John Gibney scite author profile

Chronic skeletal muscle ventricle (SMV) stability is essential for clinical implementation. SMVs in animal models have chronically expanded or collapsed when exposed to physiologic pressures. SMV wall stress is a more appropriate indicator than pressure or geometry to compare SMVs between studies. SMV wall tensions during conditioning were determined for SMVs that collapsed, expanded, or were isovolumetric in a previous study. Wall stresses in SMVs that expanded (2.76 +/- 0.803 N/cm(2)) were significantly greater than isovolumetric SMVs (0.89 +/- 0.450) and SMVs that collapsed (0.88 +/- 0.451). These data support the existence of minimum and maximum wall stresses for SMV volume stability and provide empiric estimates for SMV design. Scaling SMV designs from animal models with smaller volumes and similar pressures may result in greater wall stresses in clinical designs. Therefore, the use of volume limiting implants or an isovolumetric conditioning phase to increase the wall stress expansion threshold may be required.

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Alterations in Systolic Components of the Cardiac Cycle in Aortic and Pulmonic Valve Insufficiency in Human Beings and Experimental Animals

Sutton¹,

Hohf²,

Gibney³

et al. 1962

The American Journal of the Medical Sciences

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Use of a Permanent Tissue Expander for Breast Reconstruction

Gibney¹

1989

Plastic and Reconstructive Surgery

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Progressive Pressure Expansion in Skeletal Muscle Ventricle Conditioning

et al. 1996

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John Gibney

Skeletal muscle ventricle pressure-volume properties conform to dynamic and static conditioning

Is Skeletal Muscle Ventricle Chronic Stability Dependent on Wall Stress? Design Implications

Alterations in Systolic Components of the Cardiac Cycle in Aortic and Pulmonic Valve Insufficiency in Human Beings and Experimental Animals

Use of a Permanent Tissue Expander for Breast Reconstruction

Progressive Pressure Expansion in Skeletal Muscle Ventricle Conditioning

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