Reliable
laser technology
Useful in dental offices around the world.
Dermatology
SMARTMDR
The Lasotronix diode laser offers an exceptionally broad range of dermatological and aesthetic applications, supported by a wide selection of dedicated treatment accessories. Thanks to its five complementary wavelengths (405 nm, 635 nm, 980 nm, and 1470 nm), the system delivers outstanding versatility in both therapeutic and aesthetic procedures.
Designed with clinicians in mind, our diode laser features simple, intuitive operation and an extensive, customizable database of treatment protocols, allowing procedures to be easily modified and assigned to individual patients. This ensures consistent results while maintaining full flexibility for personalized therapies.
The advanced laser technology enables high-precision treatments with minimal tissue invasiveness, promoting faster healing and improved patient comfort. Rapid diagnostic capabilities, including inflammation and bacterial detection, support accurate decision-making and optimized treatment planning.
The platform effectively reduces bacterial load without the use of antibiotics, making it an ideal solution for acne therapy and inflammatory skin conditions. Laser-assisted procedures significantly reduce pain and discomfort, resulting in stress-free treatments and a positive patient experience.
With its low operating costs, long-term reliability, and unmatched multifunctionality, Lasotronix diode laser stands as a future-ready solution for modern dermatology and aesthetic medicine — combining innovation, efficiency, and clinical excellence in one powerful platform.
A brief history of laser therapy
The sun and sunlight have always been associated with health, well-being and vitality. Even in ancient Greece and ancient China, staying in the sun and looking at it was recommended as part of therapy. There were special temples – called ‘hospitals’ – with rooms painted in different colors. Patients were housed in appropriate rooms depending on the disease they suffered from. In India, before exposing a sick person to the sun, their body would be lubricated with vegetable oils.
At that time, there was no scientific evidence to support the beneficial effects of light on health, but it was considered an indisputable fact and was effectively used in therapy. It is now known that the human body converts light into electrochemical energy, which activates a number of biochemical reactions in cells causing a therapeutic effect.
The use of solar radiation for treatment was also popular in the 19th century. The discovery of the benefits of heliotherapy is credited to Danish physician Niels Ryberg Finsen, who researched ways to use light in medicine, for which he received the Nobel Prize in 1903. He suggested sun treatment for skin diseases (including lupus vulgaris). In the 20th century, artificial radiators like therapy lamps and other devices, emitting different types of radiation, were introduced. Before the invention of certain drugs (including antibiotics), irradiation, ultraviolet radiation in particular, was widely used. Nowadays, so-called phototherapy refers to the use of specific, narrow ranges of radiation and the use of photosensitizers. In the 1960s, laser therapy – irradiation with laser radiation – began to be used.
Practitioners and researchers started exploring clinical applications of CO2 and Nd:YAG medical lasers for oral soft tissue procedures in the 1980s, when the first pulsed Nd:YAG laser designed specifically for the dental market was released. In 1997, the FDA approved the first true Er:YAG laser for hard dental tissue, followed a year later by Er,Cr:YSGG laser. At the end of the 1990s, semiconductor-based diode lasers also appeared on the market.
In dentistry, lasers are used in periodontics, endodontics, dental surgery, diagnostics, teeth whitening, root canal sterilization, etc. Some dentists use lasers to, for example, stop bleeding in the treatment area. Stimulation with a laser can speed up the healing process of mucosal lesions. These devices are also often used for frenectomy. This type of procedure is less invasive and painful for the patient, and the wound heals much faster. The laser has anti-inflammatory, analgesic, and anti-swelling effects, as well as promotes healing and stimulates microcirculation. Performing laser surgery causes no bleeding and requires little or no anesthesia.
The word ‘laser’ is the acronym for Light Amplification by Stimulated Emission of Radiation.
Why is there no single wavelength?
SMARTMDR diode laser represents a new benchmark in advanced laser technology, combining five perfectly complementary wavelengths — 405 nm, 635 nm, 980 nm, and 1470 nm — into one exceptionally versatile system. This unique configuration makes SMARTMDR one of the most comprehensive diode lasers available, seamlessly adaptable to the needs of every modern dental practice.
Equipped with 1470 nm and 980 nm wavelengths, SMARTMDR is designed for highly effective laser lipolysis, enabling precise and controlled fat tissue reduction. At the same time, it excels in soft-tissue surgery, offering outstanding performance in incision, excision of mucosa and soft tissues, as well as reliable blood coagulation with minimal trauma.
In the field of aesthetic medicine, the 980 nm wavelength gently heats the skin, helping to open pores and prepare tissue for advanced treatments. The 635 nm wavelength delivers powerful biomodulation, stimulating cellular activity responsible for the production of collagen and elastin fibers, supporting skin regeneration and rejuvenation.
The 405 nm wavelength further enhances the device’s capabilities by targeting acne-causing bacteria, while also enabling advanced diagnostics, allowing precise detection of inflammation zones and bacterial infections within soft tissues.
Specifications:
- Laser type: diode
- Output power: 15 W for 1470 and 980 nm
- Output power: 0.5 W for 405 nm, 635 nm
- Screen: color, touch screen
- Fiber diameter: 200 μm, 320 μm, 400 μm, 600 μm
- Weight: 2.5 kg
STANDARD SET
- Safety glasses for doctor 980nm/1470 nm(Part no.: 260016)
- Safety glasses universal for 405nm, 635nm, 808nm 980nm and 1064nm (Part no.: 260005)
- Optical fiber in silicone jacket (320μm fiber core, 2.5m long, standard SMA 905 connector) (Part no.: 250010)
- Handpiece for: microsurgery, endodontics, periodontology (Part no.: 170027.02)
- Needle tip (27mm length x 13mm curved – compatible with 200/320µm fiber) (Part no.: 560075.01)
- Needle tip (35mm length x 20mm curved – compatible with 200/320µm fiber) (Part no.: 560075.03)
- Carbide Fiber Optic Scribe (Part no.: 690002.01)
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Pursuant to Article 13 of the General Data Protection Regulation of 27 April 2016 (Official Journal of the European Union EU L 119 of 04/05/2016) hereinafter referred to as “GDPR”, I hereby inform that:
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