Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Drug
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Target Concepts:
Gene/Protein
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Query: UMLS:C0151744 (
myocardial ischemia
)
31,282
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Even today, a restrictive attitude frequently leads the physician to discourage the patient with cardiovascular abnormalities from sojourning at an altitude over 1000 m. This attitude, however, is not supported by any scientific proof. After a review of the major cardiovascular adaptations during high altitude exposure, we reported the principal studies of the effects of high altitude on patients with coronary heart disease, particularly during exercise. On the basis of personal experience and of other authors, we can state that the patient with
ischemic heart disease
, asymptomatic and with a recent clinical and functional evaluation, can stay in the mountains, even at altitudes of 2000-3000 m, and can hike and
ski
(cross-country and downhill). The risks appear to be related to factors independent of altitude, such as excessive cold or intense emotional stress due to dangerous situations, conditions that must consequently be avoided. On the other hand, an individual approach should be followed for the other congenital and acquired heart diseases, in which case we must consider, in addition to the clinical situation, some peculiar aspects of mountain environment (hypoxia, isolation, difficult access to medical facilities). Finally, the hypertensive patient, expected to have higher blood pressure values, especially diastolic, should frequently record his values during the first week at high altitude, eventually adjusting the therapy.
...
PMID:[The heart patient in the mountains: the behavioral indications]. 1083 35
Although the search for effective methods of renal prophylaxis during aortic surgery spans many decades, definitive answers are scarce. The literature is voluminous, yet the amount of work clearly relevant to the specific clinical situation of perioperative prophylaxis is small. Given the significant morbidity and subsequent mortality involved with perioperative ARF, it is difficult to
sit
back and do nothing when pharmacologic agents empirically are believed to possibly benefit the patient. Care must be taken to apply data from different clinical scenarios in the literature to the situation at hand. Drugs felt to be innocuous, even in low doses, may be insidiously counterproductive or damaging if they are not managed properly. Maintaining an adequate preload and stable hemodynamics seems to be the most logical universal approach at this time. Furosemide treatment without maintaining an adequate volume status once diuresis commences may be detrimental, which is true with the diuretic effects induced by mannitol or dopamine. The tachycardia resulting from a relative hypovolemia and from the beta effects of dopamine can cause
myocardial ischemia
from increased oxygen demand. Low urine output does not portend a negative outcome in the face of an adequate intravascular volume any more than an induced diuresis prevents renal injury. Currently, minimization of renal ischemia and maintenance of an adequate intravascular volume and renal hemodynamics are the keys to optimizing renal outcome during aortic surgery. Other maneuvers are not definitive and should be cautiously undertaken.
...
PMID:Intraoperative management of renal function in the surgical patient at risk. Focus on aortic surgery. 1109 87
In most developed countries, coronary artery disease (CAD), mostly caused by atherosclerosis of coronary arteries, is one of the primary causes of death. From 1990s to 2000s, mortality caused by acute MI declined up to 50%. The incidence of CAD is related with age, gender, economic, etc. Atherosclerosis contains some highly correlative processes such as lipid disturbances, thrombosis, inflammation, vascular smooth cell activation, remodeling, platelet activation, endothelial dysfunction, oxidative stress, altered matrix metabolism, and genetic factors. Risk factors of CAD exist among many individuals of the general population, which includes hypertension, lipids and lipoproteins metabolism disturbances, diabetes mellitus, chronic kidney disease, age, genders, lifestyle, cigarette smoking, diet, obesity, and family history. Angina pectoris is caused by
myocardial ischemia
in the main expression of pain in the chest or adjoining area, which is usually a result of exertion and related to myocardial function disorder. Typical angina pectoris would last for minutes with gradual exacerbation. Rest,
sit
, or stop walking are the usual preference for patients with angina, and reaching the maximum intensity in seconds is uncommon. Rest or nitroglycerin usage can relieve typical angina pectoris within minutes. So far, a widely accepted angina pectoris severity grading system included CCS (Canadian Cardiovascular Society) classification, Califf score, and Goldman scale. Patients with ST-segment elevated myocardial infarction (STEMI) may have different symptoms and signs of both severe angina pectoris and various complications. The combination of rising usage of sensitive MI biomarkers and precise imaging techniques, including electrocardiograph (ECG), computed tomography, and cardiac magnetic resonance imaging, made the new MI criteria necessary. Complications of acute myocardial infarction include left ventricular dysfunction, cardiogenic shock, structural complications, arrhythmia, recurrent chest discomfort, recurrent ischemia and infarction, pericardial effusion, pericarditis, post-myocardial infarction syndrome, venous thrombosis pulmonary embolism, left ventricular aneurysm, left ventricular thrombus, and arterial embolism.
...
PMID:Coronary Artery Disease: From Mechanism to Clinical Practice. 3224 42
