Physical activity engendering loads from diverse directions augments the growing skeleton

I. J. Wallace; A. T. Kwaczala; S. Judex; B. Demes; K. J. Carlson

Physical activity engendering loads from diverse directions augments the growing skeleton

I. J. Wallace
, A. T. Kwaczala
, S. Judex
, B. Demes
, K. J. Carlson

Biomedical Engineering

Stony Brook University

Research output: Contribution to journal › Article › peer-review

33 Scopus citations

Abstract

METHODS: Growing female C57BL/6J mice were housed individually for 3 months in enclosures designed to accentuate either non-linear locomotion (diverse-orientation loading) or linear locomotion (stereotypic-orientation loading) (n=10/cage type). Behavioral assessments were performed daily to quantify cage activity level. Following the experiment, trabecular and cortical bone structure in the humeral head and distal femoral metaphysis were analyzed with μCT.

RESULTS: Throughout the experiment, groups did not differ in cage activity level. Yet, following the experiment, the proximal humeri of mice that experienced increased diverse-orientation loading had significantly greater trabecular bone volume fraction (p=0.004), greater cortical bone area (p=0.005), greater cortical area fraction (p=0.0007), and thicker cortices (p=0.002). No significant group differences were detected in the distal femoral metaphysis.

CONCLUSIONS: Diverting habitual activities to entail loading from more diverse orientations can augment the growing mouse skeleton. This study suggests that low-intensity activities that produce loads from diverse directions may represent a viable alternative to vigorous, high-impact exercise as a means of benefiting skeletal health during growth.

OBJECTIVE: An experiment was conducted to determine if modifying habitual activities to involve mechanical loading from more diverse directions can enhance the growing skeleton.

Original language	English
Pages (from-to)	283-288
Number of pages	6
Journal	Journal of Musculoskeletal Neuronal Interactions
Volume	13
Issue number	3
State	Published - Sep 1 2013

Cite this

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title = "Physical activity engendering loads from diverse directions augments the growing skeleton",

abstract = "METHODS: Growing female C57BL/6J mice were housed individually for 3 months in enclosures designed to accentuate either non-linear locomotion (diverse-orientation loading) or linear locomotion (stereotypic-orientation loading) (n=10/cage type). Behavioral assessments were performed daily to quantify cage activity level. Following the experiment, trabecular and cortical bone structure in the humeral head and distal femoral metaphysis were analyzed with μCT.RESULTS: Throughout the experiment, groups did not differ in cage activity level. Yet, following the experiment, the proximal humeri of mice that experienced increased diverse-orientation loading had significantly greater trabecular bone volume fraction (p=0.004), greater cortical bone area (p=0.005), greater cortical area fraction (p=0.0007), and thicker cortices (p=0.002). No significant group differences were detected in the distal femoral metaphysis.CONCLUSIONS: Diverting habitual activities to entail loading from more diverse orientations can augment the growing mouse skeleton. This study suggests that low-intensity activities that produce loads from diverse directions may represent a viable alternative to vigorous, high-impact exercise as a means of benefiting skeletal health during growth.OBJECTIVE: An experiment was conducted to determine if modifying habitual activities to involve mechanical loading from more diverse directions can enhance the growing skeleton.",

author = "Wallace, \{I. J.\} and Kwaczala, \{A. T.\} and S. Judex and B. Demes and Carlson, \{K. J.\}",

year = "2013",

month = sep,

day = "1",

language = "English",

volume = "13",

pages = "283--288",

journal = "Journal of Musculoskeletal Neuronal Interactions",

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T1 - Physical activity engendering loads from diverse directions augments the growing skeleton

AU - Wallace, I. J.

AU - Kwaczala, A. T.

AU - Judex, S.

AU - Demes, B.

AU - Carlson, K. J.

PY - 2013/9/1

Y1 - 2013/9/1

N2 - METHODS: Growing female C57BL/6J mice were housed individually for 3 months in enclosures designed to accentuate either non-linear locomotion (diverse-orientation loading) or linear locomotion (stereotypic-orientation loading) (n=10/cage type). Behavioral assessments were performed daily to quantify cage activity level. Following the experiment, trabecular and cortical bone structure in the humeral head and distal femoral metaphysis were analyzed with μCT.RESULTS: Throughout the experiment, groups did not differ in cage activity level. Yet, following the experiment, the proximal humeri of mice that experienced increased diverse-orientation loading had significantly greater trabecular bone volume fraction (p=0.004), greater cortical bone area (p=0.005), greater cortical area fraction (p=0.0007), and thicker cortices (p=0.002). No significant group differences were detected in the distal femoral metaphysis.CONCLUSIONS: Diverting habitual activities to entail loading from more diverse orientations can augment the growing mouse skeleton. This study suggests that low-intensity activities that produce loads from diverse directions may represent a viable alternative to vigorous, high-impact exercise as a means of benefiting skeletal health during growth.OBJECTIVE: An experiment was conducted to determine if modifying habitual activities to involve mechanical loading from more diverse directions can enhance the growing skeleton.

AB - METHODS: Growing female C57BL/6J mice were housed individually for 3 months in enclosures designed to accentuate either non-linear locomotion (diverse-orientation loading) or linear locomotion (stereotypic-orientation loading) (n=10/cage type). Behavioral assessments were performed daily to quantify cage activity level. Following the experiment, trabecular and cortical bone structure in the humeral head and distal femoral metaphysis were analyzed with μCT.RESULTS: Throughout the experiment, groups did not differ in cage activity level. Yet, following the experiment, the proximal humeri of mice that experienced increased diverse-orientation loading had significantly greater trabecular bone volume fraction (p=0.004), greater cortical bone area (p=0.005), greater cortical area fraction (p=0.0007), and thicker cortices (p=0.002). No significant group differences were detected in the distal femoral metaphysis.CONCLUSIONS: Diverting habitual activities to entail loading from more diverse orientations can augment the growing mouse skeleton. This study suggests that low-intensity activities that produce loads from diverse directions may represent a viable alternative to vigorous, high-impact exercise as a means of benefiting skeletal health during growth.OBJECTIVE: An experiment was conducted to determine if modifying habitual activities to involve mechanical loading from more diverse directions can enhance the growing skeleton.

UR - https://www.scopus.com/pages/publications/84896416229

M3 - Article

C2 - 23989249

AN - SCOPUS:84896416229

SN - 1108-7161

VL - 13

SP - 283

EP - 288

JO - Journal of Musculoskeletal Neuronal Interactions

JF - Journal of Musculoskeletal Neuronal Interactions

IS - 3

ER -

Physical activity engendering loads from diverse directions augments the growing skeleton

Abstract

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