The Relation Between The Application Angle Of Spinal Manipulative Therapy (Smt) And Resultant Vertebral Accelerations In An In Situ Porcine Model
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Authors
Kawchuk, Gregory N.
Perle, Stephen M.
Issue Date
2009-10
Type
Article
Language
Keywords
Spinal manipulation , Force , Acceleration
Alternative Title
Abstract
It has been hypothesized that the posterior tissues of the spine are frictionless and therefore allow only the normal force component of spinal manipulative therapy (SMT) to pass to underlying vertebrae. Given this assumption, vertebrae could not be moved in practitioner-defined directions by altering the application angle of SMT. To investigate this possibility, porcine lumbar spines were excised and then SMT applied at 90° to the posterior tissues of the target vertebra. A standard curve was constructed of increasing SMT force versus vertebral acceleration. SMT forces were then applied at 60° and 120° and the resulting accelerations substituted into the standard curve to obtain the transmitted force. Results showed that vertebral accelerations were greatest at a 90° SMT application angle and decreased in all axes at application angles ≠ 90°. The average decrease in transmitted force using application angles of 60° and 120° was within 5% of the predicted absolute value. In this model, SMT applied at a non-normal angle does not increase vertebral acceleration in that same direction, but acts to reduce transmitted force. This work provides justification for future studies in less available human cadavers. It is not yet known if variations in SMT application angle have relevance to clinical outcomes or patient safety.
Description
Citation
Kawchuk GN, Perle SM. The relation between the application angle of spinal manipulative therapy (SMT) and resultant vertebral accelerations in an in situ porcine model. Manual Therapy. October 2009; 14(5): 480-483
Publisher
Elsevier Science, Inc.