Healing Laser Therapy

At Gaul Chiropractic, we are using Laser Therapy (Low Level Laser Therapy) more often than ever before for pain relief and inflammation related to many common painful conditions.

Laser Therapy for reducing pain and inflammation –
without side effects!

Our advanced Healing Laser Therapy Treatments are safe, effective, and perfect for practically any painful area in your body. Not just for back pain, laser therapy treatments help with knee pain, shoulder pain, elbow pain, any joint pain!  Treatments are safe and painless, and often times patients realize pain relief in the first treatment.

A SCIENTIFIC “HOW IT WORKS”
These Laser Therapy Treatments use a process called photobiomodulation. Photons (light) enter the tissue and interact with the cytochrome c complex within mitochondria of your cells. This interaction triggers a biological cascade of events that leads to an increase in cellular metabolism and a decrease in both pain and inflammation. Unlike medications, laser therapy reduces pain without undesirable side effects.

It is also important to point out that patients report long-lasting pain relief. While the number of treatments required may vary depending on your condition and level of pain, many patients experience lasting relief after only a couple treatments.

Advanced Laser Therapy Treatments for Knee Pain, Sciatica Pain, Back Pain, Shoulder Pain, and faster recovery from injury or surgery

Laser Therapy for Back Pain in Denver & Bennett CO, Sciatica Pain, Knee Pain, Shoulder Pain

How Healing Laser Therapy Works

Laser Therapy for pain - comparison of Class IV laser therapy versus Class III laser therapy (LLLT)

All light is composed of photons. Photons are small packets of light energy—in the form of waves— with a defined wavelength and frequency.
Photon energy is able to more effectively penetrate the skin and underlying structures, therefore accelerating the healing process.
Light travels at a constant speed and oscillate up and down as it moves forward.However, all light is not the same. It is measured in wavelengths, with each wavelength of light representing a different color of the spectrum.
The number of oscillations per second represents the frequency of each wavelength; shorter waves have a greater frequency than longer waves.
Laser energy is coherent (well-ordered photons), monochromatic (single-color) light energy. When produced as a narrow, bright beam.
Laser light holds its intensity until it is absorbed by a medium (the body). When applied to an organism, Laser light, tuned to specific wavelengths and frequencies, stimulates metabolic processes at the cellular level (resulting in pain relief, reduction of inflammation, faster healing).

TOP 10 CLINICAL BENEFITS OF HEALING LASER THERAPY

How Laser Therapy works for Back Pain, Sciatica Pain, Shoulder Pain, Muscle Pain

Laser Treatments for Acute Inflammation Reduction

THE SCIENCE OF HOW OUR LASER THERAPY REDUCES INFLAMMATION AND PROMOTES PAIN RELIEF

Stabilization of the cellular membrane

  • Ca++, Na+ and K+ concentrations, as well as the proton gradient over the mitochondria membrane are positively influenced.
  • This is accomplished in part, by the production of beneficial Reactive Oxygen Species aka (ROS).
  • These ROS’s modulate intracellular Ca++ concentrations and laser therapy improves Ca++ uptake in the mitochondria.

Enhancement of ATP production and synthesis

  • ATP production and synthesis are significantly enhanced, contributing to cellular repair, reproduction and functional ability
  • Photonic stimulation of Cytochrome c Oxidase, a chromophore found on the mitochondria of cells, plays a major role in this rapid increase in production and synthesis of ATP.

Stimulation of vasodilation

  • Vasodilation is stimulated via an increase in Histamine, Nitric Oxide (NO) and Serotonin levels, resulting in reduction of ischemia and improved perfusion
  • Laser-mediated vasodilation enhances the transport of nutrients and oxygen to the damaged cells and facilitates repair and removal of cellular debris.

Acceleration of leukocytic activity

  • Beneficial acceleration of leukocytic activity, resulting in enhanced removal of non-viable cellular and tissue components.
  • Thus allowing for a more rapid repair and regeneration process.

Increased prostaglandin synthesis

  • Prostaglandins have a vasodilating and anti-inflammatory action

Reduction in interleukin 1

  • Laser irradiation has a reducing effect on this pro-inflammatory cytokine that has been implicated in the pathogenesis of rheumatoid arthritis and other inflammatory conditions.

Enhanced lymphocyte response

  • In addition to increasing the number of lymphocytes, laser irradiation mediates the action of both lymphatic helper T-cells and suppressor T-cells in the inflammatory response.
  • Along with laser modification of beta cell activity, the entire lymphatic response is beneficially affected by laser therapy.

Increased angiogenesis

  • Both blood capillaries and lymphatic capillaries have been clinically documented to undergo significant increase and regeneration in the presence of laser irradiation.

Temperature modulation

  • Areas of inflammation typically demonstrate temperature variations, with the inflamed portion having an elevated temperature.
  • Laser therapy has been shown to accelerate temperature normalization, demonstrating a beneficial influence on the inflammatory process.

Enhanced superoxide dismutase (SOD) levels

  • Laser stimulated increases in cytokine SOD levels interact with other anti-inflammatory processes to accelerate the termination of the inflammatory process.

Decreased C-reactive protein and neopterin levels

  • Laser therapy has been shown to lower the serum levels of these inflammation markers, particularly in rheumatoid arthritis patients

Healing Laser Therapy Treatments for Knee Pain, Shoulder Pain, Back Pain, Sciatica Pain

Analgesia

How does Laser Therapy reduce pain?

Increase in beta endorphins

  • The localized and systemic increase of this endogenous peptide, after laser therapy irradiation has been clinically reported in multiple studies, to promote pain reduction.

Increased nitric oxide production

  • Nitric oxide has both a direct and indirect impact on pain sensation. As a neurotransmitter, it is essential for normal nerve cell action potential in impulse transmission activity.
  • And indirectly, the vasodilation effect of nitric oxide can enhance nerve cell perfusion and oxygenation.

Decreased bradykinin levels

  • Since Bradykinins elicit pain by stimulating nociceptive afferents in the skin and viscera, mitigation of elevated levels through laser therapy can result in pain reduction.

Ion channel normalization

  • Photobiomodulation promotes normalization in Ca++, NA+ and K+ concentrations, resulting in pain reduction as a result of these ion concentration shifts.

Blocked depolarization of C-fiber afferent nerves

  • The pain blocking effect of therapeutic lasers can be pronounced, particularly in low velocity neural pathways, such as non-myelinated afferent axons from nociceptors.
  • Laser irradiation suppresses the excitation of these fibers in the afferent sensory pathway.

Increased nerve cell action potentials

  • Healthy nerve cells tend to operate at about -70 mV, and fire at about -20 mV. Compromised cell membranes have a lowered threshold as their resting potentials average around this -20 mV range.
  • That means that normal non-noxious activities produce pain.
  • Laser therapy can help restore the action potential closer to the normal -70 mV range.

Increased release of acetylcholine

  • By increasing the available acetylcholine, Laser Therapy helps in normalizing nerve signal transmission in the autonomic, somatic and sensory neural pathways.

Axonal sprouting and nerve cell regeneration

  • Several studies have documented the ability of laser therapy to induce axonal sprouting and some nerve regeneration in damaged nerve tissues.
  • Where pain sensation is being magnified due to nerve structure damage, cell regeneration and sprouting may assist in reducing pain.

Summary of Light Induced, Anti-Inflammatory Responses

  1. Stabilization of the cellular membrane
  2. Enhancement of ATP production and synthesis
  3. Stimulation of vasodilation
  4. Acceleration of leukocytic activity
  5. Increased prostaglandin synthesis
  6. Reduction in interleukin 1
  7. Enhanced lymphocyte response
  8. Increased angiogenesis
  9. Temperature modulation
  10. Enhanced superoxide dismutase (SOD) levels
  11. Decreased C-reactive protein and neopterin levels

Summary of Light Induced, Analgesic Responses

  1. Increase in beta endorphins
  2. Increased nitric oxide production
  3. Decreased bradykinin levels
  4. Ion channel normalization
  5. Blocked depolarization of C-fiber afferent nerves
  6. Increased nerve cell action potentials
  7. Increased release of acetylcholine
  8. Axonal sprouting and nerve cell regeneration

Try Our Healing Laser Therapy If You Are In Pain or Recovering From Injury/Surgery.

Call Today - 303.363.9095 (Denver) or 303.644.3789 (Bennett)

Pain Relief Is Just A Phone Call Away!

Call us today! 303.363.9095 (Denver) or 303.644.3789 (Bennett)