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

Cardiac disease constitutes a common complication among patients with renal failure. This is partly due to the high incidence of shared risk factors, such as hypertension or diabetes mellitus, and some to specific factors inherent in renal disease. It implies a high incidence of cardiac failure and ischemic heart disease (frequently without significant coronary artery obstructions) with important associated morbidity and mortality. Pericardial disease, valvular involvement and arrhythmia are also common among these patients. The management of these complications in patients with endstage renal disease has some particularities, specially in the field of drug therapy.
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PMID:[Cardiac pathology of extracardiac origin (IX)> Cardiac pathology in the patient with chronic nephropathy]. 966

In the ICU, both transthoracic and transesophageal echocardiography can assist in the acute management of a number of different disorders. In hypotensive patients, echocardiography helps distinguish between cardiogenic shock (resulting from acute myocardial infarction), septic shock, and circulatory shock (associated with a reduction in circulating blood volume); it can also help determine whether pericardial effusion or obstruction to valvular flow is producing the hypotension and suggesting pulmonary embolus. Other roles for echocardiography include differentiating left- and right-sided heart failure, assessing the extent of pericardial disease, diagnosing disorders of the thoracic aorta, and evaluating traumatic heart disease.
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PMID:Getting best results from echocardiography in emergency situations. Indications include shock, infarction, heart failure, trauma, tamponade. 1014 56

Cardiac disease is often life-threatening and challenging to treat. Prolonged therapy is indicated in many cases, which can lead to problems with treatment costs, owner compliance, and potential drug toxicity. Many therapies are empirical or based on data from other species because of a lack of well-designed prospective clinical trials in horses. This article reviews the clinical pharmacology and therapeutics of heart failure, cardiac arrhythmias, myocardial disease, endocarditis, and pericardial disease.
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PMID:Equine cardiac disease. Clinical pharmacology and therapeutics. 1058 65

In patients with cardiomegaly and signs and symptoms compatible with CHF, unilateral right-sided or bilateral pleural effusions of similar size are likely to be due to left-sided CHF. Isolated right ventricular failure or chronic pulmonary hypertension is not usually associated with pleural effusions, and unrecognized or new-onset left ventricular dysfunction and other causes should be considered when a patient with cor pulmonale presents with a pleural effusion. Unilateral left-sided pleural effusions with cardiomegaly may be due to pericardial disease. Current hypotheses do not adequately explain the laterality of effusions in CHF or pericardial disease. Clinical and radiographic correlation is always required; however, the associations described occur often enough to make them useful in day-to-day clinical practice. When ascribing pleural effusions to CHF, clinicians must be sure the clinical signs and history "fit the picture," because pneumonia and pulmonary embolism may also cause pleural effusions in patients with heart failure. Typical pleural effusions in patients with uncomplicated CHF (demonstrated by small to medium-sized effusions and the absence of fever, leukocytosis, pleuritic chest pain, or marked asymmetry in bilateral effusions) do not require routine diagnostic thoracentesis for evaluation. A reasonable approach in such cases is treatment of the underlying CHF and follow-up radiography to monitor for resolution of the effusions. Prompt diagnostic thoracentesis is indicated whenever atypical features are present and other diagnoses are under consideration.
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PMID:Pleural effusions in cardiovascular disease. Pearls for correlating the evidence with the cause. 1088 42

Cardiovascular emergencies in oncology patients include all of the usual cardiac problems, as well as complications of cancer and its therapy. Pericardial effusions and tamponade, cardiac masses, and extrinsic compression of the heart and great vessels by tumor masses, or fluid collections may all occur. Certain tumors may secrete mediators that are directly toxic to the heart; for example, catecholamines are secreted by pheochromocytomas and serotonin is secreted by carcinoid tumors. Tumors can also cause arrhythmias due to the mediators they secret or to direct mechanical irritation of the heart or pericardium. Cancer therapy is also associated with cardiac emergencies. Perioperative myocardial ischemia or infarction, as well as arrhythmias, may complicate surgery. Pericardial effusions and tamponade can follow surgery, radiation, or chemotherapy. Chemotherapy with anthracyclines, mitoxantrone, and trastuzumab may prompt acute and chronic heart failure. 5-Fluorouracil causes coronary spasm in some patients, leading to angina, myocardial infarction, arrhythmias, and/or sudden death. Cyclophosphamide, particularly in high doses, may produce acute myopericarditis. Radiation may cause acute pericardial disease and late sequelae such as myocardial infarction, acute valvular insufficiency, or effusive constrictive pericarditis. Endocarditis also occurs in cancer patients in association with vascular access devices and immune compromise. This review will discuss each of these complications of cancer and its therapy.
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PMID:Cardiovascular emergencies in the cancer patient. 1086 14

Clinical heart failure with normal systolic function is suggestive of diastolic dysfunction. This can result from myocardial or pericardial disorders. Myocardial disorders are a broad range of pathologies leading to restrictive physiology. Amyloidosis is a prototype of restrictive cardiomyopathy leading to diastolic dysfunction. Pericardial disorders leading to diastolic heart failure are usually in the form of constrictive physiology. Differentiation between restrictive and constrictive pathologies is often difficult and require careful attention to hemodynamic and Doppler echocardiographic features.
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PMID:Diastolic heart failure. Constrictive, restrictive, and pericardial. 1098 86

A 57-year-old female patient with known cardiac disease developed a 4 to 6 week history of diarrhea, followed by onset of orthopnea and subsequent right-sided cardiac failure. On hospital admission she was found to have pure tricuspid regurgitation, without evidence of cardiac ischemia, pulmonary embolism, bacterial endocarditis or pericardial disease. A 24-hour urine collection for 5-HIAA was elevated, and a subsequent octreotide scan documented abnormal uptake in the pelvic cul-de-sac. Bilateral ovarian masses were found at laparotomy, which on pathological examination were found to be a benign left ovarian cystic teratoma, and a right carcinoid tumor of the ovary. This patient presented with systemic complaints of diarrhea, and orthopnea and right sided heart failure that on evaluation were ultimately found to be due to a unilateral primary carcinoid tumor of the ovary, which accounts for less than 0.1% of all ovarian carcinomas, and only 5% of all carcinoids. Treatment of this malignant carcinoid syndrome presentation consisted of debulking of the tumor and continuation of her diuretics and digoxin. Diarrhea and orthopnea ceased within 2 weeks after her oophorectomy. On evaluation 6 weeks and 6 months postoperatively, her cardiac function was stable, though unchanged. 5-HIAA levels were within normal limits, demonstrating the curative function of surgery in patients with unilateral ovarian carcinoid without evidence of metastases, as well as preserved cardiac function in otherwise stable patients.
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PMID:A case of diarrhea and orthopnea in a 57-year-old female. 1106 Oct 23

The use of helical CT, infusing pump and non-ionic contrast media has enabled the evaluation of different hepatic circulatory phases during contrast injection. Starting the acquisition of scans 20 to 30 seconds after the injection at a rate of 3 to 4 ml/sec the arterial enhancing of the liver is depicted. THROMBOSIS OR COMPRESSION OF THE PORTAL VEIN: Hypervascular triangle-shaped was with peripheral base can be seen, secondary to the increased arterial flow to compensate for the diminished portal flow. ARTERIOPORTAL SHUNTS: This condition can be caused by tumors such hepatocellular adenocarcinomas and hemangiomas, trauma, interventional procedures, cirrhosis, AVMs and surgery. INFLAMMATORY LESIONS: Hypervascular areas can be seen during the arterial phase in abscesses or cholecystitis, returning to their normal condition in the arterial phase. ANATOMIC VARIANTS: Third veins coming from the periphery (capsular veins, accessory cystic vein and an aberrant gastric vein) supply enhanced blood earlier than the portal circulation. OTHER CAUSES: In liver cirrhosis diffuse hyperattenuated areas can be seen during the arterial circulation. In right-sided heart failure, pericardial disease and Budd-Chiari Syndrome, "mosaic areas" can also be noted. In other patients these perfusion disorders were considered unknown. TUMORS: The well-differentiated hepatocellular carcinoma is a lesion with a predominant arterial blood supply, thus appearing in general hyperdense in this phase. Hemangiomas may appear as highly hyperdense lesions in the arterial phase and can be misinterpreted as HCC if smaller than 2 cm. (30% of cases). Focal nodular hyperplasia is a benign lesion (vascular malformation associated with focal nodules of hepatocellular hyperplasia) with increased arterial blood supply. Hepatic adenomas show an important hypervascularity during the arterial phase and, if large, they may present a small central scar and or capsule. Low or high-grade dysplastic nodules can sometimes be seen as hypervascular areas during the arterial phase. Although most metastasis are depicted as hypodense lesions sometimes they can show arterial hypervascularity such as carcinoid and pancreatic islet cell metastasis.
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PMID:[Liver hyperdensity during arterial phase on CT exams]. 1147 23

Congestive heart failure (CHF) is the leading cause of cardiac morbidity and mortality from cardiovascular disease. Although left ventricular (LV) diastolic dysfunction occurs in all patients with systolic dysfunction and CHF, fully one third of patients have CHF due to isolated diastolic dysfunction. Despite this, the role of diastolic function in heart failure is underappreciated by many primary care physicians and even by cardiologists. Development and validation of several noninvasive Doppler echocardiographic techniques that are relatively load-independent have made echocardiography the clinical standard for the assessment of LV diastolic function. Echocardiography uses portable equipment; is readily accessible and safe; and excludes other causes of CHF, such as valvular heart disease, pericardial disease, and systolic dysfunction. This review summarizes the use of recently developed Doppler techniques for the assessment of LV diastolic function, as well as their application in assessing prognosis and in guiding therapy for various cardiovascular disease states.
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PMID:Diastolic function assessment incorporating new techniques in Doppler echocardiography. 1277 17

This is the case of a patient who presented with severe right-sided heart failure due to diastolic dysfunction that caused a dilemma of differential diagnosis between restrictive cardiomyopathy and constrictive pericarditis. Restrictive cardiomyopathy was diagnosed based on noninvasive and invasive hemodynamic testing. However, the patient did not respond to therapy and succumbed to worsening heart failure and multiple comorbidities. Clinical features of right heart failure with edema, ascites, jugular venous distention, and tender hepatomegaly are commonly seen in clinical practice. When systolic function is determined to be normal, diastolic causes of heart failure must be ruled out. These include myocardial disorders with a broad range of pathologies leading to restrictive physiology, of which amyloidosis is a prototype. Pericardial disorders leading to diastolic heart failure are usually in the form of constrictive physiology, when pericardial tamponade is ruled out. Differentiation between restrictive and constrictive pathologies is often difficult and requires careful attention to hemodynamic and Doppler echocardiographic features. We report a case of severe right heart failure illustrating some of the complexities in decision-making and the importance of meticulous hemodynamic and ancillary testing in the diagnosis and treatment of this often fatal condition.
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PMID:Constrictive pericarditis versus restrictive cardiomyopathy: challenges in diagnosis and management. 1547 69


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