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Báo cáo y học: " Increased multiaxial lumbar motion responses during multiple-impulse mechanical force manually assisted spinal manipulation"

Tuyển tập các báo cáo nghiên cứu về y học được đăng trên tạp chí y học Critical Care giúp cho các bạn có thêm kiến thức về ngành y học đề tài: Increased multiaxial lumbar motion responses during multiple-impulse mechanical force manually assisted spinal manipulation. | Chiropractic Osteopathy BioMed Central Research Open Access Increased multiaxial lumbar motion responses during multiple-impulse mechanical force manually assisted spinal manipulation Tony S Keller1 Christopher J Colloca 2 Robert J Moore3 Robert Gunzburg4 and Deed E Harrison5 Address 1Director of Research Florida Orthopaedic Institute Tampa Florida USA 2Master s Candidate Department Of Kinesiology Biomechanics Laboratory Exercise and Sport Science Research Institute Arizona State University Tempe Arizona USA Clinic Director State Of The Art Chiropractic Center Phoenix Arizona USA 3Head The Adelaide Centre For Spinal Research Institute Of Medical And Veterinary Science Adelaide South Australia 4Senior Consultant Department Of Orthopaedic Surgery Eeuwfeestkliniek Hospital Antwerpen Belgium and 5Vice President Chiropractic Biophysics Non-profit Inc. Evanston Wyoming USA Clinic Director Ruby Mountain Chiropractic Center Elko Nevada USA Email Tony S Keller - keller@cems.uvm.edu Christopher J Colloca - DrC100@aol.com Robert J Moore - rob.moore@imvs.sa.gov.au Robert Gunzburg - robert@gunzburg.be Deed E Harrison - drdeed@idealspine.com Corresponding author Published 06 April 2006 Received 01 November 2005 Chiropractic Osteopathy 2006 14 6 doi 10.1186 1746-1340-14-6 Accepted 06 April 2006 This article is available from http www.chiroandosteo.com content 14 1 6 2006 Keller et al licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License http creativecommons.org licenses by 2.0 which permits unrestricted use distribution and reproduction in any medium provided the original work is properly cited. Abstract Background Spinal manipulation has been found to create demonstrable segmental and intersegmental spinal motions thought to be biomechanically related to its mechanisms. In the case of impulsive-type instrument device comparisons significant differences in the force-time characteristics and concomitant