By Holly Tanner, PT, DPT, MA, OCS, WCS, PRPC, LMP, BCB-PMD, CCI on Wednesday, 18 June 2014
Category: Institute News

Fascia

Fascia is finally getting proper respect, rather than being that "white stuff" that was cut away during anatomy labs. Researchers continue to explore the cellular mechanisms and the total body functions that require healthy fascial layers. Fascial planes and connections are increasingly considered in strengthening programs as well, rather than only being considered in the design of stretching or flexibility programs. Tom Myers author of Anatomy Trains, and student of Rolfing founder Ida Rolf, contributes not only to the anatomical knowledge of therapists, but also to the functional applications of fascia in daily life and in exercise regimens.

Within the world of exercise training and physical fitness, muscles have often been considered in isolation, as is pointed out in this article written by Tom Myers in IDEA Fitness Journal. Yet muscles rarely work functionally as an isolated structure. Consider this fact when teaching pelvic floor muscle training. How many times have you instructed a patient to utilize thigh adductor muscles, exhale (respiratory diaphragm), or activate transversus abdominis to augment or facilitate the pelvic floor? While there is value in requesting that a patient focus on or emphasize a pelvic muscle contraction, or in teaching a patient to quiet dominant abdominals or gluteals, rarely do we find it effective to teach total isolation of a muscle in functional re-training.

Mr. Meyers uses anatomical information to drive the emphasis on fascial training, pointing out that there are ten times more sensory nerve endings in fascia than in muscles, and describes fascia as requiring our knowledge of accurate anatomy to engage the fascial planes as an "organ system of stability." Myers makes the case that fascia responds better to variation than to a repeated program when aiming to build fascial resilience. Varied tempo, varied loads, and varied movements are key to improving fascial health and efficiency. Integration of kinesthetic awareness via the fascial tissues rather than the muscles is also an important concept that is discussed- bringing awareness to movement through skin and superficial tissue movement rather than directing attention only to joint motion is another concept proposed for advancing movement training programs.

Considering these concepts may or may not change how you are currently designing your patients' fitness and rehabilitation programs, depending upon how you were trained and upon how you have continued to access continuing education and research. Breaking old habits and re-learning how to train movement does take effort on the part of the rehabilitation therapist, and fortunately, many instructors are integrating concepts of fascial planes into coursework. One such course that focuses clearly on integrating fascial training into sports-specific rehabilitation is Biomechanical Assessment of the Hip and Pelvis taking place this August in Arlington, Virginia. Instructor Steve Dischiavi, physical therapist and athletic trainer to the Florida Panthers, offers an excellent course that includes exercise concepts specific to the idea of fascial "slings" and that is sure to add some new exercises to your tool bag.