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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
POPULAR CARDIOLOGISTS IN SAHAKARANAGAR Cardiomyopathies and valvular heart disease Regardless of the status of the coronary arterial tree, both primary and secondary heart muscle disease can produce anginal pain through the imbalance of the oxygen demand and supply. Hypertrophic cardiomyopathy is a relatively common cause of angina in the presence of normal coronary arteries. Aortic stenosis is the most common valvular cause of exertional chest tightness, which is probably due to myocardial ischaemia Exertional chest pain, which may be due to right ventricular angina, is a feature of pulmonary hypertension . Syndrome X There is some confusion regarding the ‘metabolic’ and ‘cardiac’ varieties. The former is a combination of insulin resistance, obesity, pro-inflammatory state and so on, leading to raised cardiovascular risk in the sufferers. The latter is, or should be, a form of stable effort angina that can be ascribed to coronary microvascular malfunction.23 The epicardial coronary tree is normal and the diagnosis is rather difficult to make except by exclusion. Acute coronary syndromes The terminology used to describe acute coronary syndromes (ACSs) continues to evolve as clinicians attempt to adjust to the accumulating evidence of the usefulness of modern cardiac markers and the treatment implications of different results. The most recent terminology is designed to help with treatment decisions based on the earliest clinical information from the patient. This comes from the history and the ECG. When the patient’s symptoms suggest an acute coronary syndrome, the first decisions about diagnosis and treatment are based on the ECG. If there is ST elevation present in a pattern to suggest myocardial infarction, the diagnosis is of ‘ST elevation myocardial infarction’ (STEMI). If there is no ST elevation, the initial diagnosis is of ‘non-ST elevation acute coronary syndrome’ (NSTEACS).24 This elegant phrase has replaced ‘non-ST elevation myocardial infarction’ (non- STEMI). The reason is that the diagnosis of infarction cannot be made in the absence of ST elevation until cardiac marker estimations are available. The decisions about treatment, however, need to be made immediately and are based on symptoms and ECG changes.
POPULAR CARDIOLOGISTS IN H S R LAYOUT Ventricular tachycardia Ventricular tachycardia is defined as three or more ventricular ectopic beats at a rate over 100/minute. It is said to be sustained if it lasts more than 30 seconds. Most broad-complex tachycardias are ventricular (rather than supraventricular with aberrant conduction). The diagnosis of VT is greatly strengthened if there is a history of myocardial infarction or cardiac failure but, oddly enough, the patient’s haemodynamics are of no help. A number of criteria have evolved over the years to help ascertain the diagnosis of VT over aberrancy. These include: evidence of AV dissociation—P waves can be seen unrelated to the QRS complexes (they are usually visible only at relatively slow VT rates) the presence of supraventricular capture or fusion beats visible retrograde conduction with 2:1 block (P waves visible following every second complex) the presence of monophasic R, qR or QR patterns in V1, provided a septal infarction has not modified a RBBB a taller left rabbit ear in RR' or qRR' complexes in V1 n QS complexes in V1 with a slow S descent and sharp upstroke—the opposite of LBBB—or a broad small primary R wave in rS morphology (the Rosenbaum pattern) RAD in the frontal plane with LBBB-like QRS complexes
Indications for Hemodynamic Monitoring in Patients with STEMI Management of complicated acute myocardial infarction Hypovolemia versus cardiogenic shock Ventricular septal rupture versus acute mitral regurgitation Severe left ventricular failure Right ventricular failure Refractory ventricular tachycadia Differentiating severe pulmonary disease from left ventricular failure Assessment of cardiac tamponade Assessment of therapy in selected individuals Afterload reduction in patients with severe left ventricular failure Inotropic agent therapy Beta-blocker therapy Temporary pacing (ventricular versus atrioventricular) Intraaortic balloon counterpulsation Mechanical ventilation
A risk factor is a demographic characteristic associated with an increased risk of ischaemic heart disease when other variables have been controlled. The presence of a risk factor in an individual increases his or her relative risk of a coronary event (angina, infarction or death). The absolute risk of a coronary event depends on the individual’s total number of risk factors and theirseverity (total risk). Important coronary risk factors are shown in Table 1.1. Risk assessment charts have been developed to estimate a patient’s cardiac risk over a number of years using easily identified risk factors. There are charts for different populations. The charts can be used to predict cardiovascular events or mortality (as in the NHF chart in Fig 1.1 on p. 4) or cardiac risk (systematic coronary risk evaluation system or SCORE charts). These charts can be very helpful in deciding when intervention to reduce risk is warranted; for example, when anti-hypertensive treatment should be commenced for a patient with mild blood pressure elevation. Risk factor reduction involves assessing the presence, severity and importance of risk factors for a
PAPULAR CARDIOLOGISTS IN SAHAKARANAGAR Myocardial infarction and ischaemia Recognition of ischaemic changes has gained in importance from the recent increase in percutaneous coronary interventions. It still retains its established importance in other aspects of the management of acute coronary syndromes. Decisions on the immediate treatment of patients with chest pain are made according to findings on the ECG. This is a cheap test that can be performed quickly at the bedside and interpreted without delay
THE BEST CARDIOLOGISTS IN YELAHANKAMedical treatment of stable angina Treatment of any disease must begin with a thorough explanation of the likely diagnosis, severity and prognosis. The possible investigations required and steps to be taken if symptoms persist despite treatment should be outlined. A warning (firm, but not alarming) should be given that a prolonged episode of chest pain (more than about 15 minutes) should prompt the patient to get to a hospital without delay. This may also be the first opportunity to speak to the patient about the control of risk factors (e.g. smoking, hyperlipidaemia) that will be important for the long-term prognosis. Risk factor assessment should form part of this initial consultation and include a request for measurement of the serum lipids . a b (a) An MDCT scan of a diseased right coronary artery and the corresponding coronary angiogram (b) An MDCT reconstructed image of the heart and great vessels 140 PRACTICAL CARDIOLOGY A patient with symptoms typical of angina but who seems stable enough not to need admission to hospital should be started on treatment while awaiting investigations to confirm the diagnosis (usually stress testing). Treatment should aim to improve symptoms and, if possible, improve the prognosis (i.e. reduce the risk of unstable angina, infarction or death). Some drugs that help control the symptoms of angina may also improve the prognosis; other treatment may help the longer-term outlook by improving risk factors. Anti-platelet
CARDIOLOGIST IN DODDABOMMASANDRA, BANGALORE Cardiac rehabilitation Although rehabilitation has been a part of the management of patients following a myocardial infarction since the beginning of the last century, ideas have changed radically about the form this should take. In the early 1900s Sir Thomas Lewis insisted his patients remain in bed and be ‘guarded by day and night nursing and helped in every way to avoid voluntary movement or effort’. These severe restrictions were continued for at least six to eight weeks. The thinking was that complete rest would reduce the risk of aneurysm formation and avoid hypoxia that might cause arrhythmias. Even after discharge mild exertion was discouraged for up to a year and return to work was most unusual. In the 1970s periods of bed rest of between one and four weeks were enforced and patients remained in hospital for up to four weeks. It is now clear that this de-conditioning has many adverse physical and psychological effects. Patients with uncomplicated infarcts are now mobilised in hospital within a day or so of admission and are often discharged on the third day if successful primary angioplasty has been performed. Many hospitals provide a supervised rehabilitation program for patients who have had an infarct or episode of unstable angina. The program begins in hospital as soon as possible after admission. It includes a graded exercise regimen and advice about risk factor control. Such programs have many benefits for patients to help them to return quickly to normal life, including work and sexual activity. The supervised exercise regimen helps restore the patient’s confidence. There is clear evidence of the benefits of exercise for patients with ischaemic heart disease.54 Rehabilitation programs have been shown to be cost-effective. Well-conducted programs are tailored to individual patients’ needs and are very popular with many patients.55 There are often long-term exercise groups available for people who have completed the formal classes. Non-cardiac causes of chest pain Pulmonary embolism
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