Soft tissue injuries can be debilitating and frustrating. Graston Technique® (GT) therapy is successful in effectively treating all soft tissue conditions, whether they are chronic, acute or post-surgical. GT therapy can help you enjoy life again.
Our unique technique and instruments enable the treatment of scar tissue and fascial restrictions during rehabilitation that allows for faster rehabilitation and with greater success when the goal is restoring range of motion, eliminating pain, and restoring normal function.
Here is list of some of the most common conditions treated with Graston Technique® therapy.
The primary benefit of Graston Technique® therapy is relief. These are some of the ways we help make that possible.
Graston Technique® therapy will not only accelerate your rehabilitation but you’ll be able to continue working, running, lifting, swimming, training…
Graston Technique® (GT) is a unique, evidence-based form of instrument-assisted soft tissue mobilization that enables clinicians to effectively and efficiently address soft tissue lesions and fascial restrictions resulting in improved patient outcomes.
GT uses specially designed stainless steel instruments with unique treatment edges and angles to deliver an effective means of manual therapy. The use of GT instruments, when combined with appropriate therapeutic exercise, leads to the restoration of pain-free movement and function. The instruments also are used diagnostically to assess the kinetic chain, in an efficient manner using the principles of regional interdependence.
Scar tissue limits range of motion due its negative impact on sensory motor firing rates and frequencies. Abnormal sensory inputs perpetuate a dysfunctional cycle of nervous system sensitization, pain and dysfunctional movement/motor output. GT offers a positive method of manual therapy that interrupts and breaks this cycle of pain and dysfunctional movement.
When viewed under a microscope, normal tissue can be organized in a couple of different fashions: dense, regular elongated fibers running in the same direction, such as tendons and ligaments; or dense and loose, irregular with fibers running in multiple directions. In either instance, when tissue is damaged, it will often heal in a fibrotic, haphazard manner and may appear radio-dense under diagnostic ultrasound. The tissue may show thickening, irregular organization or less precise margins as compared to non-injured tissues, which results in a restricted range of motion and, very often, pain and functional limitations.