Angina pectoris
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Angina pectoris
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Acebutolol p. 244
angina and p. 324
Angina
aortic stenosis p. 296
atherosclerosis p. 305
cilostazol/dipyridamole for p. 442
cocaine causing p. 588
contraindicated drugs p. 324, 327
drug therapy for p. 323, 324, 361
glycoprotein IIb/IIa inhibitors for p. 442
ischemic disease and p. 308
presentation p. 722
unstable/NSTEMI treatment p. 314
Intestinal angina p. 393
Angina pectoris
β -blockers for p. 245
Atherosclerosis p. 305
stable angina with p. 308
β -blockers p. 245
angina p. 324
Calcium channel blockers p. 323
angina p. 323
“Intestinal angina p. 393
myocardial O2 consumption/demand p. 290
angina treatment p. 324
Nitroglycerin p. 323
angina p. 308
Stable angina p. 308
Triptans p. 562
angina and p. 308
Variant angina p. 308
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Angina comes from the latin angere, which means to strangle, and pectoris comes from pectus, meaning chest—so angina pectoris loosely translates to “strangling of the chest”, which actually makes a lot of sense, because angina pectoris is caused by reduced blood flow which causes ischemia to the heart muscle, or lack of oxygen to the heart, almost like the heart’s being strangled which causes terrible chest pain.
Stable angina or chronic angina is the most common type of angina and it usually happens when the patient has greater than or equal to 70% stenosis, meaning 70% of the artery is blocked by plaque buildup.
This small opening that blood flows through might be enough to supply the heart during rest, but if the body demands more blood and oxygen, like during exercise or stressful situations, the heart has to work harder, and therefore needs more blood and oxygen itself.
It’s during these time of exertion or emotional stress that people with stable angina have chest pain, since the blood flow isn’t meeting the metabolic demands of the heart muscle, or myocardium.
But the pain usually goes away with rest.
In the majority of cases, the underlying cause of stable angina is atherosclerosis of one or more the coronary arteries—arteries supplying blood to the heart muscles.
Other heart conditions that might lead to stable angina are ones that cause a thickened heart muscle wall, which would require more oxygen.
This increase in muscle size can be due to hypertrophic cardiomyopathy from a genetic cause, or as a result from the heart having to pump against higher pressures, as is the case in aortic stenosis, which is a narrowing of the aortic valve, or hypertension.
These larger, thicker heart muscles require more oxygen, and if the patients can’t meet increasing demands, they feel pain in the form of angina.
Whatever the case, the heart needs blood, and if we look at the heart wall, there’s three layers—the outermost layer, the epicardium, then the myocardium in the middle, and the endocardium inside the heart.
Sources
- "Robbins Basic Pathology" Elsevier (2017)
- "Harrison's Principles of Internal Medicine, Twentieth Edition (Vol.1 & Vol.2)" McGraw-Hill Education / Medical (2018)
- "Pathophysiology of Disease: An Introduction to Clinical Medicine 8E" McGraw-Hill Education / Medical (2018)
- "Pathogenesis of angina pectoris" PubMed (1982)
- "Unstable angina pectoris: Pathogenesis and management" Current Problems in Cardiology (1989)
- "Management of Chronic Stable Angina" Critical Care Nursing Clinics of North America (2017)