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Query: UMLS:C0151744 (
myocardial ischemia
)
31,282
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
William Heberden in 1772 published "some account of the disorder of the breast" which contains the essential elements of angina pectoris as we understand it today. The number of existing cases in the U.S. population today is 6.4 million.
Myocardial ischemia
manifested by angina pectoris can be either acute or chronic. Patients with chronic stable angina will be the focus of this supplement. The majority of patients are symptomatic but approximately 25% can be asymptomatic. The clinical manifestations of
myocardial ischemia
generally are chest discomfort, arrhythmias, and LV dysfunction.
Myocardial ischemia
is a result of imbalance between myocardial oxygen supply and myocardial oxygen demand. High grade coronary stenosis are the usual cause of decreased oxygen supply. The classic hemodynamic factors increasing myocardial oxygen demand include hypertension and increased heart rate due to tachyarrhythmias of any etiology. Exertion is the usual precipitating cause of chronic myocardial ischemia. New information has come forward indicating that
myocardial ischemia
is associated with disruption of cellular sodium and calcium homeostasis. Ischemia results in a rise of intracellular sodium concentration and thus sodium overload which then activates the
sodium calcium exchanger
and leads to increased intracellular calcium. When this occurs there is electrical instability and mechanical dysfunction which increases oxygen demand and decreases oxygen supply. The compound Ranolazine is thought to selectively inhibit the late sodium current and attenuates the abnormalities of ventricular repolarization and contractility associated with
myocardial ischemia
. This compound is the first new class of anti-anginal medication approved in 25 years which may provide physicians with additional therapy for chronic stable angina along with the other anti-angina agents, beta blockers, calcium antagonists and nitrates.
...
PMID:Re-thinking angina. 1837 24
The biochemical, ionic, and signaling changes that occur within cardiomyocytes subjected to ischemia are exacerbated by reperfusion; however, the precise mechanisms mediating
myocardial ischemia
/reperfusion (I/R) injury have not been fully elucidated. The receptor for advanced glycation end-products (RAGE) regulates the cellular response to cardiac tissue damage in I/R, an effect potentially mediated by the binding of the RAGE cytoplasmic domain to the diaphanous-related formin, DIAPH1. The aim of this study was to investigate the role of DIAPH1 in the physiological response to experimental myocardial I/R in mice. After subjecting wild-type mice to experimental I/R, myocardial DIAPH1 expression was increased, an effect that was echoed following hypoxia/reoxygenation (H/R) in H9C2 and AC16 cells. Further, compared to wild-type mice, genetic deletion of Diaph1 reduced infarct size and improved contractile function after I/R. Silencing Diaph1 in H9C2 cells subjected to H/R downregulated actin polymerization and serum response factor-regulated gene expression. Importantly, these changes led to increased expression of sarcoplasmic reticulum Ca
2+
ATPase and reduced expression of the
sodium calcium exchanger
. This work demonstrates that DIAPH1 is required for the myocardial response to I/R, and that targeting DIAPH1 may represent an adjunctive approach for myocardial salvage after acute infarction.
...
PMID:The Formin, DIAPH1, is a Key Modulator of Myocardial Ischemia/Reperfusion Injury. 2923 39
