reaching nerve cells and initiating a series of cellular responses. One significant effect is the stimulation of protein synthesis, which plays a crucial role in nerve cell growth and repair. By increasing protein production, FIR heat aids in restoring damaged nerves and improving their overall function. This review of the data supports the positive effects of FIR heat on nerve cell regeneration.
Promotes Nerve Cell Growth and Repair through Increased Protein Synthesis
The enhanced protein synthesis triggered by far infrared (FIR) light therapy provides essential building blocks for repairing damaged nerve cells. As new proteins are synthesized, they contribute to the regeneration process, promoting the growth of healthy nerves. This can lead to improved sensory function and reduced pain associated with neuropathy. In this DPN review, we explore the benefits of FIR heat therapy for nerve regeneration.
Enhances Axonal Transport and Improves Nerve Conduction Velocity
Axonal transport, including the movement of essential molecules along nerve fibers called axons, can be impaired when nerves are damaged. Red light therapy has been found to enhance axonal transport and improve nerve conduction velocity. This improvement in transport efficiency ultimately results in improved overall nerve function. The heat generated by far infrared light plays a role in facilitating this enhanced transport mechanism. This review summarizes the data on the effects of red light therapy on axonal transport and its potential benefits for nerve function.
Protects against Oxidative Stress-Induced Damage in Nerve Cells.
Oxidative stress is known to contribute significantly to nerve damage. Heat therapy has been found to mitigate oxidative stress-induced damage in nerve cells by increasing the production of nitric oxide (NO). Nitric oxide acts as a potent antioxidant, neutralizing free radicals and reducing their detrimental effects on nerves. By protecting nerve cells from oxidative stress, heat therapy helps prevent further damage and supports the healing process. This review highlights the benefits of heat therapy in reducing oxidative stress and promoting nerve cell health.
Efficacy of Red Light Therapy for Neuropathy Pain
Clinical studies have shown that red light therapy, also known as infrared (IR) therapy, can be highly effective in reducing neuropathic pain. This non-invasive treatment, which utilizes heat and deep penetrating near-infrared (DPN) wavelengths, has gained popularity among neuropathy patients due to its ability to alleviate symptoms and improve overall quality of life.
One of the key benefits of red light therapy is its ability to significantly reduce neuropathic pain. Clinical trials have consistently demonstrated the positive impact of this treatment on pain management, specifically targeting damaged nerve cells. Red light therapy stimulates cellular repair and regeneration, leading to a reduction in pain signals transmitted to the brain. This makes it an effective treatment for heat and dpn.
In addition to pain relief, red light therapy also improves sensory perception for individuals with neuropathy. Nerve damage often results in diminished sensation or numbness in affected areas. Through its regenerative effects, red light therapy promotes nerve function restoration, allowing patients to regain sensation and experience an improved sense of touch. This is particularly beneficial for those experiencing the effects of heat and dpn.
The positive outcomes experienced by neuropathy patients who undergo red light therapy extend beyond physical improvements. Many individuals report a significant enhancement in their overall quality of life after undergoing regular sessions. The reduction in pain and improvement in sensory perception contribute to increased mobility and functionality, enabling patients to engage more actively in daily activities without constant discomfort. The heat generated during the therapy also plays a role in improving the patient’s condition.
It is important to note that while some individuals may experience immediate relief from neuropathic pain after a few sessions of red light therapy, others may require multiple sessions over time for optimal results. The duration and frequency of treatment will depend on various factors such as the severity of the condition, individual response, and the amount of heat applied. Patience and consistency are key.
Another advantage of red light therapy is its minimal side effects compared to other conventional treatments for neuropathy. Pharmaceutical medications often come with a host of potential adverse reactions, whereas red light therapy poses minimal risk or discomfort during treatment sessions. This makes it a desirable option for those seeking alternative approaches with fewer unwanted side effects.

Article:
Light therapy: a new option for neurodegenerative diseases

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7990011/