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CE standard -
Manufacturing license from the General Directorate of Medical Equipment of Iran
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2 years warranty and 10 years after sales service
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Laser therapy training book
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Hours of video and audio training content
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Knowledge-based physiotherapy equipment designer and manufacturer
High-power laser 885G Laser 885G
The 885G is a high power laser device with maximum output power of 15 watts and possibility of choosing from different range of power starting from 100 mW, therefore, covering low-power laser modulation. Simultaneously the ability to penetrate both in deep and surface tissues has been made possible by 885G with two wavelengths of 810 and 980 nm. Laser radiation in this device includes different modes Continuous, Pulsed, Burst and Single. The two spacers with diameters of 25 and 35 mm are provided for easier usage that can be connected to the Handpiece to increase irradiation area and subsequently reduce treatment time and energy density.
About Laser Therapy
LASER therapy or in other words Light Amplification by Stimulated Emission of Radiation is a non-invasive and useful treatment method that has been considered as a highly effective modality in physiotherapy clinics. The infrared electromagnetic energy enters the body through laser photons. With increasing tissue temperature, blood circulation and cell metabolism, the recovery process will be faster.
Treatment Applications
High-power laser can cause an increase in the speed of tissue healing and regeneration, as well as pain management through a natural energy transfer process (bio-stimulation and photomechanical effects). Additionally, high-power lasers have been proven to be highly effective in treating sports injuries such as muscle strains or joint misalignments, as well as painful conditions in the neck area resulting from herniated discs or other painful disorders. They have also been known to:
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Reduce pain
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Improve nerve function
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Increase blood flow rate
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Accelerate tissue healing and cell growth
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Decrease the likelihood of scar tissue formation
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Speed up wound healing
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Increase metabolic activity
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Reduce inflammation
Advantages
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Red light guidance with a wavelength of 650nm is used to identify the treatment area.
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The high-resolution graphical display and capacitive touch technology provide convenience.
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The device software can be updated easily by using USB port and can also be connected to Wi-Fi.
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Pulse mode for quick pain relief, which stimulates photomechanical activity in tissues using near-infrared waves of around 1000 nanometers, resulting in fast pain relief.
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The maximum output power and average power are displayed simultaneously.
Standard Accessories
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Laser therapy training book
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Spacers : Large(35mm)
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Spacers : Small (25mm)
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Footswitch
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Interlock
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Safety goggles (2 pieces)
Optional Accessories
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Trolley
GUI
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The appropriate angle of the device's display provides easy usability for therapists. The therapist can easily adjust the required settings while being familiar with the device without changing the color and transparency of the display in both standing and sitting positions.
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Predefined treatment protocols are accurate and effective, based on credible scientific articles.
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Guide images to determine the exact location of the Handpiece and display the patient's position during treatment.
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Providing a wide range of applications for the device to facilitate communication between therapists and patients.
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Possibility to update the device software by connecting it to Wi-Fi.
Technical Specifications
| Wavelength(nm) | 980, 810 |
|---|---|
| Power (W) | Max 15 |
| Frequency (Hz) | 1-100 |
| Modes | Continuous |
| Preset Protocols | 57 |
| Display | Full color, multi-touch, 10-inch screen |
| weight (Kg) | Without trolley 5.5 |
Simultaneous Treatment of Deep and Surface Tissues with Two Wavelengths
The lasers with wavelengths between 600-1400 nanometers have biological and therapeutic effects. Wavelength is one of the influential factors on laser penetration depth. The laser penetration depth in wavelengths within this range varies. Wavelengths of 810, 904, and 1064 nanometers have the greatest penetration depth, among which the wavelength of 810 nanometers creates a greater penetration depth due to its lower absorption by skin water, hemoglobin, and melanin. On the other hand, the wavelength of 980 nanometers has low penetration depth but high absorption in skin water and melanin. Simultaneous use of wavelengths with low and high penetration depths in a laser device can stimulate
surface pain receptors and deeper tissues in a session and optimize the therapeutic effect.
