By RAMONA HORTON, MPT, DPT on Tuesday, 26 May 2015
Category: Guest Blog Post

Visceral Mobilization as a Component of Manual Therapy, Part 1

The following post was contributed by Herman & Wallace faculty member Ramona Horton. Ramona teaches three courses for the Institute; "Myofascial Release for Pelvic Dysfunction", "Mobilization of Visceral Fascia for the Treatment of Pelvic Dysfunction - Level 1: The Urologic System", and "Mobilization of Visceral Fascia for the Treatment of Pelvic Dysfunction - Level 2: The Reproductive System". Join her at Visceral Mobilization of the Urologic System - Madison, WI on June 5-7!

My physical therapy training and initial experience were in the US Army, so I had a strong bias toward utilization of manual therapy techniques based on a structural evaluation. When the birth of my 10 pound baby boy threw me head-long into the desire to become a pelvic dysfunction practitioner, I became plagued by the question: how do you treat the bowel and bladder, without treating the bowel and bladder? That, along with a mild obsession for the study of anatomy was the genesis of my desire to explore the technique of visceral mobilization.


The field of pelvic physical therapy has moved far beyond the rehabilitation of the pelvic floor muscles for the purpose of gaining continence, which was its origin. Now pelvic rehabilitation is a comprehensive specialty within the PT profession, treating a variety of populations and conditions (Haslam & Laycock 2015). Research has provided a greater understanding of the abdomino-pelvic canister as a functional and anatomical construct based on the somatic structures of the abdominal cavity and pelvic basin that work synergistically to support the midline of the body. The canister is bounded by the respiratory diaphragm and crura, along with the psoas muscle whose fascia intimately blends with the pelvic floor and the obturator internus and lastly the transversus abdominis muscle (Lee et al. 2008). The walls of this canister are occupied by and intimately connected to the visceral structures found within. These midline contents carry a significant mass within the body. In order for the canister to move, the viscera must be able to move as well, not only in relationship to one another, but with respect to their surrounding container. There are three primary mechanisms by which disruption of these sliding surfaces could contribute to pain and dysfunction: visceral referred pain, central sensitization and changes in local tissue dynamics.


Since the inception of physical therapy, manual manipulation of tissues has been a foundational practice within the profession. Manual therapy is a generic therapeutic category for hands-on treatment of a structural anomaly; it encompasses a variety of techniques which can be subdivided into either soft tissue based or joint based. Although the majority of manual therapy research has been on the musculoskeletal system, its effects are not exclusive to any particular region of the anatomy. The Orthopaedic Section of the American Physical Therapy Association (APTA) defines the technique of mobilization as "the act of imparting movement, actively or passively, to a joint or soft tissue" (Farrell & Jensen 1992). Visceral mobilization is a treatment approach focusing on mobilizing the fascial layer of the visceral system with respect to the somatic frame; it therefore falls under the classification of soft tissue based manual therapies. Soft tissue and or fascial based manual therapies have higher-levels of evidence to support their use for treating musculoskeletal pain and dysfunction (Ajimsha & Al-Mudahka 2014; Gay et al. 2013). Although many models have been proposed, the specific mechanisms behind the response of the musculoskeletal system to manual interventions are still not fully understood (Bialosky et al. 2009; Clark & Thomas 2012).


The previous model of manual therapy directly relieving local tissue provocation has given way to a recognition that the observed clinical improvement is not simply a result of the practitioner directly altering the structure beneath their hands through mechanical means. Rather this improvement is a combination of afferent input influencing the neurophysiologic output, changes in the endogenous cannabinoid system, and even a placebo responses simply because of touch (Bialosky et al. 2009; McParland 2008; Gay et al. 2014).


There is significant clinical evidence that issues of somatic pelvic pain, bowel, bladder and reproductive system dysfunction may be the result of visceral referred pain, central sensitization and restrictions in visceral tissue mobility which may further contribute to dysfunction within the canister of core muscles. The musculoskeletal framework is a mysterious, perplexing and complicated system. It is unique in that it offers us a variety of tissues and techniques from which to choose in order to help our patients from a manual therapy perspective. Science has acknowledged that the visceral structures and their connective tissue attachments indeed have an influence on the function of the somatic frame, the question is can we manually manipulate these structures and bring about an effect with a reasonable degree of specificity while producing a therapeutic outcome.
Part 2 of this report will discuss the evidence to support visceral mobilization.
Ajimsha M.S., Al-Mudahka N.R. & Al-Madzhar J.A. (2015) Effectiveness of myofascial release: Systematic review of randomized controlled trials. Journal of Bodywork and Movement Therapies 19, 102-112.
Clark B.C., Thomas, J.S., Walkowski S., Howell J.N. (2012) The biology of manual therapies. The Journal of the American Osteopathic Association 112 (9), 617-29.
Bialosky J., Bishop M. & Price D. (2009) The mechanisms of manual therapy in the treatment of musculoskeletal pain: a comprehensive model. Manual Therapy 14 (5), 531-538.
Gay C.W., Robinson M.E., George S.Z., Perlstein W.M. & Bishop M.D. (2014) Immediate changes after manual therapy in resting-state functional connectivity as measured by functional magnetic resonance imaging in participants with induced low back pain. Journal of Manipulative and Physiologic Therapeutics 37 (6), 614-627.
Haslam J. & Laycock J. (2015) How did we get here? The development of women’s health physiotherapy special interest groups in the UK. Journal of Pelvic Obstetric and Gynecological Physiotherapy 116 (Spring), 15-24.
Farrell J.P. & Jensen G.M. (1992) Manual therapy: a critical assessment of role in the profession of physical therapy. Physical Therapy 72, 843-852.
Lee D.G., Lee L.J. & McLaughlin L. (2008) Stability, continence and breathing: The role of fascia following pregnancy and delivery. Journal of Bodywork and Movement Therapies 12 (4), 333-348.
McPartland J M (2008) Expression of the endocannabinoid system in fibroblasts and myofascial tissues. Journal of Bodywork and Movement Therapies 12(2), 169-182.