Literature DB >> 3930039

Regulation of bone mass by mechanical strain magnitude.

C T Rubin, L E Lanyon.   

Abstract

The in vivo remodeling behavior within a bone protected from natural loading was modified over an 8-week period by daily application of 100 consecutive 1 Hz load cycles engendering strains within the bone tissue of physiological rate and magnitude. This load regime resulted in a graded dose:response relationship between the peak strain magnitude and change in the mass of bone tissue present. Peak longitudinal strains below 0.001 were associated with bone loss which was achieved by increased remodeling activity, endosteal resorption, and increased intra-cortical porosis. Peak strains above 0.001 were associated with little change in intra-cortical remodeling activity but substantial periosteal and endosteal new bone formation.

Entities:  

Mesh:

Year:  1985        PMID: 3930039     DOI: 10.1007/bf02553711

Source DB:  PubMed          Journal:  Calcif Tissue Int        ISSN: 0171-967X            Impact factor:   4.333


  16 in total

1.  The measurement of bone strain "in vivo".

Authors:  L E Lanyon
Journal:  Acta Orthop Belg       Date:  1976       Impact factor: 0.500

2.  Effect of prolonged bed rest on bone mineral.

Authors:  C L Donaldson; S B Hulley; J M Vogel; R S Hattner; J H Bayers; D E McMillan
Journal:  Metabolism       Date:  1970-12       Impact factor: 8.694

3.  The response of living bone to controlled time-varying loading: method and preliminary results.

Authors:  A E Churches; C R Howlett; K J Waldron; G W Ward
Journal:  J Biomech       Date:  1979       Impact factor: 2.712

4.  Functional strain as a determinant for bone remodeling.

Authors:  L E Lanyon
Journal:  Calcif Tissue Int       Date:  1984       Impact factor: 4.333

5.  Static vs dynamic loads as an influence on bone remodelling.

Authors:  L E Lanyon; C T Rubin
Journal:  J Biomech       Date:  1984       Impact factor: 2.712

6.  Regulation of bone formation by applied dynamic loads.

Authors:  C T Rubin; L E Lanyon
Journal:  J Bone Joint Surg Am       Date:  1984-03       Impact factor: 5.284

7.  The effect of prolonged physical training on the properties of long bone: a study of Wolff's Law.

Authors:  S L Woo; S C Kuei; D Amiel; M A Gomez; W C Hayes; F C White; W H Akeson
Journal:  J Bone Joint Surg Am       Date:  1981-06       Impact factor: 5.284

8.  Bone loss in response to long-term immobilisation.

Authors:  H K Uhthoff; Z F Jaworski
Journal:  J Bone Joint Surg Br       Date:  1978-08

9.  Vertebral bone loss: an unheeded side effect of therapeutic bed rest.

Authors:  B Krølner; B Toft
Journal:  Clin Sci (Lond)       Date:  1983-05       Impact factor: 6.124

10.  Humeral hypertrophy in response to exercise.

Authors:  H H Jones; J D Priest; W C Hayes; C C Tichenor; D A Nagel
Journal:  J Bone Joint Surg Am       Date:  1977-03       Impact factor: 5.284
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  237 in total

Review 1.  The physiology of the highly trained female endurance runner.

Authors:  M Burrows; S Bird
Journal:  Sports Med       Date:  2000-10       Impact factor: 11.136

2.  The relationship between bone mechanical properties and ground reaction forces in normal and hypermuscular mice.

Authors:  Daniel Schmitt; Ann C Zumwalt; Mark W Hamrick
Journal:  J Exp Zool A Ecol Genet Physiol       Date:  2010-07-01

3.  Relationships among body weight, joint moments generated during functional activities, and hip bone mass in older adults.

Authors:  Man-Ying Wang; Sean P Flanagan; Joo-Eun Song; Gail A Greendale; George J Salem
Journal:  Clin Biomech (Bristol, Avon)       Date:  2006-04-21       Impact factor: 2.063

4.  Physiological factors associated with low bone mineral density in female endurance runners.

Authors:  M Burrows; A M Nevill; S Bird; D Simpson
Journal:  Br J Sports Med       Date:  2003-02       Impact factor: 13.800

5.  Low bone mineral density in highly trained male master cyclists.

Authors:  Jeanne F Nichols; Jacob E Palmer; Susan S Levy
Journal:  Osteoporos Int       Date:  2003-07-11       Impact factor: 4.507

6.  Characterization of gap junctions between osteoblast-like cells in culture.

Authors:  K Schirrmacher; I Schmitz; E Winterhager; O Traub; F Brümmer; D Jones; D Bingmann
Journal:  Calcif Tissue Int       Date:  1992-10       Impact factor: 4.333

7.  Low-magnitude mechanical loading becomes osteogenic when rest is inserted between each load cycle.

Authors:  Sundar Srinivasan; David A Weimer; Steven C Agans; Steven D Bain; Ted S Gross
Journal:  J Bone Miner Res       Date:  2002-09       Impact factor: 6.741

Review 8.  Regulation of skeletal remodeling by biomechanical input.

Authors:  Janet Rubin
Journal:  Osteoporos Int       Date:  2003-08-29       Impact factor: 4.507

9.  Risk factors for low bone mineral density and the 6-year rate of bone loss among premenopausal and perimenopausal women.

Authors:  Kathleen E Bainbridge; MaryFran Sowers; Xihong Lin; Sioban D Harlow
Journal:  Osteoporos Int       Date:  2004-01-22       Impact factor: 4.507

10.  Does the degree of laminarity correlate with site-specific differences in collagen fibre orientation in primary bone? An evaluation in the turkey ulna diaphysis.

Authors:  John G Skedros; Kenneth J Hunt
Journal:  J Anat       Date:  2004-08       Impact factor: 2.610
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