Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0034065 (pulmonary embolism)
14,979 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A young woman presented with rapidly progressive dyspnea and clinical findings strongly suggestive of primary pulmonary hypertension or possible pulmonary embolism (or both). She died of acute right-sided heart failure. A diagnosis of pulmonary veno-occlusive disease was made at autopsy. Approximately 100 cases of this disease have been reported previously in the literature. We describe a patient with a particularly florid progression of this unusual disease. Death occurred within six weeks of the onset of symptoms.
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PMID:Florid pulmonary veno-occlusive disease. 220 15

A 30-year-old woman in the 36th week of her second pregnancy, suddenly developed jaundice with remarkable liver necrosis, accompanied by generalized bleeding due to disseminated intravascular coagulation (DIC). She underwent a caesarean and a dead foetus was extracted from the uterus. Heparin and frozen plasma infusion resulted in a prompt recovery from the haemostatic disorder. The course of the disease involved the successive appearance of haemorrhagic shock, intestinal ileus and pulmonary embolism all of which she recovered from. The liver biopsy showed severe cholestasis without derangement of the lobular structure. Hypotheses of acute veno-occlusive disease caused by the DIC, and acute fatty liver of pregnancy are discussed.
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PMID:[Disseminated intravascular coagulation and acute hepatic necrosis at the end of pregnancy. A case report]. 262 77

A 75-year-old man complaining of dyspnea and having sings of postcapillary pulmonary hypertension was diagnosed as pulmonary veno-occlusive disease and confirmed at autopsy. This is the oldest case ever reported. Almost all the small veins 2 mm or less in external diameter were partially or nearly completely occluded by intimal fibrous tissue, and the obstructive changes in the pulmonary arteries were much more limited. Pulmonary veno-occlusive disease is a rare, almost inevitably fatal disease of unknown etiology which has only recently been separated clearly from primary pulmonary hypertension as a distinct entity. Chest roentgenogram finding suggesting postcapillary pulmonary hypertension is a clue to a diagnosis and differentiates this from two other causes of clinical primary pulmonary hypertension, that is, recurrent pulmonary embolism and plexogenic pulmonary arteriopathy.
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PMID:Pulmonary veno-occlusive disease in an elderly man: case report and review of the literature. 623 4

The most important problem in the approach to young patients with acute pleurisy is distinguishing those with idiopathic or viral pleurisy from patients with pulmonary embolism. Three clinical features are helpful in making this distinction: (1) pleural effusion(s) present on chest roentgenography, (2) history of predisposing factors for or past history of veno-occlusive disease, and (3) physical signs indicative of phlebitis. Lung scanning should be performed in patients with these findings. If results of scanning are highly characteristic of pulmonary embolism (segmental or lobar defect with ventilation/perfusion mismatch) in such a patient, anticoagulation may be considered immediately. Patients in whom scanning reveals indeterminate characteristics or abnormalities not characteristic of pulmonary embolism should undergo pulmonary angiography if other clinical features suggest that the probability of pulmonary embolism remains at least moderately high.
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PMID:Analysis of the differential diagnosis and assessment of pleuritic chest pain in young adults. 662 74

Respiratory failure is the main cause of death in patients undergoing bone marrow transplantation (BMT). In this paper, clinical and research aspects as well as diagnostic, prophylactic and therapeutic strategies concerning the various forms of pulmonary and bronchial complications, which may evolve after BMT, are discussed. Both cytomegalovirus (CMV)-induced interstitial pneumonia (PM) and the idiopathic pneumonia syndrome rarely occur in the cytopenic phase post-BMT. Haematological reconstitution with donor type cells seems to be a prerequisite to the development of these complications, suggesting a key role of immunological reactions. While CMV pneumonia can be effectively treated or prevented by ganciclovir, the idiopathic syndrome is usually fatal. Due to improved prophylaxis and therapy, lethal interstitial PM due to Pneumocystis carinii, herpes simplex, varizella zoster or Toxoplasma gondii as well as lethal PM caused by bacteria or Candida species are comparatively rare events. Aspergillus species, on the other hand, have emerged as frequent causative pathogens in lethal PM during the past years. Prolonged granulocytopenia and prolonged medication with corticosteroids are major risk factors of pulmonary aspergillosis, which is usually fatal; effective prophylaxis may be achieved by sterile air supply during the hospital stay and by inhalation of amphotericin B thereafter. Pulmonary haemorrhage, as diagnosed by bronchoalveolar lavage (BAL), may develop due to the toxicity of the conditioning regimen, or may be secondary to infectious PM of various kind. Congestive heart failure or the application of cytokines might give rise to the development of pulmonary oedema. Patients with hepatic veno-occlusive disease have a high risk of subsequent pulmonary complications, possibly on the basis of toxic lung injury. Venous thromboembolism or air embolism may occur; they are usually venous catheter-associated. Pleural effusions may develop secondary to infection, congestive heart failure, veno-occlusive disease, pulmonary embolism or malignancy. Patients with bronchiolitis obliterans, which leads to progressive respiratory failure, present with an obstructive pattern in lung function tests and hyperinflated lungs on chest radiographs.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The lung as a critical organ in marrow transplantation. 772 20

Image-guided interventional techniques have markedly altered the management of many cardiothoracic problems in the intensive care unit. These techniques are less invasive, more patient friendly, and cost-effective. This article covers venous line placement and management, transpleural and transpulmonary biopsy and drainage procedures and interventions for variceal bleeding, massive hemoptysis, massive pulmonary embolism, and veno-occlusive disease.
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PMID:Interventional procedures in the intensive care unit patient. 853 49

Pulmonary edema may be classified as increased hydrostatic pressure edema, permeability edema with diffuse alveolar damage (DAD), permeability edema without DAD, or mixed edema. Pulmonary edema has variable manifestations. Postobstructive pulmonary edema typically manifests radiologically as septal lines, peribronchial cuffing, and, in more severe cases, central alveolar edema. Pulmonary edema with chronic pulmonary embolism manifests as sharply demarcated areas of increased ground-glass attenuation. Pulmonary edema with veno-occlusive disease manifests as large pulmonary arteries, diffuse interstitial edema with numerous Kerley lines, peribronchial cuffing, and a dilated right ventricle. Stage 1 near drowning pulmonary edema manifests as Kerley lines, peribronchial cuffing, and patchy, perihilar alveolar areas of airspace consolidation; stage 2 and 3 lesions are radiologically nonspecific. Pulmonary edema following administration of cytokines demonstrates bilateral, symmetric interstitial edema with thickened septal lines. High-altitude pulmonary edema usually manifests as central interstitial edema associated with peribronchial cuffing, ill-defined vessels, and patchy airspace consolidation. Neurogenic pulmonary edema manifests as bilateral, rather homogeneous airspace consolidations that predominate at the apices in about 50% of cases. Reperfusion pulmonary edema usually demonstrates heterogeneous airspace consolidations that predominate in the areas distal to the recanalized vessels. Postreduction pulmonary edema manifests as mild airspace consolidation involving the ipsilateral lung, whereas pulmonary edema due to air embolism initially demonstrates interstitial edema followed by bilateral, peripheral alveolar areas of increased opacity that predominate at the lung bases. Familiarity with the spectrum of radiologic findings in pulmonary edema from various causes will often help narrow the differential diagnosis.
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PMID:Clinical and radiologic features of pulmonary edema. 1055 72

Pulmonary hypertension is the hemodynamic consequence of vascular changes within the precapillary (arterial) or postcapillary (venous) pulmonary circulation. These changes may be idiopathic, as in primary pulmonary hypertension or pulmonary veno-occlusive disease, but more commonly they represent a secondary response to alterations in pulmonary blood flow. The pulmonary and systemic bronchial circulations form broad anastomoses that largely prevent infarction except in settings of markedly elevated pulmonary venous pressure, underlying malignancy, or excessive embolic burden. Causes of precapillary pulmonary hypertension include long-standing cardiac left-to-right shunt, chronic thromboembolic disease, and widespread pulmonary embolism arising from intravascular malignant cells, parasites, or foreign materials. The classic radiologic features of precapillary pulmonary hypertension are central arterial enlargement, sharply pruned peripheral vascularity, and right-sided heart hypertrophy and chamber dilatation. Postcapillary pulmonary hypertension may develop secondary to focal venous constriction or to compromised pulmonary venous drainage due to left atrial neoplasia, mitral stenosis, or left ventricular failure. Radiologic manifestations of postcapillary pulmonary hypertension include prominent septal lines, small pleural effusions, and occasionally air-space opacities. In addition, radiologic evaluation of postcapillary pulmonary hypertension may demonstrate evidence of pulmonary arterial hypertension, secondary to the retrograde transmission of elevated pulmonary venous pressure across the capillary bed.
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PMID:From the archives of the AFIP: pulmonary vasculature: hypertension and infarction. 1071 47

Mixed connective tissue disease (MCTD) is a systemic disease seen in a group of patients with overlapping clinical features of lupus, scleroderma, polymyositis, and rheumatoid arthritis. A defining feature of MCTD is the presence of antibodies against the U1-ribonucleoprotein (U1-RNP) complex. Pulmonary hypertension is the major cause of death in MCTD. We report an autopsy case of MCTD with pulmonary hypertension. The U1-RNP antibody of this patient was 171.9 U (normal < 25.0 U). The immediate cause of death was attributed to acute pulmonary embolism at left lower lobe. A severe vasculopathy characterized by fibrotic occlusion of small veins and venules, associated with prominent capillary congestion, was consistent with pulmonary veno-occlusive disease (PVOD). This is the first case reported in which PVOD is the primary cause of pulmonary hypertension in MCTD.
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PMID:Pulmonary veno-occlusive disease as a primary cause of pulmonary hypertension in a patient with mixed connective tissue disease. 1752 Feb 58

Pulmonary hypertension may primarily affect either the arterial (precapillary) or the venous (postcapillary) pulmonary circulation. Pulmonary arterial hypertension may be idiopathic or arise in association with chronic pulmonary thromboembolism; pulmonary embolism caused by tumor cells, parasitic material, or foreign material; parenchymal lung disease; liver disease; vasculitis; human immunodeficiency virus infection; or a left-to-right cardiac shunt. Its histologic characteristics include vascular changes-medial hypertrophy, intimal cellular proliferation, intraluminal thrombosis, and the development of plexiform lesions-that manifest primarily in the muscular pulmonary arteries. Features of pulmonary arterial hypertension that may be seen at computed tomography (CT) are central pulmonary artery dilatation, abrupt narrowing or tapering of peripheral pulmonary vessels, right ventricular hypertrophy, right ventricular and atrial enlargement, dilated bronchial arteries, and a mosaic pattern of attenuation due to variable lung perfusion. Pulmonary venous hypertension may result from pulmonary veno-occlusive disease, pulmonary venous compression by extrinsic lesions (eg, mediastinal fibrosis), left-sided cardiac disease, or pulmonary vein stenosis. Its histologic hallmarks include venous intimal cellular proliferation, medial hypertrophy, and thickening of the internal elastic lamina; capillary congestion and proliferation; interlobular septal thickening; lymphatic dilatation; and, sometimes, venous infarction and vascular changes characteristic of pulmonary arterial hypertension. CT scans in patients with pulmonary venous hypertension show pulmonary interstitial and alveolar edema with signs of pulmonary arterial hypertension. High-resolution CT with standard axial and angiographic acquisitions is useful for identifying underlying disorders and differentiating among the various causes of secondary pulmonary hypertension.
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PMID:CT findings in diseases associated with pulmonary hypertension: a current review. 2105 19


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