Maneesh Bawa scite author profile

Counteracting bone loss is required for future space exploration. We evaluated the ability of treadmill exercise in a LBNP chamber to counteract bone loss in a 30-day bed rest study. Eight pairs of identical twins were randomly assigned to sedentary control or exercise groups. Exercise within LBNP decreased the bone resorption caused by bed rest and may provide a countermeasure for spaceflight.Introduction: Bone loss is one of the greatest physiological challenges for extended-duration space missions. The ability of exercise to counteract weightlessness-induced bone loss has been studied extensively, but to date, it has proven ineffective. We evaluated the effectiveness of a combination of two countermeasures-treadmill exercise while inside a lower body negative pressure (LBNP) chamber-on bone loss during a 30-day bed rest study. Materials and Methods: Eight pairs of identical twins were randomized into sedentary (SED) or exercise/LBNP (EX/LBNP) groups. Blood and urine samples were collected before, several times during, and after the 30-day bed rest period. These samples were analyzed for markers of bone and calcium metabolism. Repeated measures ANOVA was used to determine statistical significance. Because identical twins were used, both time and group were treated as repeated variables. Results: Markers of bone resorption were increased during bed rest in samples from sedentary subjects, including the collagen cross-links and serum and urinary calcium concentrations. For N-telopeptide and deoxypyridinoline, there were significant (p Ͻ 0.05) interactions between group (SED versus EX/LBNP) and phase of the study (sample collection point). Pyridinium cross-links were increased above pre-bed rest levels in both groups, but the EX/LBNP group had a smaller increase than the SED group. Markers of bone formation were unchanged by bed rest in both groups. Conclusions: These data show that this weight-bearing exercise combined with LBNP ameliorates some of the negative effects of simulated weightlessness on bone metabolism. This protocol may pave the way to counteracting bone loss during spaceflight and may provide valuable information about normal and abnormal bone physiology here on Earth.

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Thoracic Vertebral Screw Impingement on the Aorta in an In Vivo Bovine Model

Faro

Farnsworth²,

Shapiro

et al. 2005

Spine

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Percutaneous Lumbar and Thoracic Pedicle Screws

Park¹,

Thomas²,

Clair³

et al. 2014

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The morphometric study demonstrates if a K-wire is placed 20 mm into the bone and remains lateral to the medial pedicle wall and the tip just engages the vertebral body, the screw trajectory is safe particularly in the lower thoracic and upper lumbar spine. A smaller distance may be utilized in the upper thoracic. Breach rates are similar to other reports using other techniques; none were clinically significant. The advantage of this technique is the use of only PA fluoroscopy for placing all the wires percutaneously.

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Coding of Diagnoses, Comorbidities, and Complications of Total Hip Arthroplasty

Mears

Bawa

Pietryak

et al. 2002

Clinical Orthopaedics and Related Research

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Paraspinal Muscle Vasculature Contributes to Posterolateral Spinal Fusion

Bawa¹,

Schimizzi²,

Leek³

et al. 2006

Spine

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Maneesh Bawa

Evaluation of Treadmill Exercise in a Lower Body Negative Pressure Chamber as a Countermeasure for Weightlessness-Induced Bone Loss: A Bed Rest Study With Identical Twins

Thoracic Vertebral Screw Impingement on the Aorta in an In Vivo Bovine Model

Percutaneous Lumbar and Thoracic Pedicle Screws

Coding of Diagnoses, Comorbidities, and Complications of Total Hip Arthroplasty

Paraspinal Muscle Vasculature Contributes to Posterolateral Spinal Fusion

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