HARLAS – Combine the most optimal therapy wavelngths 650nm/ 810nm/ 910nm/ 980nm/ 1084nm in one portable laser

HARLAS – Combine the most optimal therapy wavelngths 650nm/ 810nm/ 910nm/ 980nm/ 1064nm in one portable laser

It is important that the laser have wavelengths that fall within the so-called “THERAPEUTIC WINDOW”: HARLAS emits wavelengths from 650 nm to 1064 nm.

MULTI WAVELENGTH

Wavelengths selected to ensure the uniformity of energy distribution from the surface layers to the deeper tissue layers.

5 available wavelengths

650nm

The emitted energy is almost totally absorbed by hemoglobin, so it is particularly recommended as coagulant and antiedematous.

At this wavelength, skin melanin optimally absorbs the laser energy, ensuring a high dose of energy on the surface region, encouraging the anti-edema effect.

It is a great wavelength for tissue regeneration, wounds healing and fast cicatrization.

810nm

It is the wavelength with less absorption by hemoglobin and water and therefore reaches deep into tissues. It is however the closest to the maximum absorption point of melanin and therefore especially sensitive to skin color. The 810 nm wavelength increases enzyme absorption, which encourages stimulation of ATP intracellular production.

The 810 nm wavelength allows for rapid activation of the oxidative process of hemoglobin, carrying the correct amount of energy to muscles and tendons and promoting tissue regeneration.

910nm

Together with 810 nm, the wavelength with the highest tissue penetrating power.

The high available peak power allows for the direct treatment of symptoms.

The tissue absorption of this radiation increases fuel oxygen in cells. As with the 810 nm wavelength, the ATP intracellular production is stimulated and, therefore, promotes the regenerative processes of tissues, encouraging the natural healing processes.

The availability of pulsed and superpulsed sources, with high peak power and short impulses (hundreds of nanoseconds), makes the 910 nm the best efficiency in tissue depth, and reduced thermal and great antalgic effects.

The recovery of the cellular membrane potential interrupts the vicious circle of contracture-vasoconstriction-pain and resolves the inflammation.

Experimental evidence has proven the regenerative biological stimulus with trophic-stimulating effects.

980nm

It is the wavelength with the highest absorption by water and therefore, at equal power, it is the wavelength with higher thermal effects. The 980 nm wavelength is absorbed in large part by water in tissues and most of the energy will be converted into heat. The temperature increase at the cellular level generated by this radiation stimulates local microcirculation, bringing fuel oxygen to cells.

The application of laser energy at the 980 nm wavelength interacts with the peripheral nervous system activating the Gate-Control mechanism producing a rapid antalgic effect.

1064nm

It is the wavelength which, together with 980 nm, has the highest absorption by water and therefore, at equal power, it is the wavelength with high thermal effects. It is however the wavelength farthest from the point of maximum melanin absorption and therefore less sensitive to the type of skin complexion. This wavelength has a high absorption by water of tissues and consequently a good part of the energy is converted into heat.

High directionality of this wavelength reaches the affected area with the correct dose of energy.

A rapid antalgic effect with control of inflammatory processes and deep activation of the metabolic processes of cellular activities is obtained.

PHOTOMECHANICAL EFFECT OF HARLAS ON ATP

The HARLAS increases ATP production, significantly increasing the cellular regenerative ability (Fig. a-b-c-d-e-f).

The photomechanical effect and Superpulsation activate after 30,000 Hz of frequency.

Further biostimulation effect benefits are:

• increase in protein synthesis: new proteins replace damaged ones

• increased immune system defence: activation of macrophages and neutrophils, cells responsible for the body’s defences

• increase of keratinocytes and blood vessel cells: extension of tissue healing

• increase factors that regulate growth and cell proliferation: this takes place in fibroblasts, cells that are the foundation of most tissues of the body

• increase bone formation capacity: upregulates osteoblastic activity and downregulates osteoclastic activity.

In particular, it has been observed that it facilitates osseointegration of implants and speeds up tissue healing.

Information for effective, safe, and customizable therapy

BIOSTIMULATION

Bone regeneration, tissue regeneration, bedsores, ulcers (vascular ulcers of the malleolus, diabetic ulcers, etc.), sores, lesions, perilesional points, edema, post-distorting edema, bruising, chondropathies, biointegration of implanted materials.

PAIN THERAPY antalgic effect

Neck, shoulder, and back pain, back injury, sciatica, and general radicular syndromes of inflammatory and biomechanical origin. Articular and periarticular pain (direct and indirect antalgic effect for anti-inflammatory action). Inflammatory and degenerative neuritis and neuropathies. Muscle contractures and myofascial trigger areas.

POST-TRAUMATIC

SPORTS MEDICINE

Post-traumatic edema, traumatic origin capsular and ligamentous inflammation, sprains and muscle strain, distortions, contusions.

Based on the type of pathology being treated, on the modalities and doses, laser treatments increases the pain threshold through direct action on nociceptive nerve endings and by indirectly increasing endorphins. Moreover, the laser induces hyperemia and macrophage activation, reducing ischemia and local stasis of endogeneous nociceptive tissues, exclude the onset of other possible sources of pain and inflammation. Finally, the recovery of the cellular membrane potential interrupts the vicious circle of contracturevasoconstriction- pain and resolves the inflammation.

Several sources of evidence have demonstrated the biological regenerative stimulus produced by laser

irradiation. With the HARLAS the operator selects the frequency, intensity and duration of frequency of the various treatment phases to obtain similar anti-inflammatory, pain-relieving and trophic-stimulating effects.

ANTI-INFLAMMATORY

Acute tendinitis and relapse phases of chronic tendinopathy. Degenerative origin capsular and ligamentous inflammation. Acute inflammatory arthritis characterised by alternating

phases of spontaneous exacerbation and remission (excellent anti-edema effect), pain and phlogosis in degenerative chronic arthropathy (arthrosis, rheumatic, etc.), bursitis, plantar fasciitis.

LOCALIZED ANTI-EDEMA

Reduction of localized edema in the paravertebral area or in the area surrounding herniated discs.

REHABILITATION THERAPY

Post-surgery therapy, motor joint rehabilitation after removal of plaster casts or orthopedic surgery.

Wuhan Dimed Laser Technology Co., Ltd
Tel: +86 15827593150
Email: marketing@dimedlaser.com
Skype: 244067255@qq.com

www.dimedlaser.com