Otis Perkins scite author profile

Otis Perkins

2Publications

4Citation Statements Received

12Citation Statements Given

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Conway School of Landscape Design, University of Central Arkansas

Publications

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Changes in Mechanical Properties of Rat Bones under Simulated Effects of Microgravity and Radiation†

et al. 2015

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The aim of this study was to determine the changes in elasticity and lattice structure in leg bone of rats which were: 1) under Hind-Limb Suspension (HLS) by tail for 2 weeks and 2) exposed to a total radiation of 10 Grays in 10 days. The animals were sacrificed at the end of 2 weeks and the leg bones were surgically removed, cleaned and fixed with a buffered solution. The mechanical strength of the bone (elastic modulus) was determined from measurement of bending of a bone when under an applied force. Two methodologies were used: i) a 3-point bending technique and ii) classical bending where bending is accomplished keeping one end fixed. Three point bending method used a captive actuator controlled by a programmable IDEA drive. This allowed incremental steps of 0.047mm for which the force is measured. The data is used to calculate the stress and the strain. In the second method a mirror attached to the free end of the bone allowed a reflected laser beam spot to be tracked. This provided the displacement measurement as stress levels changed. Analysis of stress vs. strain graph together with solution of Euler-Bernoulli equation for a cantilever beam allowed determination of the elastic modulus of the leg bone for (i) control samples, (ii) HLS samples and (iii) HLS samples with radiation effects. To ascertain changes in the bone lattice structure, the bones were cross-sectioned and imaged with a 20 keV beam of electrons in a Scanning Electron Microscope (SEM). A backscattered detector and a secondary electron detector in the SEM provided the images from well-defined parts of the leg bones. Elemental compositions in combination with mechanical properties (elastic modulus and lattice structure) changes indicated weakening of the bones under space-like conditions of microgravity and radiation. †Supported by a grant from the Arkansas Space Grant Consortium (ASGC)

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Studies in the Photo Activity and Therapy of the Tungsten-Titanium Arc.

Perkins¹

1932

Archives of Ophthalmology

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Otis Perkins

Changes in Mechanical Properties of Rat Bones under Simulated Effects of Microgravity and Radiation†

Studies in the Photo Activity and Therapy of the Tungsten-Titanium Arc.

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