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18/Sep/2023

If you’ve ever experienced a sports injury, car accident, or slip and fall, you know the pain and frustration it can cause. It can take weeks, months, or even years to fully recover from an injury, and sometimes traditional methods such as rest, ice, and medication are not enough. Fortunately, technology has evolved, and there are new treatments available to help accelerate the healing process. One of those treatments is laser therapy. If you’ve ever wondered how laser therapy works for injury recovery, then you’re in the right place. In this blog post, we’ll explore what laser therapy is, how it works, and its benefits.

What is Laser Therapy?

Laser therapy, also known as low-level laser therapy, cold laser, or photobiomodulation therapy, is a non-invasive treatment that uses light energy to stimulate the body’s natural healing process. The therapy involves the use of a low-level laser, which emits light at a specific wavelength that penetrates the skin and targets the affected area. Unlike conventional lasers used in surgery or cosmetic treatments, low-level lasers do not produce heat, so they’re safe and painless.

How does Laser Therapy Work?

Laser therapy works by stimulating the body’s cells to produce more energy. When the light energy from the laser penetrates the skin, it’s absorbed by the cells and converted into cellular energy. This energy is used to repair damaged tissues, reduce inflammation, and alleviate pain. The light energy also activates the production of adenosine triphosphate (ATP), a molecule that’s essential for cellular function. When cells have more ATP, they’re better equipped to carry out their functions and repair damaged tissues.

Benefits of Laser Therapy for Injury Recovery

Laser therapy has a multitude of benefits for injury recovery. The therapy helps to reduce inflammation, which is a common cause of pain and stiffness. By reducing inflammation, laser therapy can improve range of motion, decrease pain, and enhance overall mobility. Additionally, laser therapy stimulates the production of collagen, a protein that’s essential for tissue repair. By increasing collagen production, laser therapy can help speed up the healing process and improve tissue health.

Another benefit of laser therapy is the absence of side effects. Unlike medication or surgery, there are no adverse side effects associated with laser therapy. It’s safe, painless, and non-invasive. Moreover, the treatment is quick and easy, with most sessions lasting between 5-15 minutes. Patients can resume their normal activities immediately after treatment.

Fibromyalgia

Research on Laser for Sport Injury Recovery

Laser therapy has shown considerable promise in treating sports injuries. A study from the International Society for Laser Surgery and Medicine found that Low-Level Laser Therapy (LLLT) was 65.9% effective in treating all sports injuries.

A SPIE Digital Library publication emphasized the effectiveness of Low-Intensity Laser Therapy in treating various musculoskeletal pathologies. Similarly, research from the Journal of Laser Applications suggested that athletes with sports-related injuries returned to their sports faster after treatment with low-energy lasers.

A triple-blind, sham-controlled study found that LLLT facilitated superficial wound healing, although results varied concerning its effectiveness in treating pain and restoring function in musculoskeletal injury or disease. A study on tendinopathy published on the Liebert Pub website reported benefits from low power laser sources in treating tendon and sports injuries.

Overall, these studies suggest that laser therapy, particularly LLLT, can be an effective treatment for sports injuries.

I Have found LLLT to be very effective in treating arthritis, tendonitis and other related injuries in as little as 5 treatments.

Research on Laser for Neurological Injury

A study published on the Wiley Online Library revealed that different wavelengths of low-level laser therapy (LLLT) could affect functional recovery in injured peripheral nerves and traumatic brain injury in mice. Another study showed that laser therapy had a positive influence on nerve regeneration, specifically the sciatic nerve in rats after injury.

Research published on Springer highlighted the efficacy of LLLT on neurosensory recovery after damage to the inferior alveolar nerve. Another research paper indicated the positive impact of low-intensity laser therapy on recovery following traumatic spinal cord injury. A Plos One journal article also corroborated these findings, suggesting that transcranial LLLT improved neurological performance in traumatic brain injury in mice.

Further studies have shown positive effects of LLLT on neuromuscular recovery after crush injury in rat sciatic nerve, neuropathic pain relief and function recovery in rats with chronic constriction injury, and skeletal muscle repair.

How to Get Laser Therapy for Injury Recovery

If you’re interested in laser therapy for injury recovery, the first step is to consult with a healthcare professional. A licensed and qualified practitioner can assess your condition and determine if laser therapy is the right option for you. The practitioner will also determine the optimal number of treatments necessary for your condition. Treatments are typically administered in a clinical setting by a qualified professional. The number of sessions can vary depending on the severity of the injury and the desired outcome.

Conclusion

Injury recovery can be a long and challenging process. Laser therapy can help make it faster, easier, and less painful. The therapy works by stimulating the body’s natural healing process, reducing inflammation, and promoting tissue repair. Benefits of laser therapy include pain relief, improved mobility, and faster recovery time. The therapy is safe, non-invasive, and has no side effects. If you’re interested in laser therapy for injury recovery, consult with a healthcare professional to determine if it’s the right option for you. Learn more about laser therapy for chronic pain HERE

References:

  1. Wiley Online Library
  2. Springer
  3. Springer
  4. ScienceDirect
  5. Liebert Pub
  6. Springer
  7. Plos One
  8. Wiley Online Library
  9. Wiley Online Library
  10. LWW Journals

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03/Mar/2022

For the past 6-months I have been supplementing with collagen peptides in my morning coffee. I take relatively few daily supplements; Lions Mane mushroom for my brain, Vitamin D for my immune system and Collagen Peptides for my joints. I became focused on protecting my joints (especially my fingers, toes, knees and shoulders) a few years ago as I started training harder in rock climbing. I began to feel stiffness, soreness and occasionally pain after hard training sessions. I decided I needed to do something soon or I would lose the ability to climb at a relatively young age.

Instead of suppressing inflammation with compounds like curcumin, glucosamine and chondroitin I wondered if it would be possible to actually strengthen my tendons and ligaments. I had been aware of collagen supplementation through a number of patients taking it for hair and skin health. I had largely dismissed collagen as a beauty supplement and it was therefore not on my radar as a potential athletic enhancement.

Just over 6-months ago I had received a newsletter about of tendon health for climbers. The physiotherapist/climbing expert outlined specific exercises for warming up fingers and also mentioned the benefits of collagen supplementation for tendon health. At that moment I decided to re-visit the research on collagen, and I am glad I did!

Collagen peptides are small amino acid chains derived from collagen, which is the primary structural protein in ligaments, tendons, bones and skin. The research behind supplementing with collagen peptides seems to support three key areas.

Skin

A few studies, including randomized placebo controlled trials, have shown an improvement in skin moisture, elasticity and wrinkles with daily supplementation of Collagen Peptides. The daily dose ranged from 4-10 grams daily.

Osteoarthritis

Several studies have demonstrated a modest benefit in pain and function with daily supplementation of Collagen Peptides. Most studies focused on osteoarthritis (OA) in the knees but a couple also mention hip and hand. In general the improvement was modest (a little better than chondroitin) and took approximately 3-5 months to appear. Some studies used collagen peptides in combination with other compounds like chondroitin and hyaluronic acid. Most studies used a 10 gram daily dose.

Performance Enhancement

A great systematic review came out in 2021 that looked at the effects of collagen peptide supplementation on body composition, collagen synthesis and recovery from joint injury.

Five studies demonstrated a positive effect on reducing joint discomfort, knee pain , ankle and knee function and recovery from achilles tendinopathy. Those studies used 40 mg-10 grams per day over a 4-6 month period.

Four studies looked at the effects of collagen supplementation on body composition and muscle strength. The studies combined collagen supplementation (15 grams per day for 3-months) with resistance training.The studies, which were conducted on elderly men, active men and untrained pre-menopausal women, found an increase in fat free mass, a decrease in body fat percentage and an increase in hand grip strength.

Two studies assessed the effect of collagen supplementation on exercise performance and recovery from muscle soreness. The studies included recreationally active men, one used 3 grams per day for 6 weeks and the other used 20 grams per day for 7 days prior to intense exercise. There was a strong positive effect on pain with movement and muscle soreness.

Two studies assessed the effects of Collagen peptide supplementation on collagen synthesis. When taken 60min prior to exercise there was a significant increase in collagen synthesis markers following ingestion of 15 grams collagen enriched with vitamin C.

Conclusions

When it comes to preserving joint, ligament and tendon health for myself and my patients, collagen peptide supplementation is now a staple. The evidence in favour of collagen, along with a strong safety profile makes collagen peptides a valuable nutritional supplement in both sports medicine and anti-aging medicine. The recommended dose seems to be between 10-20 grams per day for 3-6 months.

References

Inoue N, Sugihara F, Wang X. Ingestion of bioactive collagen hydrolysates enhance facial skin moisture and elasticity and reduce facial ageing signs in a randomised double-blind placebo-controlled clinical study. J Sci Food Agric. 2016;96(12):4077-81.

Czajka A, Kania EM, Genovese L, et al. Daily oral supplementation with collagen peptides combined with vitamins and other bioactive compounds improves skin elasticity and has a beneficial effect on joint and general wellbeing. Nutr Res 2018;57:97-108.

Asserin J, Lati E, Shioya T, Prawitt J. The effect of oral collagen peptide supplementation on skin moisture and the dermal collagen network: evidence from an ex vivo model and randomized, placebo-controlled clinical trials. J Cosmet Dermatol. 2015;14(4):291-301

Sangsuwan W, Asawanonda P. Four-weeks daily intake of oral collagen hydrolysate results in improved skin elasticity, especially in sun-exposed areas: a randomized, double-blind, placebo-controlled trial. J Dermatolog Treat. 2020:1-6.

Benito-Ruiz P, Camacho-Zambrano MM, Carrillo-Arcentales JN, et al. A randomized controlled trial on the efficacy and safety of a food ingredient, collagen hydrolysate, for improving joint comfort. Int J Food Sci Nutr. 2009;60 Suppl 2:99-113.

Kumar S, Sugihara F, Suzuki K, Inoue N, Venkateswarathirukumara S. A double-blind, placebo-controlled, randomised, clinical study on the effectiveness of collagen peptide on osteoarthritis. J Sci Food Agric. 2015;95(4):702-7.

Trc T, Bohmová J. Efficacy and tolerance of enzymatic hydrolysed collagen (EHC) vs. glucosamine sulphate (GS) in the treatment of knee osteoarthritis (KOA). Int Orthop. 2011;35(3):341-8

Moskowitz RW. Role of collagen hydrolysate in bone and joint disease.Semin Arthritis Rheum 2000;30:87-99

Kalman DS, Schwartz HI, Pachon J, Sheldon E, Almada AL. A randomized double blind clinical pilot trial evaluating the safety and efficacy of hydrolyzed collagen type II in adults with osteoarthritis. FASEB Experimental Biology 2004 Abstracts, Washington DC, April 17-21, 2004; A90.

Amino Acids. 2021; 53(10): 1493–1506.Published online 2021 Sep 7. doi: 10.1007/s00726-021-03072-xPMCID: PMC8521576PMID: 34491424The effects of collagen peptide supplementation on body composition, collagen synthesis, and recovery from joint injury and exercise: a systematic review Mishti Khatri,1 Robert J. Naughton,1 Tom Clifford,2 Liam D. Harper, 1 and Liam Corr1


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