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January 2005, Vol. 15, No. 1
Table of Contents
ACA's New CCGPP Guidelines • An Opinion of Shortcomings CBP® • ASHN: Chiropractic Enemy • CBP® fosters international Research Collaboration • CBP® Research Corner • Contraction/Expansion Mentally • COX Inhibitors and the FDA • Counter Point • Do You Practice CBP®? • Don's Opinion • European Spine Accepts CBP® Clinical Control Trial • Regarding the Use of Body Weighting • SAC Reaffirms Life University's Accreditation • Spine Accepts CBP® Research • The Diminishing Return Triangle • Traction Details • Validity of PosturePrint™
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The Spine Journal Accepts CBP® Research
by Deed E. Harrison, DC
After his undergraduate pre-chiropractic courses at the University of Utah, Dr. Deed Harrison graduated from Life-West in 1996. He is co-author of more than 50 peer-reviewed, indexed, research articles. These include 32 in JMPT, 3 in Chiropractic Technique, and 15 at major Index Medicus journals. He is a Reviewer for an Index Medicus Orthopaedic journal. He is a certified instructor for CBP® Seminars, has written three new CBP® text books, and is Vice-President of CBP® Nonprofit, Inc. He has a private practice in Elko, Nevada.
Recently, the editor of The Spine Journal informed Tony Keller, PhD, our corresponding author, that our manuscript had been accepted for publication with minor revisions. The Spine Journal is the official journal of The North American Spine Society and is often mistaken for the journal Spine, because of their similar titles.
Our manuscript is entitled “Influence of Spine Morphology on Intervertebral Disc Loads and Stresses in Asymptomatic Adults: Implications for the Ideal Spine,” authored by Keller TS, Colloca CJ, Harrison DE, Harrison DD, and Janik TJ.
This will be our first CBP® Nonprofit publication in this prestigious journal and we are proud to state that our manuscript is in press there. This manuscript is one step in a series of many CBP® biomechanical investigations aiming to determine an ideal spine configuration. Previously, we had (a) modeled the average sagittal spine of normal volunteers with ellipses in the neck, thoracic spine, and low back, (b) calculated stresses in anterior head translation, vertical head translation, cervical kyphosis, and cervical S-shapes, (c) calculated thoracic and lumbar loads and stresses in anterior thoracic cage translation compared to the pelvis, and (d) modeled osteoporotic spines.
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