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Eugene Braunwald
Researcher at Brigham and Women's Hospital
Publications - 1758
Citations - 278949
Eugene Braunwald is an academic researcher from Brigham and Women's Hospital. The author has contributed to research in topics: Myocardial infarction & TIMI. The author has an hindex of 230, co-authored 1711 publications receiving 264576 citations. Previous affiliations of Eugene Braunwald include Boston University & University of California, San Francisco.
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Partition of Blood Flow to the Cutaneous and Muscular Beds of the Forearm at Rest and during Leg Exercise in Normal Subjects and in Patients with Heart Failure
TL;DR: In congestive heart failure, both the cutaneous and muscle beds of the forearm are abnormally constricted at rest, there is excessive vasoconstriction in both beds during leg exercise, and postexercise cutaneous vasodilation is abolished.
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Acute Severe Mitral Regurgitation Secondary to Ruptured Chordae Tendineae: Clinical, Hemodynamic, and Pathologic Considerations
TL;DR: The majority of the patients with ruptured chordae tendineae had little left atrial enlargement, were in sinus rhythm, and had not had a history of acute rheumatic fever.
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Serial Measurement of Monocyte Chemoattractant Protein-1 After Acute Coronary Syndromes: Results From the A to Z Trial
James A. de Lemos,David A. Morrow,Michael A. Blazing,Petr Jarolim,Stephen D. Wiviott,Marc S. Sabatine,Robert M. Califf,Eugene Braunwald +7 more
TL;DR: Monocyte chemoattractant protein-1 provides independent prognostic value in the acute and chronic phases after ACS and merits further evaluation as a prognostic marker and potential therapeutic target.
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Functional aortic stenosis; a malformation characterized by resistance to left ventricular outflow without anatomic obstruction.
TL;DR: The fallacy of this widely held concept of a discrete site of obstruction, generally amenable to surgical correction, has been assumed is emphasized by the operative and hemodynamic findings in 3 patients described.
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Beta-adrenergic receptor blocking drugs. Mechanisms of action and clinical applications.
TL;DR: The concept that effector cells contain excitatory and inhibitory "receptor substances" and that the effects of epinephrine are dependent upon the types of receptor substances present was first proposed.