Abstract
Quantifiable soft tissue manipulation (QSTM) that can characterize the motion and forces delivered during soft tissue examination and treatment of common musculoskeletal (MS) conditions in a real-time and clinically applicable manner is needed to achieve optimal outcomes. Soft tissue manipulation (STM), e.g. massage, is a type of mechanotherapy that has been used with benefit frequently by clinicians worldwide since ancient times. Instrument-assisted STM (IASTM) is a type of STM that uses rigid devices to assess and treat soft tissue abnormalities in a targeted and precise manner. Remarkably, however, the forces delivered during STM approaches have not been adequately quantified. Unlike other mechano-therapeutic approaches, e.g. ultrasound, traction, exercise, electrical stimulation, current manual therapy practice relies mostly on subjective description of STM evaluation findings and treatment parameters. This makes documentation, analysis, comparison, progression and optimization of this non-invasive intervention difficult to establish and validate. It is the authors’ strong opinion that there is need for QSTM to objectively measure, characterize and record the 3-dimensional (3D) forces and motion trajectories of STM evaluation and intervention. Innovative technology aimed to help address this void in research, educational and clinical practice has been developed by our research team and introduced in this article. The QSTM system has two components: an electronic, handheld device (applicator) for 3D characterization of force and a computer with software for data acquisition and analysis. Preliminary testing has demonstrated that the QSTM prototype can provide accurate sensed values and good intra-, inter-rater reliability. Device revisions are in progress and further testing is planned in animals and humans. QSTM is an essential technology needed for the standardization, comparison and optimization of STM therapies and a requisite to advance the field of manual therapy.
Highlights
Musculoskeletal (MS) conditions are frequently treated by clinicians, with low back pain (LBP) being the leading cause of disability in the United States [1,2]
It is the opinion of the authors that quantifiable soft tissue manipulation (QSTM) needs to become a new standard of patient care in soft tissue manipulation and is requisite to advance the field of manual therapy
The QSTM system can detect the reaction force disturbance caused by the tissue restrictions and irregularities assisting examination of soft tissue quality
Summary
Musculoskeletal (MS) conditions are frequently treated by clinicians, with low back pain (LBP) being the leading cause of disability in the United States [1,2]. Have parameters that can be monitored objectively, but characterization of STM evaluation and treatment is mostly relegated to the use of subjective qualifiers It is the opinion of the authors that quantifiable soft tissue manipulation (QSTM) needs to become a new standard of patient care in soft tissue manipulation and is requisite to advance the field of manual therapy. QSTM is advancement in current IASTM practice and has important implications in research, clinical practice and education/training It cannot replace the use of manual contact, nor serve as a substitute for the complexity of clinician’s judgment in sensing soft tissue quality, monitoring patient response and adjusting treatment parameters. In response to the need for more objective characterization of STM evaluation and intervention, our research team has designed, fabricated and initially evaluated a STM mechano-therapeutic motion and force sensing device system prototype that provides real-time quantification of motion and force
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