Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Diastolic heart failure is a distinct clinical entity increasingly seen in older patients and requires special awareness to make the diagnosis. Although no single laboratory test is identified for making a confident diagnosis of diastolic dysfunction as the pathogenetic mechanism for heart failure, a constellation of echocardiographic and radionuclear findings are helpful in most cases. Invasive assessment of LV diastole is laborious, requiring high-fidelity pressures and accurate measures of volumes, and these are rarely needed to diagnose the condition. It appears that prognosis is significantly better for those with normal systolic function, when compared with congestive heart failure caused by impaired systolic pump function. Finally, the therapeutic approaches are substantially different for the two groups. It must be emphasized that even patients with predominant myocardial systolic dysfunction have some combined diastolic dysfunction as well. This latter group is difficult to treat. However, improvement in systolic pump function, when markedly impaired, must take precedence in management strategies.
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PMID:Diastolic heart failure. 146 39

The clinical syndrome of congestive heart failure can result from inadequate myocardial contraction (systolic myocardial failure), from pseudo-heart failure due to circulatory overload, or from failure of the ventricles to fill at low pressure (diastolic myocardial failure). The presence of systolic or diastolic heart failure is most precisely defined by an examination of left ventricular pressure-volume relations. Diastolic failure commonly coexists with systolic dysfunction. However, in many patients, diastolic dysfunction may exist alone or as the predominant physiologic disturbance. This is especially true in such common disease states as systemic hypertension and ischemic heart disease. Like systolic heart failure, diastolic failure results in significant morbidity and mortality. Diastolic heart failure may correlate better with prognosis for symptoms and survival than traditional indices of systolic function. The presence of predominantly diastolic dysfunction in large numbers of patients with the diagnosis of congestive heart failure has important therapeutic implications.
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PMID:Prognosis in heart failure: is systolic or diastolic dysfunction more important? 182 Mar

Diastolic heart failure is characterized by increased resistance to diastolic filling of one or both cardiac ventricles. Although some degree of diastolic failure exists in most patients presenting clinically with heart failure, a substantial subset of patients have relatively pure diastolic heart failure with normal systolic function. Diastolic heart failure can be due to structural abnormalities that increase resistance to ventricular inflow, and these structural abnormalities can be extramyocardial (e.g., constrictive pericarditis and mitral stenosis) or intramyocardial (e.g., fibrosis and amyloidosis). In addition to structural abnormalities, physiological derangement of myocardial inactivation and relaxation can contribute importantly to diastolic dysfunction in patients with heart failure. There is mounting evidence that advanced myocardial hypertrophy is associated with increased resistance to ventricular diastolic inflow due to both structural alteration (increased wall thickness and altered collagen matrix) and impaired diastolic relaxation of the hypertrophied myocardium. Physiological mechanisms for impaired relaxation in advanced hypertrophy remain controversial but can include disordered function of myocardial sarcoplasmic reticulum, subendocardial ischemia, and altered adenylate cyclase function. Diastolic dysfunction can play an important role in the genesis of flash pulmonary edema seen in patients with ischemic heart disease because myocardial ischemia is associated with a decline in relaxation rate, increased resistance to early diastolic filling, and in some cases, a striking upward shift in the left ventricular diastolic pressure-volume relation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Diastolic dysfunction and congestive heart failure. 213 51

Diastolic heart failure, in the absence of LV systolic dysfunction, is a common clinical condition that can be demonstrated in as many as one third of patients with congestive heart failure. Diastolic dysfunction caused by abnormalities in LV filling can be a result of many pathologic conditions, including hypertrophy, infiltrative cardiomyopathies, or myocardial ischemia. The major physiologic determinants of LV filling can be divided into cellular mechanisms, hemodynamic characteristics, and hormonal influences. Cellular mechanisms for impaired LV inactivation are determined by the handling of calcium within the myocyte during excitation-contraction-relaxation coupling. The hemodynamic characteristics of LV diastolic filling are determined by loading conditions, the time constant of isovolumic relaxation, heart rate, ventricular nonuniformity, pericardial restraint, myocardial elasticity, chamber compliance, and coronary blood flow. The sympathetic nervous system and the renin-angiotensin system are important modulators of diastolic filling, directly or indirectly. The diagnosis of heart failure is confirmed by a combination of clinical tests including invasive and noninvasive techniques, each of which has advantages and disadvantages. Treatment of medical conditions in which diastolic heart failure is a prominent component include pharmacotherapy with calcium channel antagonists, beta-adrenergic blocking agents, diuretic agents, and angiotensin-converting-enzyme inhibitors. Certain conditions associated with diastolic filling abnormalities such as pericardial disease or severe ischemic heart disease may be best managed by surgical or percutaneous intervention. Future research will include further delineation of the cellular mechanisms of active myocardial relaxation and clinical investigation into treatment directed at improving outcome.
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PMID:Mechanisms, diagnosis, and treatment of diastolic heart failure. 761 Nov 7

Diastolic heart failure is common, particularly in patients with coronary artery disease and hypertension. Although it does not contribute to heart failure mortality to the same degree as systolic dysfunction, it is responsible for significant morbidity. Clinical suspicion is a prerequisite to the diagnosis, which should be considered in all patients with exercise intolerance due to dyspnoea, particularly if associated with a history of ischaemic heart disease or hypertension. Although invasive haemodynamic studies are the gold standard investigation, this method of assessment is limited to a very small proportion of these patients, and echocardiography remains the single most useful investigation. It is important to realize that the management of diastolic heart disease depends to a large extent on the aetiology, which contrasts with the treatment of systolic dysfunction. As indicated, a wide variety of different drugs may potentially be of benefit, although considerable further research will be needed to more clearly define this heterogenous condition and its optimal treatment.
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PMID:Left ventricular diastolic dysfunction. 792 4

Age-related changes of diastolic left ventricular (LV) function consist of increased diastolic wall stiffness (reduced compliance) and diminished velocity and extent of relaxation. There is a shift of ventricular filling from early to late diastole. Atrial contribution to LV filling increases, which helps maintain stroke volume. In normal cardiovascular aging this diastolic dysfunction is compensated. However, the aging heart is sensitized against influences aggravating diastolic dysfunction such as arterial hypertension, LV hypertrophy, myocardial ischemia (coronary heart disease), tachycardias/ tachyarrhythmias. In diastolic heart failure LV is unable to fill adequately at normal diastolic pressures, resulting in symptoms of pulmonary congestion and, less often, low output despite normal LV size and contraction. Diastolic heart failure may be misinterpreted as systolic dysfunction and, eventually, treated in an unsuitable manner. In order to obtain data on the incidence of diastolic heart failure among inpatients of a department of geriatrics of a municipal hospital, the results of 253 patients undergoing echocardiography in the course of 1 year were analyzed. The investigations comprised 70 males and 183 females, aged 81.3 (61-98) years on average. In 164 cases, symptoms of heart failure were present. Only in 48 of them (29%) LV proved to be dilated. In the majority, LV size was normal (116 patients; 71%): systolic function was compromised in 53 cases, whereas 63 patients (38% of all cases with heart failure) had a normal systolic function. Most of the latter (48 patients) had diastolic dysfunction, whereas an adequate echocardiographic evaluation was not possible for technical reasons in the remaining 15 cases. It is highly probable, however, that they had diastolic LV dysfunction as well. Thus, the results show a high frequency of LV dysfunction in elderly inpatients, which underlines the importance of diastolic heart failure in this age group.
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PMID:[Underestimated--diastolic heart failure in elderly patients]. 876 18

Primary diastolic failure is typically seen in patients with hypertensive or valvular heart disease as well as in hypertrophic or restrictive cardiomyopathy but can also occur in a variety of clinical disorders, especially tachycardia and ischemia. Diastolic dysfunction has a particularly high prevalence in elderly patients and is generally associated, with low mortality but high morbidity. The pathophysiology of diastolic dysfunction includes delayed relaxation, impaired LV filling and/or increased stiffness. These conditions result typically in an upward displacement of the diastolic pressure-volume relationship with increased end-diastolic, left atrial and pulmo-capillary wedge pressure leading to symptoms of pulmonary congestion. Diagnosis of diastolic heart failure requires three conditions: (1) presence of signs or symptoms of heart failure; (2) presence of normal or slightly reduced LV ejection fraction (EF > 50%) and (3) presence of increased diastolic filling pressure. Assessment of diastolic function can be performed with several non-invasive (2D- and Doppler-echocardiography, color Doppler M-mode, Doppler tissue imaging, MR-myocardial tagging, radionuclide ventriculography) and invasive techniques (micromanometry, angiography, conductance method). Doppler-echocardiography is the most useful tool to routinely measure diastolic function. Different techniques can be used alone or in combination to assess LV diastolic function, but most of them are dependent on heart rate, pre- and afterload. The transmitral flow pattern remains the starting point, since it is easy to acquire and rapidly categorizes patients into normal (E > A), delayed relaxation (E < A), and restrictive (E >> A) filling patterns. Invasive assessment of diastolic function allows determination of the time constant of relaxation from the exponential pressure decay during isovolumic relaxation, and the evaluation of the passive elastic properties from the slope of the diastolic pressure-volume (= constant of chamber stiffness) and stress-strain relationship (= constant of myocardial stiffness). The prognosis of diastolic heart failure is usually better than for systolic dysfunction. Diastolic heart failure is associated with a lower annual mortality rate of approximately 8% as compared to annual mortality of 19% in heart failure with systolic dysfunction, however, morbidity rate can be substantial. Thus, diastolic heart failure is an important clinical disorder mainly seen in the elderly patients with hypertensive heart disease. Early recognition and appropriate therapy of diastolic dysfunction is advisable to prevent further progression to diastolic heart failure and death. There is no specific therapy to improve LV diastolic function directly. Medical therapy of diastolic dysfunction is often empirical and lacks clear-cut pathophysiologic concepts. Nevertheless, there is growing evidence that calcium channel blockers, beta-blockers, ACE-inhibitors and AT2-blockers as well as nitric oxide donors can be beneficial. Treatment of the underlying disease is currently the most important therapeutic approach.
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PMID:Diastolic heart failure. 1072 7

The diagnosis of diastolic heart failure (DHF) can be made when a patient has both symptoms and signs on physical exam of congestive heart failure (CHF), and normal left ventricular volume and ejection fraction. Documentation of abnormal diastolic function is confirmatory but not mandatory. Diastolic heart failure is a frequent cause of CHF (prevalence is 35% to 50%) and has a significant effect on mortality (5-year mortality rate is 25% to 35%) and morbidity (1-year readmission rate is 50%). Treatment should be targeted at symptoms, causal clinical disease, and underlying basic mechanisms. Symptom-targeted therapy: decrease pulmonary venous pressure using diuretics and long-acting nitrates, maintain atrial contraction and atrial ventricular synchrony, reduce heart rate using beta-adrenergic blockers and calcium channel blockers; increase exercise tolerance by reducing exercise- induced increases in blood pressure and heart rate using angiotensin-converting enzyme (ACE) inhibitors, angiotensin II receptor blockers, and calcium channel blockers. Disease-targeted therapy: prevent or treat myocardial ischemia, prevent or regress left ventricular hypertrophy. Mechanism-targeted therapy (future directions): modify neurohumoral activation using renin, angiotensin, and aldosterone system antagonists (ACE inhibitors, angiotensin II receptor blockade, aldosterone and renin antagonist); endothelin antagonists; nitric oxide agonists; and atrial natruretic peptide agonists; alter intracellular mechanisms; alter extracellular matrix structures.
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PMID:Diastolic Heart Failure. 1109 48

We experienced a case of T-cell lymphoma demonstrating diastolic heart failure as an initial manifestation. An 81-year-old Japanese male was admitted to the University of Tokyo Hospital because of progressive dyspnea and general fatigue. Clinical presentation was congestive heart failure and cervical lymphadenopathy. Right heart catheterization revealed "dip and plateau" waveforms in right ventricular pressure, which suggested a constrictive nature of heart failure. Gallium scintigram showed marked uptake in the heart. Biopsy from a cervical lymph node confirmed the diagnosis of malignant lymphoma of T-cell origin. Diastolic heart failure remained after successful chemotherapy. Autopsy revealed pericarditis with severe adhesion of the pericardium and the epicardium.
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PMID:Pericardial constriction due to malignant lymphoma. 1113 74

A large number of patients suspected of having congestive heart failure have normal left ventricular systolic function and may, therefore, have primary diastolic heart failure. This diagnosis, however, should not be made unless there is also objective evidence of diastolic dysfunction, ie, signs of abnormal left ventricular relaxation and/or diastolic distensibility. The most useful noninvasive diagnostic approaches are the measurement of transmitral and pulmonary venous flow velocities by pulsed wave Doppler, and mitral annulus velocities by tissue Doppler echocardiography. In some patients, the assessment of intraventricular flow propagation by colour M-mode Doppler echocardiography provides additional information. Diastolic heart failure is most often due to coronary artery disease and/or hypertension; therefore, other noninvasive or invasive tests are needed to define the etiology of myocardial dysfunction. However, in the few patients who have constrictive pericarditis, the Doppler echocardiographic assessment of diastolic filling provides the most important clues to the etiology of the disease. Doppler echocardiographic assessment of left ventricular filling may also be used to obtain semiquantitative estimates of left ventricular diastolic pressure. Furthermore, left ventricular filling patterns, in particular, the deceleration time of early transmitral filling, are powerful predictors of patient prognosis. It is probably not cost effective to perform a comprehensive assessment of diastolic filling in every patient undergoing an echocardiographic examination. However, in selected patients, the assessment of diastolic filling provides information that is important for patient management.
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PMID:Assessment of ventricular diastolic function. 1172 85


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