Why Lumix Superpulsed Lasers?

Lumix Superpulsed lasers produce the highest pulse power and simultaneously emit the strongest average power of any therapeutic laser in the US today.  The 3 P’s of Performance: Power, Penetration, PulseAdequate amounts of pulse and average powers are essential for successful patient results.Research shows high pulse rates initiate cellular regeneration.Published research found combining superpulsed and continuous wave (CW) wavelengths allows CW emission to be delivered more deeply. Combining these two emissions increases the efficacy and safety of laser therapy. Published research demonstrates the promotion of gene expression and cellular regeneration when pulse rates are above 30,000 Hz (30 kHz). This is critical to repairing tissue and relieving pain.  * Lumix superpulsed lasers are available in 45, 100, 110, 250, or 660 watts pulse power, and 0.5 watts to 35 watts average power. What do Wavelengths Effect? Lumix superpulsed lasers effect deep tissue penetration. Equipped with multiple wavelengths, these lasers provide multidimensional therapeutic benefits. Additionally-The superpulsed lasers emission is more clinically efficient than continuous wave emission alone, according to recent research. Both CW and superpulsed emissions activate anti-inflammatory and normalizing mechanisms at the cellular level. This is true for any tissue, from muscle, tendon and bone to ligament, skin and nerve.  Superpulsed wavelength emission penetrates deeply, yet is almost completely non-thermal.  Laser Biotech offers three lasers in the Lumix Series:  Lumix 2, Lumix 3, and Lumix 4 — named according to the number of wavelengths in the design: Lumix 2 Series focus on superpulsed emission of 910 nm combined with CW wavelength of 650 nm. FDA cleared Class 3b and Class 4 in 2004.Lumix 3 Series are superpulsed (910 nm) and combine with CW wavelength options of 650 nm and an additional 810, 980 or 1064 nm to deliver multidimensional laser therapy. FDA cleared Class 4 in 2016. Lumix 4 Series are superpulsed (910 nm) and combine with 650 nm and an additional two 810, 980, or 1064 CW wavelengths. This allows practitioners to effectively treat a larger range of clinical applications. FDA cleared Class 4 in 2016.                                                          …

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Laser Therapy and Peripheral Neuropathy

 

In December of 2017, a diabetic patient sought laser treatment for autonomic digestive neuropathy. The patient had been told by medical doctors that the condition was incurable. Thee doctors insisted the only option was medications to manage the ongoing pain and agonizing digestive symptoms. After some success with laser treatment by a podiatrist for peripheral neuropathy in their feet, the patient requested treatment for the autonomic neuropathy and was referred to a chiropractor that used Lumix superpulsed lasers.

Here are the patient’s words about the experience:

 “I found little hope until I found Lumix laser therapy. After twelve, 15-minute treatments, my nausea ceased, my blood sugar levels began to stabilize and the debilitating abdominal pains that prevented me from holding my baby girl during the first two years of her life were gone. That was the day my wife cried. It was a day I will never forget. Lumix laser therapy changed my life.”

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How Laser Therapy Improves Athletic Performance

Laser therapy improves athletic performance through conditioning and preventing injuries by strengthening muscles, ligaments and tendons. Athletes have different lifestyles and needs from the average patient. Athletes constantly depend on their bodies. They depend on them for support in winning matches against a competitor. Athletes push themselves to the next level of performance. All of which takes a huge toll on the body.No matter which sport you consider, there is considerable stress exerted on multiple body areas. These stressors are specific to the sport or sports the athlete participates. Through safe conditioning and utilizing laser therapy the participant can avoid injuries and stay in the game.Tennis players rely on the power behind their serve and return. This depends largely on strength of the shoulders, chest, arms, elbows, wrists and hands. Preconditioning around the rotator cuff, for example, with a therapeutic laser, generates stronger tissue to supports the shoulders. This treatment goes a long way for improving strength and endurance. It also reduces the risk of an injury that could sideline them.Runners depend largely on their legs, knees, ankles and feet. When working effectively, the trauma sustained from pounding a track is reduced. Be it short or long distances. That’s why many Olympians and professional sports teams find laser therapy improves athletic performance. Over and over, lasers prove helpful for enhanced endurance, speed, strength, and flexibility.  How Does Laser Therapy Improve Athletic Performance? Light emitted from adequately powered superpulsed lasers creates cellular transformation deep within tissues. Photobiomodulation is another term used to describe this process. Allowing oxygen and nutrients to replenish sick or injured cells, the laser light also fortifies healthy bodily cells. This process of absorption is similar to photosynthesis. Think of the way light has a regenerative effect on plant life. It absorbs regenerative and nutritive energy from the sun.Many athletes succumb to using performance enhancing drugs. They believe the supplements make them stronger. Or give them a competitive edge. But that edge often comes with a hefty cost, from disqualification to permanent injury. However, laser therapy improves athletic performance by creating similar advantages naturally, while posing zero risk of disqualification. Does Laser Therapy…

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