Theralase – Healing at the speed of light™

Therapeutic Lasers utilize light energy to get deep into the tissues to heal what has been injured. Theralase utilizes superpulsed technology which maximizes depth of penetration and reduces treatment times. Theralase therapeutic lasers are used to treat the Toronto Blue Jays, Maple Leafs and numerous other professional sports teams, colleges and universities.

Laser Benefits

• Non-Invasive
• No Side Effects or Pain
• Extremely Safe
• Highly Effective for Patient (>90% efficacy)
• Superior Alternative to: Analgesics, NSAID’s, Other Medications, Other Modalities
• Reduces Need for Surgery
• Virtually No Contra-Indications

Therapeutic Laser Biological Effects

Acute and Chronic Pain relief – Production and release of beta-endorphins (these are morphine-like substances produced by various cells in the body that inhibit the sensation of pain)
Faster Wound Healing – Laser light stimulates fibroblast development and accelerates collagen synthesis in damaged tissue.
Reduced Fibrous Tissue Formation – Laser light reduces the formation of scar tissue following tissue damage from: cuts, scratches, burns or post surgery.
Anti-Inflammatory Action – Laser light reduces swelling caused by bruising or inflammation of joints to give enhanced joint mobility.
Increased Vascular Activity – Laser light induces temporary vasodilation increasing blood flow to damaged areas.
Stimulated Nerve Function – Slow recovery of nerve function in damaged tissue can result in “dead” limbs or numb areas. Laser light speeds the process of nerve cell reconnection to bring the numb areas back to life.
Fracture healing – Stimulating effect on the formation of callous at fracture site.

Some common treated conditions include:

• Arthritis – Osteo and Rheumatoid
• Back pain, sciatica
• Frozen shoulder
• Tendonitis
• Bursitis
• Plantar Fasciitis
• Disc injuries
• Knee pain
• Sprains & strains
• Carpal Tunnel Syndrome

Why does Blue Jays Roy Halladay choose Theralase Laser Treatment? Read an informative article here.