Recently Released: Double-Blind, Randomized, Placebo-Controlled Trial Study About The Positive Effect Of Low-Level Laser (Cold Laser Therapy) In Knee Osteoarthritis
A double-blind, randomized, placebo-controlled study was conducted to find out whether Low level laser therapy (cold laser therapy) actually increases circulation and blood flow in the knee and decreases knee pain in patients with osteoarthritis of the knee. Patients with mild to moderate knee osteoarthritis were randomly separated into two groups. One group received cold laser treatments the other group received placebo cold laser therapy. The placebo group received knee treatments from an ineffective laser that had the same appearance as the laser that worked. Patients were examined before the study, 2 weeks into the study, immediately after the study and 2 months after completing the study. As part of the examination thermography, knee flexion and knee joint circumference were measured. Knee joint pressure sensitivity along with the visual analog scale (pain scale) were also measured and recorded.
The results showed that the group treated with low level laser therapy (cold laser therapy) felt a significant improvement in knee pain, the knee circumference reduced (due to swelling reduction), pressure sensitivity decreased, and knee joint flexion increased.
On the other hand, the group treated with the placebo laser experienced NO change in pain, and there wasn’t an increase in joint flexion. The placebo group also experienced no significant decrease in knee circumference (there wasn’t a decrease in swelling), or a decrease in pressure sensitivity.
The results of this study clearly demonstrate that the use of low-level laser therapy (cold laser therapy) reduces pain in patients suffering with Knee Osteoarthritis. Additionally, low-level laser therapy improves microcirculation in the treated area, reduces swelling, as well as helps increase knee joint mobility.
If you suffer with knee pain, swelling and tenderness due to osteoarthritis then Dr. Schnee’s Cold Laser Knee Program is considered a complete treatment plan that combines low-level laser treatments (cold laser treatments), non-weight bearing exercises, and other modalities that promote rehabilitation of the knee. Every patients program is different depending on whether they suffer from knee pain due to arthritis, ‘bone on bone’, meniscus tears, bursitis, tendonitis, Baker’s Cyst, post surgical arthroscopic knee pain, or a combination of the listed conditions. If you live in the Dallas/Fort Worth area call our office at 214- 596-1051 to find out if you’re a candidate for Dr. Schnee’s Cold Laser Knee Program.
Or if you would like more information about Dr. Schnee’s Cold Laser Knee Program fill out the form on the right side of this screen to get your FREE report mailed to you entitled, Amazing Cold Laser Therapy the Missing Link to Knee Pain Relief! or visit http://www.helpmykneepain.com
At the DFW Spine & Joint Center we also have programs available that can help most musculoskeletal conditions such as low back pain, neck pain, shoulder pain, sciatica, disc and nerve problems, hip, ankle, foot, hand and wrist pain, etc…
Dr. Robert Hanson, D.C. an associate at the DFW Spine & Joint Center, offers non-surgical cold laser therapy programs that help treat neck and back pain from herniated, bulging, degenerated discs, stenosis, and pinched nerves in the low back and neck.
Dr. Alexandra K. Schnee, B.S.,D.C.,-Your Cold Laser Therapy Doctor for the Non-Surgical Treatment of Knee Pain for the Dallas and Fort Worth, Texas Area-“ Dr. Schnee’s Cold Laser Knee Program Has Been Helping People with Knee Pain and Joint Pain in the Dallas-Fort Worth Area Since 2001.”
Cold Laser Therapy Proved To Help Osteoarthritis in Knees | Dallas-Fort Worth
Dallas Cold Laser Therapy Doctor,Dr. Schnee, DC shares the results of a double blind study on Cold Laser Therapy and its affect on Knee Osteoarthritis
Hegedus B, Viharos L, Gervain M, Gálfi M.. Photomed Laser Surg. 2009 Aug;27(4):577-84. PMID: 19530911 [PubMed - in process]</small>
