Integration of Movement/Posture: A Dynamic Adaptive Process Model

Publication Year:
2016
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Repository URL:
https://pdxscholar.library.pdx.edu/honorstheses/262
DOI:
10.15760/honors.298
Author(s):
Akins, Daniel A.
Publisher(s):
Portland State University Library
Tags:
Fasciae (Anatomy) -- Diseases -- Alternative treatment; Rolfing -- Evaluation; Alternative medicine
report description
Structural Integration (SI) is a process of manual therapy and sensorimotor education that aims to facilitate sustainable improvement in whole-body biomechanical functioning and a sense of ease and coherence in normal movement/posture. Traditional and currently widespread explanations for the physiological mechanisms underlying SI theory and practice have focused on notions of fascial tissue change and postural alignment, while recent challenges to these explanations advocate a shift away from these interests toward a neurocentric model that emphasizes movement, pain, and biopsychosocial factors. SI seeks to professionalize and become an auxiliary to healthcare, so it must embrace scientific standards while maintaining its nature as a whole-body somatic education practice. Since the phenomena with which SI is concerned are complex and multifactorial, any explanatory model that focuses on a single physiological mechanism or system is insufficient. This paper attempts to define key terms and proposes an explanatory model that portrays the integration of movement/posture as a dynamic adaptive process consisting of complex interactions between various physiological systems at multiple levels of scale, and each aspect of the model is examined in terms of scientific evidence.