What is MLS Laser Therapy?
MLS Laser Therapy
MSL Laser Therapy:
- Non-invasive treatment using focused laser energy.
- Targets and treats various skin conditions.
- Safe, effective, and painless.
- Offers quick results with minimal downtime.
- Improves skin texture and reduces wrinkles.
- Treats conditions like acne scars and pigmentation.
- Gentle yet powerful solution for enhancing skin health and appearance.
Effectively Treating Pain and Inflammation
It’s benefited our patients because it requires less time for the healing process.
And that’s what it’s all about: getting patients better as fast as possible and having confidence as a doctor that you’ll improve their quality of life. I had one patient who had five failed back surgeries, and now he looks like he never had pain.
What we’re finding is that 90% of our patients are achieving almost 90% relief of their symptoms, which is unheard of. It is the very latest in medical technology, and we are proud to offer our patients something no one else can.
Management of Chronic Pain
MLS Laser therapy, favouring the production of NLRP 10, can be applied in the treatment of many diseases in which it is useful to reduce the inflammatory component. The decrease of inflammation leads to a normalization of vascular function and thus a decrease of edema. Obviously, the reduction of inflammatory mediators and edema implies a reduction of pain symptoms.
Treating Pain and Inflammation
The MLS Laser therapy system is used with the aim to treat: aches and pains, inflammations, traumas, hematomas and to obtain a simultaneous action on pain, inflammation and oedema, overcoming the limits of traditional laser therapy.
Photochemical Effects
Direct transfer of energy to the biological sublayers (endogenous or exogenic chromophores).
Enzymatic activation
Increase in ATP production
Modulation of cellular metabolism
Effect on pain perception threshold
Photothermal Effects
Photothermic interaction is based on the conversion of option radiation into thermal energy which, at a microscopic level, occurs through the inelastic encounter between excited molecules following the absorption of photons.
Increase in circulation
Increased supply of oxygen and nutrients
Photomechanical Effects
The absorption of energy involves the formation of mechanical waves.
Production of an extracellular matrix (important in tissue repair & regeneration)
Acceleration of lymphatic peristalsis
Re-absorption of edemas
Reactivation of microcirculation
Effects on Cells
Increase in ATP synthesis
Increase in the production of RNA
Increase in cellular proliferation
Induction of differentiation processes
Release of growth factors (fibroblasts) and other substances
Increase in the production of molecules of the extracellular matrix (fibroblasts & condrocytes)
Effects on Tissue
Modulation of the inflammatory processes
Remodeling of the extracellular matrix
Induction of lymphatic and vascular regeneration
Stimulation of the endothelial function
Reduction of the edema re-absorption times
Prevention against the formation of scar tissue and hyperkeratosic lesions
Systemic Effects
Analgesic effects
Blocking of pain stimulus conduction
Anti-inflammatory and anti-edema effect
Hyperemia and “wash out” of the pro-inflammatory molecules
Biostimulating effects
Increase in the supply of nutrients, oxygen and growth factors
Cellular function activation