Index to Chiropractic Literature
Index to Chiropractic Literature
My ICL     Sign In
Tuesday, December 10, 2024
Index to Chiropractic LiteratureIndex to Chiropractic LiteratureIndex to Chiropractic Literature
Share:


For best results switch to Advanced Search.
Article Detail
Return to Search Results
ID 24810
  Title Improvements in lung function, dysautonomia and grip strength in a patient with multiple sclerosis following correction of vertebral subluxation using Chiropractic BioPhysics®: A case study and selective review of literature [case report]
URL https://www.vertebralsubluxationresearch.com/2017/09/04/improvements-in-lung-function-dysautonomia-and-grip-strength-in-a-patient-with-multiple-sclerosis-following-correction-of-vertebral-subluxation-using-chiropractic-biophysics-a-case-study-and-s/
Journal Ann Vert Sublux Res. 2016 Summer;2016(3):Online access only p 73-83
Author(s)
Subject(s)
Peer Review Yes
Publication Type Case Report
Abstract/Notes

Objective: The purpose of this study is to report on the structural and symptomatic improvements made in a patient with a 22-year history of multiple sclerosis using Chiropractic BioPhysics® technique.

Clinical Features: A 58-year-old female confined to a wheel chair presented for chiropractic care with a diagnosis of multiple sclerosis. An anteriorposterior lower cervical x-ray displayed 16.2mm left head translation (ideal is 0mm). Paraspinal thermography revealed a significant asymmetry in the cervical region with moderate asymmetry at C1 and C5 and severe asymmetry at C2-C4. Spirometry revealed a peak expiratory lung flow volume of 200 L/min and a forced expiratory lung volume of 1.48 L. Grip strength assessment revealed a maximum left-hand grip strength of 2.8 lbs and a maximum right-hand grip strength of 3.0 lbs.

Intervention and Outcomes: The patient received Chiropractic BioPhysics® technique protocols. Follow-up examination revealed that the patient achieved a correction of left head translation of 17.0mm from 16.2mm to -0.8mm; an improvement in peak expiratory flow volume of 27 L/min from 200 L/min to 227 L/min; an improvement in forced expiratory lung volume of 0.18 L from 1.48 L to 1.66 L; an improvement in left-hand grip strength of 9.2 lbs from 2.8 lbs to 12 lbs and in right-hand grip strength of 5 lbs from 3.0 lbs to 8.0 lbs.

Conclusions: Reduced vertebral subluxations, improved posture and a concomitant improvement in respiratory function, dysautonomia, and grip strength were achieved.

Author keywords: Chiropractic, vertebral subluxation, multiple sclerosis, lung function, pulmonary function, forced expiratory volume, FEV, peak expiratory flow, PEF, spirometry, grip strength, posture, Chiropractic BioPhysics®, Mirror Image®, adjustment, traction

This abstract is reproduced with the permission of the publisher; full text by subscription. Link to PDF version


 

   Text (Citation) Tagged (Export) Excel
 
Email To
Subject
 Message
Format
HTML Text     Excel



To use this feature you must register a personal account in My ICL. Registration is free! In My ICL you can save your ICL searches in My Searches, and you can save search results in My Collections. Be sure to use the Held Citations feature to collect citations from an entire search session. Read more search tips.

Sign Into Existing My ICL Account    |    Register A New My ICL Account
Search Tips
  • Enclose phrases in "quotation marks".  Examples: "low back pain", "evidence-based"
  • Retrieve all forms of a word with an "asterisk*", also called a wildcard or truncation.  Example: "chiropract*" retrieves chiropractic, chiropractor, chiropractors
  • Register an account in My ICL to save search histories (My Searches) and collections of records (My Collections)
Advanced Search Tips

:)