High Intensity Laser (HIL) technology is based on the well-known principle of low level laser therapy (LLLT). Unlike the LLLT the high power and choice of the right wavelength of the HIL allow for deep tissue penetration and through a natural process of energy transfer (biostimulation and photomechanical effect) it significantly speeds up healing and regeneration. HIL offers a powerful and non-addictive form of pain management and is effective especially in treatment of sport injuries, e.g. muscle strain or joint distortion, and back pain caused by e.g. disc hernia or disorders in the cervical region.
Learn moreWatch how the therapy is done
Treatment of Patients with Musculoskeletal System Disorders with Combined Therapy – High Intensity Laser and Radial Shockwave Therapy
High Intensity Laser Therapy in Sporting Traumatology and Pain Therapy
Effect of High-intensity Laser Therapy in the Management of Myofascial Pain Syndrome of the Trapezius: A Double-blind, Placebo-controlled Study
Short-term Effects of High-intensity Laser Therapy on Frozen Shoulder: A Prospective Randomized Control Study
Radial Pressure Waves vs High Intensity Laser Treatments in Acute Ankle Sprains
Comparison of High-Intensity Laser Therapy and Ultrasound Treatment in the Patients with Lumbar Discopathy
Long-term Effect of High-intensity Laser Therapy in the Treatment of Patients With Chronic Low Back Pain: A Randomized Blinded Placebo-controlled Trial
Analgesic Effect of High Intensity Laser Therapy in Knee Osteoarthritis
Enter the same therapy parameters for HIL and LLLT and see how long the treatment will take.
The calculator is a tool to compare the main advantage of therapy using the High Intensity Laser (HIL) as compared to Low Level Laser Therapy (LLLT) – the significantly stronger effect thanks to high power in a much shorter therapeutic time.
High Intensity Laser offers selecting power of up to 12 W as compared to LLLT which offers 24 times lower maximum power, 0,5 W.
Dosage is the overall energy delivered per square cm. For High Intensity Laser the maximum dosage can be set to 200 J/cm2.
To calculate the area in square cm define size of a and b (in cm) of a rectangle as shown below. Then multiply a by b and you get the desired area.
Note: 1 inch = 2,54 cm
BTL High Intensity Laser helped us in prevention and treatment of acute disorders...
Physiotherapist of the Czech national football team at Euro 2016
The High Intensity Laser increased joint mobility by 45 degrees. After the first treatment!
Deputy Director in Neotonus-Invest LLC, Consulting Physician
Why do we use BTL devices? They are safe, easy to use, failure-free, offer a wide range of treatments and have a modern and aesthetic design.
Rehabilitation Center
BTL High Intensity Laser gives excellent results in both acute and chronic conditions.
Physiotherapist, VIP Physics
The results were spectacular and rehabilitation rapidly faster.
Physiotherapist
BTL High Intensity Laser is useful in treating deep musculoskeletal pathologies. Patients are happy as they recover rapidly.
Consultant Spine & Orthopaedic Surgeon
Unlike surgery, treatment with the use of the High Intensity Laser and/or Shockwave therapy … makes it possible to speed up rehabilitation.
Associate Professor, Physical Therapist
Brazilian players were treated with BTL High Intensity Laser at Copa America, 2015.
Team Physiotherapist
BTL-6000 High Intensity Laser is a trusted device used at the ATP World Tour by Paul-Henri Mathieu.
Professional Tennis Player
Czech athletes were taken care of using the BTL High Intensity Laser.
Head Team Physician
I can say that the most effective was the High Intensity Laser...
National Sports Team Medical Center at Prague Military Hospital
We have to focus not only on regeneration and compensation, but mainly on prevention of injuries.
Alpine Ski Racer
By using the High Intensity Laser and Shockwave therapy in patients … we achieve a stable clinical effect…
Traumatologist-Orthopedist