Andrew J. Sherman scite author profile

Chronically instrumented dogs underwent 2- or 5-h regional reductions in coronary flow that were followed, respectively, by balanced reductions in myocardial contraction and O(2) consumption ("hibernation") and persistently reduced contraction despite normal myocardial O(2) consumption ("stunning"). Previously unidentified myofibrillar disruption developed during flow reduction in both experimental models and persisted throughout the duration of reperfusion (2-24 h). Aberrant perinuclear aggregates that resembled thick filaments and stained positively with a monoclonal myosin antibody were present in 34 +/- 3.8% (SE) and 68 +/- 5.9% of "hibernating" and "stunned" subendocardial myocytes in areas subjected to flow reduction and in 16 +/- 2.5% and 44 +/- 7.4% of subendocardial myocytes in remote areas of the same ventricles. Areas of myofibrillar disruption also showed glycogen accretion and unusual heterochromatin clumping adjacent to the inner nuclear envelope. The degrees of flow reduction employed were sufficient to reduce regional myofibrillar creatine kinase activity by 25-35%, but troponin I degradation was not evident. The observed changes may reflect an early, possibly reversible, phase of the myofibrillar loss characteristic of hypocontractile myocardium in patients undergoing revascularization.

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A Multi-Level Iterative Method for Solving Finite Element Equations

Bank¹,

Sherman²

1979

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Blockade of Nitric Oxide Synthesis Reduces Myocardial Oxygen Consumption In Vivo

et al. 1997

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Safety and Efficacy of Convergent Hybrid Procedure Using Cryo as Endocardial Energy Source for the Treatment of Atrial Fibrillation

Makati

Sherman

Gerogiannis

et al. 2020

Circ: Arrhythmia and Electrophysiology

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The properties and applications of rhenium produced by CVD

Sherman

Tuffias

Kaplan

1991

JOM

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Rhenium possesses a unique combination of properties Ibnt milk£ it an excellent choice for many appliCiltions demanding high-temperature strength, wear resistance and er0-sion resistance. While fhe majoruseofrhenillm is still in bimetallic catalysts, renewed interest in improved propulsion and space-power systems has led to increased development of rhmium as a structural material. Recent investigations have illustrated the tremem/ous advantages of rhenium in cerlll;n structural applications. The superiorperformanceofrhenium am be attributed to its chemical inertness, superior high-temperature strength and room-temperature ductility. In several deImmding applications, "limy of rhenium's properties can be optimally expwifed by using chemical vapor deposition

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Andrew J. Sherman

Myofibrillar disruption in hypocontractile myocardium showing perfusion-contraction matches and mismatches

A Multi-Level Iterative Method for Solving Finite Element Equations

Blockade of Nitric Oxide Synthesis Reduces Myocardial Oxygen Consumption In Vivo

Safety and Efficacy of Convergent Hybrid Procedure Using Cryo as Endocardial Energy Source for the Treatment of Atrial Fibrillation

The properties and applications of rhenium produced by CVD

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