Hunter Poarch scite author profile

A single slice CSA can modestly predict the volume of multi-axial slices in individuals with SCI, yet it is not related to any of the body composition variables. Increased percent FFM is associated with a reduction in VAT and SAT volumes measured across multi-axial slices. The ratio of VAT to SAT is greater than 0.4, suggesting that individuals with SCI are at high risk of developing metabolic sequelae.

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Effect of adjusting pulse durations of functional electrical stimulation cycling on energy expenditure and fatigue after spinal cord injury

Gorgey

Poarch

Dolbow

et al. 2014

J Rehabil Res Dev

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Abstract-The purpose of the current study was to determine the effects of three different pulse durations (200, 350, and 500 microseconds [P200, P350, and P500, respectively]) on oxygen uptake, cycling performance, and energy expenditure (EE) percentage of fatigue of the knee extensor muscle group immediately and 48 to 72 h after cycling in persons with spinal cord injury (SCI). A convenience sample of 10 individuals with motor complete SCI participated in a repeated-measures design using a functional electrical stimulation (FES) cycle ergometer over a 3 wk period. There was no difference among the three FES protocols on relative oxygen uptake or cycling EE. Delta EE between exercise and rest was 42% greater in both P500 and P350 than in P200 (p = 0.07), whereas recovery oxygen uptake was 23% greater in P350 than in P200 (p = 0.03). There was no difference in the outcomes of the three pulse durations on muscle fatigue. Knee extensor torque significantly decreased immediately after (p < 0.001) and 48 to 72 h after (p < 0.001) FES leg cycling. Lengthening pulse duration did not affect submaximal or relative oxygen uptake or EE, total EE, and time to fatigue. Greater recovery oxygen updake and delta EE were noted in P350 and P500 compared with P200. An acute bout of FES leg cycling resulted in torque reduction that did not fully recover 48 to 72 h after cycling.

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Acute effects of locomotor training on neuromuscular and metabolic profile after incomplete spinal cord injury

Gorgey

Poarch

Harnish

et al. 2011

NRE

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Objectives: Locomotor training (LT) enhances walking in individuals with spinal cord injuries (SCIs). We tested the acute effects of 4 days of LT using BWSTT combined with Robotic Locomotor therapy compared to BWSTT twice weekly. Design: Two non-ambulatory participants with an American Spinal Injury Association Impairment Scale (AIS) D. Both received LT for 2 weeks as a portion of their clinical inpatient rehabilitation program and both used wheelchairs as their primary method of mobility. Over a 2 week period, one participant received a total of 8 visits consisting of manual BWSTT (twice weekly) combined with Robotic locomotor therapy (twice weekly). The other participant preformed manual BWSTT (twice weekly) for a total of 4 visits. Resting energy expenditure, body composition, muscle strength, submaximal oxygen consumption (VO2) and blood lactate during LT were measured pre and post-training. Results: The average maximum voluntary contraction of both knee extensor muscle groups increased by 28-34% with associated reduction in spasticity to the BWSTT participant. Two week interventions resulted in a downward shift of the lactate concentrations for both participants, increase in resting energy expenditure and shift in substrate utilization. Discussion and conclusion: A clinical paradigm of incorporating BWSTT with robotic locomotor therapy for 4 days/ week did not provide additional physiological benefits to skeletal muscle strength, spasticity or metabolic profile compared to twice weekly of LT using BWSTT.

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Femoral Bone Marrow Adiposity and Cortical Bone Cross‐Sectional Areas in Men With Motor Complete Spinal Cord Injury

Gorgey

Poarch

Adler

et al. 2013

PM&R

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Locomotor and resistance training restore walking in an elderly person with a chronic incomplete spinal cord injury

Gorgey

Poarch

Miller

et al. 2010

NRE

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Objective: To determine the effects of 10 weeks of locomotor training (LT) using body weight supported (BWS) treadmill training and resistance training (RT) programs on over-ground walking recovery, walking speed and distance, functional independent measure (FIM), walking index for spinal cord injury (WISCI) and Berg Balance Score in an elderly person with an incomplete spinal cord injury (SCI). Design: A 66 year-old-male with a chronic incomplete SCI at C5/C6 ASIA Impairment Scale (AIS) D was admitted for rehabilitation following posterior laminectomy at L3-L5. The participant was a short distance ambulator relying primarily on his power wheelchair for mobility. He completed 10 weeks of LT using manual BWS treadmill twice weekly and RT for knee extensor muscle groups twice a week. A weekly test of the over-ground distance and speed were recoded over the course of the 10 weeks. Additionally, the participant underwent a three month evaluation after discharge. Results: The 10-week program resulted in independent use of bilateral Canadian crutches to ambulate for 200 feet and increased over-ground walking speed. The FIM score increased from 3 to 6 and Berg balance score increased from 11 to 41. The WISCI score increased from 1 to 10. Three months post-discharge, the participant maintained his functional independency in sit to stand activity and over-ground walking. Conclusion: A combined program of LT and RT could enhance walking recovery in a person with a long-term SCI. The findings suggest that twice a week of LT can promote motor recovery if it is accompanied with an approach that effectively loads the paralyzed lower extremities.

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Hunter Poarch

Influence of motor complete spinal cord injury on visceral and subcutaneous adipose tissue measured by multi-axial magnetic resonance imaging

Effect of adjusting pulse durations of functional electrical stimulation cycling on energy expenditure and fatigue after spinal cord injury

Acute effects of locomotor training on neuromuscular and metabolic profile after incomplete spinal cord injury

Femoral Bone Marrow Adiposity and Cortical Bone Cross‐Sectional Areas in Men With Motor Complete Spinal Cord Injury

Locomotor and resistance training restore walking in an elderly person with a chronic incomplete spinal cord injury

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