http://WWW.HEARTDIABETESCARE.COM
SAMIKSHAHEARTCARE 57698d5b9ec66b0b6cfb5b6b False 536 1
OK
background image not found
Found Update results for
'treatment options'
5
THE BEST HEART SPECIALISTS IN BANGALORE Angioplasty Balloon dilatation of coronary artery stenoses was first performed in the late 1970s by Andreas Grunzig. The technique has undergone many refinements and is now widely used for the treatment of angina not responding to medical treatment. Angioplasty has not been shown to improve the prognosis of patients with stable angina. Coronary artery bypass grafting (CABG) has similarly not been shown to prolong life for most stable angina patients. However, both treatments are very successful in relieving the symptoms of angina. The COURAGE Trial compared optimal medical treatment of angina with angioplasty but excluded patients with symptoms refractory to medical treatment.1 Not surprisingly, this group of stable mild angina patients had a similar outcome with angioplasty and medical treatment. The trial suggests that compared with optimal medical treatment, angioplasty is a safe and slightly more effective treatment for stable angina. Patients can make an informed choice between these two treatments. The majority of patients treated with angioplasty in Australia have acute coronary syndromes and here there is good evidence of prognostic benefit with angioplasty compared with medical treatment. In many centres one-, two- and complicated three-vessel disease are managed this way. It has been shown to be as effective as coronary surgery for these patients but at the price of a higher rate of re-intervention. This is because the greatest limitation of angioplasty is the rate of restenosis in vessels that have been dilated. Restenosis
THE BEST CARDIOLOGISTS IN YELAHANKA Indications for coronary angiography 1 Angina not responding to medical treatment in a patient without contraindications (e.g. extreme old age—usually older than about 85 these days—or severe co-morbidities) to cardiac surgery or angioplasty. 2 Continuing chest pain whose cause is not clear despite non-invasive investigations. The procedure may well be worthwhile if it reveals normal coronary arteries and prevents a patient being treated unnecessarily with more and more anti-anginal drugs. Non-invasive investigations are more often equivocal in women, and more women than men are found to have normal coronaries at angiography. 3 Preparation of a patient older than 35 or so for some other cardiac surgery (e.g. valve replacement). The surgeon needs to know whether significant coronary disease is present so that coronary grafting can be performed at the time of valve surgery. Otherwise, patients are at risk of ischaemic problems in the post-operative period. 4 Diagnosis of cardiomyopathy (p. 267) by excluding coronary artery disease and infarction as the cause of angina or cardiac failure. These patients may benefit from revascularisation if significant coronary disease is also present (‘ischaemic cardiomyopathy’). 5 Investigation of patients following myocardial infarction. Routine transfer to a centre with angiographic facilities after successful thrombolytic treatment is a grade D recommendation. There is no proof that a patient without continuing ischaemia has an improved prognosis when angiography and revascularisation are carried out routinely after infarction. The Open Artery Trial results suggest there is no benefit compared with optimal medical treatment for patients without ischaemic symptoms in having an occluded vessel opened five days or more after an infarction. However, spontaneous or induced ischaemia (by modified stress testing or perfusion imaging) leads to a grade B recommendation for angiography and intervention. The management of post-infarct patients is definitely easier if the coronary anatomy is known, and many units adopt the policy of early (within a week) angiography of infarct patients without contraindications to revascularisation. 6 Non-ST elevation acute coronary syndromes (p. 156). 7 Acute myocardial infarction in a unit where primary angioplasty can be performed
IHEART SPECIALISTS IN HEBBALA ndications for coronary angiography 1 Angina not responding to medical treatment in a patient without contraindications (e.g. extreme old age—usually older than about 85 these days—or severe co-morbidities) to cardiac surgery or angioplasty. 2 Continuing chest pain whose cause is not clear despite non-invasive investigations. The procedure may well be worthwhile if it reveals normal coronary arteries and prevents a patient being treated unnecessarily with more and more anti-anginal drugs. Non-invasive investigations are more often equivocal in women, and more women than men are found to have normal coronaries at angiography. 3 Preparation of a patient older than 35 or so for some other cardiac surgery (e.g. valve replacement). The surgeon needs to know whether significant coronary disease is present so that coronary grafting can be performed at the time of valve surgery. Otherwise, patients are at risk of ischaemic problems in the post-operative period. 4 Diagnosis of cardiomyopathy (p. 267) by excluding coronary artery disease and infarction as the cause of angina or cardiac failure. These patients may benefit from revascularisation if significant coronary disease is also present (‘ischaemic cardiomyopathy’). 5 Investigation of patients following myocardial infarction. Routine transfer to a centre with angiographic facilities after successful thrombolytic treatment is a grade D recommendation. There is no proof that a patient without continuing ischaemia has an improved prognosis when angiography and revascularisation are carried out routinely after infarction. The Open Artery Trial results suggest there is no benefit compared with optimal medical treatment for patients without ischaemic symptoms in having an occluded vessel opened five days or more after an infarction. However, spontaneous or induced ischaemia (by modified stress testing or perfusion imaging) leads to a grade B recommendation for angiography and intervention. The management of post-infarct patients is definitely easier if the coronary anatomy is known, and many units adopt the policy of early (within a week) angiography of infarct patients without contraindications to revascularisation. 6 Non-ST elevation acute coronary syndromes . 7 Acute myocardial infarction in a unit where primary angioplasty can be performed . Risks of cardiac catheterisation Cardiac catheterisation is an invasive procedure and patients must be aware of
Average reductions in coronary events (benefits are greatest in patients with highest total risk) 1 Smoking cessation: 50% reduction in coronary events6 2 Low-dose aspirin in high-risk patients: 25% reduction in coronary events7 3 20% reduction in total cholesterol with statin treatment: 30% reduction in coronary events8 4 Treatment with pravastatin after acute coronary events: 22% reduction in mortality9 5 5–6 mmHg reduction in blood pressure: 15% reduction in coronary events (40% risk reduction for stroke)10 6 30 minutes of moderate exercise a day: 18% reduction in coronary events11 CARDIAC SPEACIALIST IN HEBBALA
THE HYPERDYNAMIC STATE. MI with hyperdynamic state—that is, elevation of sinus rate, arterial pressure, and cardiac index, occurring singly or together in the presence of a normal or low left ventricular filling pressure—and if other causes of tachycardia such as fever, infection, and pericarditis can be excluded, treatment with beta blockers is indicated. Presumably, the increased heart rate and blood pressure are the result of inappropriate activation of the sympathetic nervous system, possibly secondary to augmented release of catecholamines, pain and anxiety, or some combination of these.
1
false