INNOVATIVE AND AFFORDABLE TREATMENT THAT WORKS
Multi Radiance Medical Super Pulsed Lasers feature preprogrammed treatment settings, making it easy for patients to get safe and effective pain relief. The cordless models are lightweight, portable and have a long-lasting battery ideal for at-home treatments.
Multi Radiance Medical Super Pulsed Laser technology has been validated in vitro, in vivo, in controlled laboratory experiments and in clinical practice. Our multiple wavelength technology has been clinically proven to provide optimal treatment, safe for all skin pigmentation, without raising skin temperatures to dangerous levels—unlike Class IV and Class 3B lasers.
The perfect laser for personal home use.
Safe, portable, affordable, and easy to use.
Drug-free option to enhance patient recovery and control pain.
The cordless, portable PainAway Post-Op™ laser provides enhanced post-operative care for patients in the comfort of home.
The personal use sports laser for champions and those who aspire to be.
The portable GameDay Laser’s preprogrammed settings make it easy for athletes of all ages and skill levels to Prepare, Perform and Recover faster when training and competing.
Shorten treatment times with 50W of power and 5X more area than standard emitters.
DISCOVER WHY MULTI RADIANCE SUPER PULSED LASER TECHNOLOGY IS SUPERIOR
The Pillars Paper is an industry ﬁrst for therapeutic lasers. It validates Multi Radiance Super Pulsed Laser Technology in vitro, in vivo, in controlled laboratory studies and in clinical studies. The Paper documents key laser parameters such as the depth of penetration time proﬁle, thermal time proﬁle, and peak activation time proﬁle of each wavelength. Finally, the Pillars Paper conﬁrms a bi-phasic dosimetry curve for treating acute and chronic conditions.
The Comparative Pillars Paper is another therapeutic laser industry ﬁrst that compares the safety, efﬁcacy, and effectiveness of Multi Radiance Super Pulsed Laser Technology to Class 3B and Class 4 therapeutic lasers. The studies contained in this paper clearly establish the superiority of Multi Radiance technology and warns of the unintended consequences that using high powered lasers can have on desired patient outcomes.Download More
The Multi Radiance Cascade Energy Effect™ uses a sophisticated software algorithm to synergize multiple wavelengths that allow the body to have the optimal absorption of photons. LaserSweep™ changes the number of Laser pulses emitted per second to scan target tissue from superficial to deep, preventing bodily adaptation and resilience to its therapeutic effects. This, combined with the global experience and outstanding educational capabilities of Multi Radiance Medical, makes the decision of buying a therapeutic Laser easy. We have the "know-how" and even more importantly, the "how-to" . We are recognized as the best in converting that knowledge into clinical skill sets for you.
Multi Radiance Technology Explained
Since its beginnings as a space age invention over 30 years ago, our technology was designed and refined specifically for non-invasive applications. It synergistically matches a unique and proprietary combination of radiances, each designed for a particular pathway in the blue, red, and near infrared light window.
Proven, Powerful, Safe and Effective
Multi Radiance Super Pulsed Lasers use innovative technology to deliver light energy to tissue, which reduces pain and increases circulation.
Cascading Energy Effect™ Multi Radiance Super Pulsed Lasers combine three clinically proven wavelengths to create the Cascading Energy Effect™, allowing for deeper penetration and enhanced absorption of light.
Super Pulsed Laser
The super pulsed laser (905nm) produces high powered light in billionth-of-a-second pulses. The power of each pulse drives the photons deep into the target tissue. Multi Radiance Medical’s technology’s power of up to 50,000mW creates a high photon density, strongly reducing pain and improving micro-circulation.
Pulsed broad band infrared emitting diodes (875nm) penetrate shallower tissue depths than the laser but provide a broader spectrum of coverage
Pulsed Red LEDs
Pulsed red light (660nm) penetrates shallower depths
Static magnetic field
Static magnetic field keeps ionized molecules of tissue in a dissociated state, enhancing the body’s potential to absorb energy.
Electrical stimulation (LaserStim)
LaserStim delivers electrical impulses and light through the skin and tissue, with the help of our exclusive TARGET (Treatment Area Recognition and Guidance Enhanced Technology)
Most popular questions
What is laser treatment?
L.A.S.E.R. (Light Amplification by Stimulated Emission of Radiation) is a name for a type of intense radiation of the light spectrum. A laser is a beam of light in which high energies can be concentrated. Laser light has unique physical properties, which other types of light do not have. These are coherence and monochromaticity. These are what makes laser light is so effective compared to other kinds of light in the field of pain reduction and healing. Laser treatment (also known as phototherapy and low level laser therapy) involves the application of low power coherent light to injuries and lesions to stimulate healing and reduce pain. It is used to increase the speed, quality and strength of tissue repair, resolve inflammation and give pain relief. Low level laser technology has been found to offer superior healing and pain relieving effects compared to other electrotherapeutic modalities such as ultrasound, especially in dealing with chronic problems and in the early stages of acute injuries. Low level laser technology is a complete system of treating muscle, tendon, ligament, connective tissue, bone, nerve, and dermal tissues in a non-invasive, drug-free modality.
How does laser therapy work?
The effects of low level laser treatments are photochemical. Photons enter the tissue and are absorbed in the cell’s mitochondria and at the cell membrane by chromophores. These chromophores are photosensitizers that generate reactive oxygen species following irradiation thereby influencing cellular redox states and the mitochondrial respiratory chain. Within the mitochondria, the photonic energy is converted to electromagnetic energy in the form of molecular bonds in ATP (Adenosine Triphosphate). In order to interact with the living cell, laser light has to be absorbed by intracellular chromophores. Cell membrane permeability increases, which causes physiological changes to occur. These physiological changes affect macrophages, fibroblasts, endothelial cells, mast cells, bradykinin and nerve conduction rates. The clinical and physiological effects are obtained by the way in which tissues absorb laser radiation. This tissue absorption depends on the wavelength of the beam itself and the power to ensure that the laser energy reaches the target tissue at the necessary clinical levels. The improper wavelength of laser light would not penetrate into the tissue to reach the target area. Furthermore, even if one has a laser with the proper wavelength, if the device does not have enough power to drive the energy into the tissue, the target area may not realize the potential benefits. Each type of laser emits light at a very specific wavelength which interacts with the irradiated tissue. It also acts in particular with the chromophores present in the tissue, but in a different way. A chromophore, intrinsic or extrinsic, is any substance, colored or clear, which is able to absorb radiation. Among the endogenous chromophores are water and hemoglobin, nucleic acid and proteins. Among the exogenic chromophores are porphyrins and hematoporphyrins, which are injected into the organism. These are described as photosensitizers because they fix themselves to the tissue making it photosensitive at specific wavelengths.
Is laser therapy safe?
Yes, Multi Radiance Medical laser treatments are completely safe, drug-free and non-invasive. Multi Radiance Medical devices have an FDA Clearance and CE certification, a mark of European safety and legal compliance. However, since all lasers produce a high intensity light, one should never shine the laser directly into the eye. Also, you must follow the manufacturer’s instructions and be aware of all contraindications. Read the device operating and protocol manuals before usage. It is recommended that the laser device not be used directly on any neoplasmic tissue. Pregnant women should refrain from laser treatments applied directly to the abdomen. Also people with pacemakers should not use laser treatments near the heart.
What about Visual Safety? Are my eyes safe when using the laser?
A person should never look directly at a laser emitter or any similar light source for more than 30 seconds. Multi Radiance Medical laser devices are designed to low power specifications with maximum attention to eye safety. Whether or not you decide to use the safely goggles is largely the matter of personal preference and comfort.
Is it safe to use the laser over artificial joints or metal implants and hardware?
The Multi Radiance Medical Super Pulsed Laser is only contraindicated in the following instances: 1) Directly into the eyes. 2) Pregnancy. 3)Carcinoma. 4)Fever (body temperature higher than 100.4°F/38°C. 5) Over hemorrhages. 6) In the vicinity of a pacemaker. The Multi Radiance Super Pulse Laser is not contraindicated for use over an artificial joints or metal implants and hardware.
Does low level laser technology cause heat damage or cancer in the tissue?
Absolutely not. The average power and the type of light source (non-ionizing) laser devices use do not permit heat-damage or carcinogenic (cancer-causing) effects. Due to increased blood circulation there is sometimes a very minimal sensation of warmth locally.
How deep into the tissue can laser light penetrate?
The level of tissue penetration by the laser beam depends on the beam’s optical characteristics, as well as on the concentration and depth of the chromophores, which are absorbed at different percentages according to the laser light’s wavelength. For instance, water absorbs almost 100 percent of the laser irradiation at 10,600 nanometers, the wavelength of a CO2 gas laser. That is the reason why this type of laser wavelength is used in surgical applications. Other factors affecting the depth of penetration are the technical design of the laser device and the particular treatment technique used. There is no exact limit with respect to the depth penetrated by the light. The laser light gets weaker the further from the surface it penetrates where eventually the light intensity is so low that no biological effect from it can be measured. In addition to the factors mentioned, the depth of penetration is also contingent on tissue type, pigmentation and foreign substances on the skin surface such as creams or applied oils. Bone, muscles and other soft tissues are transparent to certain laser lights, which means that light can safely penetrate these tissues. The radiation in the visible spectrum, between 400 and 600 nanometers, is absorbed by the melanin, while the whole extension of the visible which goes from 420 to 750 nanometers is absorbed by composite tetrapyrrolics. In the infrared, which covers about 10,000 nanometers of light spectrum, water is the main chromophore. Fortunately, there exists a narrow band in the light spectrum where water is not a highly efficient chromophore, thereby allowing light energy to penetrate tissue that is rich in water content. This narrow band, which extends approximately from 600 to 1,200 nanometers, is the so-called “therapeutic window”. That is the reason why the lasers in the market today have wavelengths within the 600-1,200 nanometer limit. The penetration index is not at the same level throughout the therapeutic window. In fact, lasers in the 600 to 730 nanometer range have less penetration and are more suitable for superficial applications such as in acupuncture methodologies.