Your search keyword '"Macias, Brandon R."' showing total 2 results

1. Partial Weight Bearing Does Not Prevent Musculoskeletal Losses Associated with Disuse.

Author

SWIFT, JOSHUA M., LIMA, FLORENCE, MACIAS, BRANDON R., ALLEN, MATTHEW R., GREENE, ELIZABETH S., SHIRAZI-FARD, YASAMAN, KUPKE, JOSHUA S., HOGAN, HARRY A., and BLOOMFIELD, SUSAN A.

Subjects

*MUSCULAR atrophy, *ANIMAL experimentation, *BIOLOGICAL models, *MICE, *REDUCED gravity environments, *RESEARCH funding, *WEIGHT-bearing (Orthopedics), *PREVENTION

Abstract

PURPOSE: The purpose of this study was to investigate whether partial weight-bearing activity, at either one-sixth or one-third of body mass, blunts the deleterious effects of simulated microgravity (0G) after 21 d on muscle mass and quantitative/qualitative measures of bone. METHODS: Using a novel, previously validated partial weight-bearing suspension device, mice were subjected to 16% (G/3, i.e., simulated lunar gravity) or 33% (G/6, i.e., simulated Martian gravity) weight bearing for 21 d. One gravity control (1G, i.e., Earth gravity) and tail-suspended mice (0G, i.e., simulated microgravity) served as controls to compare the effects of simulated lunar and Martian gravity to both Earth and microgravity. RESULTS: Simulated microgravity (0G) resulted in an 8% reduction in body mass and a 28% lower total plantarflexor muscle mass (for both, P < 0.01) as compared with 1G controls, but one-sixth and one-third partial weight-bearing activity attenuated losses. Relative to 1G controls, trabecular bone volume fraction (-9% to -13%) and trabecular thickness (-10% to -14%) were significantly lower in all groups (P < 0.01). In addition, cancellous and cortical bone formation rates (BFR) were lower in all reduced weight-bearing groups compared with 1G controls (-46% to -57%, trabecular BFR; -73% to -85%, cortical BFR; P < 0.001). Animals experiencing one-third but not one-sixth weight bearing exhibited attenuated deficits in femoral neck mechanical strength associated with 0G. CONCLUSION: These results suggest that partial weight bearing (up to 33% of body mass) is not sufficient to protect against bone loss observed with simulated 0 g but does mitigate reductions in soleus mass in skeletally mature female mice. [ABSTRACT FROM AUTHOR]

Published

2013

2. Supine LBNP Exercise Maintains Exercise Capacity in Male Twins during 30-d Bed Rest.

Author

Lee, Stuart M. C., Schneider, Suzanne M., Boda, Wanda L., Watenpaugh, Donald E., Macias, Brandon R., Meyer, R. Scott, and Hargens, Alan R.

Subjects

*EXERCISE tests, *SPACE flight, *REDUCED gravity environments, *EXTREME environments, *GRAVITATION, *ARTIFICIAL gravity, *FATIGUE (Physiology), *MEDICAL function tests, *REST

Abstract

The article discusses whether lower-body negative pressure (LBNPex) would protect against loss of upright exercise (VO2peak) and sprint performance during a 30-day bed rest. Participants were divided into a control group (CON) who do not perform exercise, and the other was assigned to an exercise group (EX) wherein they performed an upright graded exercise test to volitional fatigue and sprint test, during and after bed rest. The results indicated that the VO2peak was decreased and sprint time was increased in the CON participants but was maintained in the EX participants. Researchers concluded that exercise countermeasure protocol may help in the prevention of microgravity-induced deconditioning during space flight.

Published

2007