Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023890 (cirrhosis)
 42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prostacyclin is a powerful vasodilator and inhibits platelet adhesion and cell growth. We hypothesized that a decrease in expression of the critical enzyme PGI2 synthase (PGI2-S) in the lung may represent an important manifestation of pulmonary endothelial dysfunction in severe pulmonary hypertension (PH). Immunohistochemistry and Western blot analysis were used to assess lung PGI2-S protein expression, and in situ hybridization was used to assess PGI2-S mRNA expression. In the normal pulmonary circulation (n = 7), PGI2-S was expressed in 48% of small, 67% of medium, and 76% of large pulmonary arteries as assessed by immunohistochemistry. PPH (n = 12), cirrhosis-associated (n = 4) and HIV-associated PH (n = 2) lungs exhibited a marked reduction in PGI2-S expression, involving all size ranges of pulmonary arteries. Vessels with concentric lesions showed complete lack of PGI2-S expression. Congenital heart (n = 4) and CREST (n = 2) cases exhibited a more variable immunohistological pattern of PGI2-S expression. These results were complemented by in situ hybridization and Western blots of representative lung samples. We conclude that the different sizes of the pulmonary arteries express PGI2-S differently and that the loss of expression of PGI2-S represents one of the phenotypic alterations present in the pulmonary endothelial cells in severe PH.
 ...
PMID:Prostacyclin synthase expression is decreased in lungs from patients with severe pulmonary hypertension. 1035 41

Cirrhosis is associated with several circulatory abnormalities. These include hyperkinetic systemic and splanchnic circulation, hepatopulmonary syndromes including pulmonary hypertension, and cirrhotic cardiomyopathy. Hepatopulmonary syndrome generally refers to hypoxaemia seen in patients with chronic liver disease and appears to be relatively common, although often subclinical. However, significant pulmonary hypertension occurs in 0.2-0.7% of cirrhotic patients. Nitric oxide and/or other vasodilators appear to be involved in the pathogenesis of hepatopulmonary syndrome through induction of pulmonary capillary dilatation which increases the alveolar-arterial oxygen gradient. Cirrhotic cardiomyopathy refers to abnormal left ventricular function which is manifested under conditions of physiological or pharmacological stress. The emergence of liver transplantation as an effective treatment for end-stage liver disease has led to recognition of previously subclinical cardiomyopathy and congestive heart failure accounts for significant morbidity and mortality after this procedure. Diminished myocardial beta-adrenergic receptor function has been shown to play an important role in the pathogenesis of this condition. The contributions of other factors including nitric oxide, catecholamines and membrane fluidity changes are under investigation. Cirrhotic patients also have an increased incidence of other cardiac abnormalities, such as endocarditis and pericardial effusions.
 ...
PMID:Cardiopulmonary dysfunction in cirrhosis. 1038 72

The heart secrets two different natriuretic peptides, atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP), which have potent vasorelaxant, diuretic, and natriuretic actions. They are main tools in the body's defense against volume overload and hypertension. The natriuretic peptides (NP) are synthetized as prohormones. The C-terminal endocrinological active peptides and their N-terminal prohormone fragments are found in plasma. The NP system is maximally activated in ventricular dysfunction. However, NP:s are also increased in patients with renal failure or pulmonary hypertension, and increases may be found in arterial hypertension or liver cirrhosis. Among all NP and prohormone fragments currently BNP is the most promising candidate analyte for routine diagnosis. BNP is also superior to other neurohormones for diagnosis of left-ventricular dysfunction (LVD) or estimating prognosis in LVD or during the subacute phase of myocardial infarction. For primary care physicians BNP measurement is useful to decide which patient with suspected heart failure warrants further investigation, particularly when assessment of left ventricular function is not readily available. BNP has an excellent negative predictive value particularly in high risk patients. For the cardiologists the NP:s are helpful for monitoring therapy and disease course in LVD patients and for estimating prognosis in LVD and myocardial infarction patients. There is now sufficient evidence to encourage physicians to gain experience with NP as a supplement in the diagnosis of patients suspected of having heart failure. An increase in BNP is serious enough to warrant follow-up examinations.
 ...
PMID:Natriuretic peptides in assessment of left-ventricular dysfunction. 1038 12

We report the case of a patient with liver cirrhosis who successively developed hepatopulmonary syndrome and portopulmonary hypertension. Initially, the patient presented with severe dyspnea and hypoxemia at rest. Technetium-99 macroaggregated albumin lung perfusion scan demonstrated right-to-left shunt, and hemodynamic study revealed a hyperdynamic state with low pulmonary vascular resistance, thus confirming the diagnosis of hepatopulmonary syndrome. More than 2 years after the onset of pulmonary symptoms, a marked improvement in dyspnea and gas exchange was observed. Lung perfusion scan did not disclose any right-to-left shunt and right-sided heart catheterization showed evidence of severe pulmonary hypertension. We conclude that hepatopulmonary syndrome and portopulmonary hypertension are not mutually exclusive. We hypothesize that, by reversing the phenomenon of intrapulmonary vasodilatation, the development of portopulmonary hypertension interfered with each of the potential causes of hypoxemia in hepatopulmonary syndrome (ventilation-perfusion inequalities, intrapulmonary shunting, oxygen diffusion limitation) and, as a result, led to a correction of hypoxemia.
 ...
PMID:Pulmonary hypertension following hepatopulmonary syndrome in a patient with cirrhosis. 1045 52

We evaluated the hypothesis that venous congestion (increased venous volume), as reflected by venous hypertension (increased venous pressure), can arise when the right ventricle is unable to elevate the pulmonary arterial pressure sufficiently to propel the cardiac output through an anatomically inadequate or inappropriately constricted pulmonary vasculature. Changes in venous pressure were evaluated in clinically healthy broilers during modest increases in pulmonary vascular resistance induced by inhalation of 5% CO2 and during large increases in pulmonary vascular resistance accomplished by acutely tightening a snare around one pulmonary artery. Inhalation of 5% CO2 induced a pronounced respiratory acidosis, as reflected by increases the partial pressure of CO2 and the hydrogen ion concentration in arterial blood. Inhalation of 5% CO2 also increased pulmonary arterial pressure by approximately 3 mm Hg and increased venous pressure by approximately 1 mm Hg when compared with the pre-inhalation venous pressure. Tightening the pulmonary artery snare increased the pulmonary arterial pressure by approximately 10 mm Hg, and this degree of pulmonary hypertension was sustained until the snare was released. When compared with the pre- and post-snare intervals, tightening of the pulmonary artery snare induced a sustained increase in venous pressure of > or = 1 mm Hg. Veins have highly compliant walls that permit an approximate doubling in volume with only small (4 to 6 mm Hg) increases in central venous pressure. Presumably the apparently modest 1 mm Hg increase in venous pressure measured after CO2 inhalation or unilateral pulmonary artery occlusion reflects a large increase in venous volume and, thus, substantial venous congestion. These observations support the hypothesis that increases in pulmonary vascular resistance can initiate increases in venous pressure by challenging the capacity of the right ventricle to propel all of the returning venous blood through the lungs. Central venous congestion predisposes broilers to the onset of cirrhosis and ascites by impeding the outflow of hepatic venous blood and increasing the hydrostatic pressure within hepatic sinusoids.
 ...
PMID:Venous blood pressure in broilers during acute inhalation of five percent carbon dioxide or unilateral pulmonary artery occlusion. 1053 94

Clinical prediction of portopulmonary hypertension (PPHTN) is critical in the preoperative evaluation of candidates for orthotopic liver transplantation (OLT) because of its association with significant morbidity and mortality. To determine the clinical, laboratory, and echocardiographic predictors of PPHTN, we retrospectively evaluated 55 candidates before OLT. From those, 8 candidates had pulmonary hypertension ([HTN] group A) and 47 candidates did not (group B). Pulmonary HTN was defined as a mean pulmonary artery pressure (PAP) of 25 mm Hg or greater and either elevated pulmonary vascular resistance or normal pulmonary artery wedge pressure. The significant predictors of PPHTN were (1) systemic arterial HTN (63% in group A v 9% in group B; P <.001), (2) loud pulmonary component of the second heart sound (38% v 2%; P =. 001), (3) right ventricular (RV) heave (38% v 4%; P =.002), (4) RV dilatation by echocardiogram (63% v 0%; P <.001), (5) RV hypertrophy by echocardiogram (38% v 0%; P =.001), and (6) echocardiogram-estimated systolic PAP (SPAP) greater than 40 mm Hg (63% v 2%; P <.001). The sensitivity of these variables for the detection of pulmonary HTN ranges from 37% to 63%, and their specificity from 91% to 100%. We conclude that several clinical and echocardiographic features are significantly associated with pulmonary HTN in patients with cirrhosis. In particular, echocardiogram-estimated SPAP greater than 40 mm Hg is strongly associated with pulmonary HTN and is specific. These predictors, however, are not sensitive enough to identify all the patients with PPHTN. Therefore, the evaluation of a combination of these variables may be useful for the preoperative identification of pulmonary HTN in liver transplant candidates.
 ...
PMID:Clinical predictors of pulmonary hypertension in patients undergoing liver transplant evaluation. 1064 83

Hepatopulmonary syndrome is the most widely recognized of the processes associated with end-stage liver disease. Chronic liver dysfunction is associated with pulmonary manifestations due to alterations in the production or clearance of circulating cytokines and other mediators. Hepatopulmonary syndrome results in hypoxemia due to pulmonary vasodilatation with significant arteriovenous shunting and ventilation-perfusion mismatch. Hepatic hydrothorax may develop in patients with cirrhosis and ascites. Rarely, pulmonary hypertension occurs in the setting of portal hypertension. A second group of disorders may primarily affect the lungs and liver (the hepatopulmonary axis). Among these are the congenital conditions alpha(1)-antitrypsin deficiency and cystic fibrosis. Autoimmune liver disease may be associated with lymphocytic interstitial pneumonitis, fibrosing alveolitis, intrapulmonary granulomas, and bronchiolitis obliterans with organizing pneumonia. Sarcoidosis affects the lung and liver in up to 70% of patients. Medications such as amiodarone can result in a characteristic radiologic appearance of pulmonary and hepatic toxic effects. Knowledge of these associations will assist the radiologist in forming a meaningful differential diagnosis and may influence treatment decisions.
 ...
PMID:Diseases of the hepatopulmonary axis. 1083 22

Pulmonary hypertension (PH) may develop because of a spectrum of insults to the lungs; in some patients, there seems to be no cause. Noninvasive tests, such as standard chest radiography, electrocardiography, and transthoracic Doppler echocardiography, provide effective screening if PH is suspected. This synopsis focuses on these screening studies and the more common clinical problems, including primary cardiac abnormalities, obstructive sleep apnea, chronic pulmonary embolism, pulmonary parenchymal problems, connective tissue disorders, cirrhosis with portal hypertension, and use of appetite suppressants, that should be considered when PH exists. Treatment options for PH, including intravenous prostacyclin (epoprostenol), and investigational agents such as subcutaneous or oral prostacyclin analogues and oral endothelin receptor antagonists are described.
 ...
PMID:Pulmonary hypertension: diagnostics and therapeutics. 1085 24

Conflicting results about the prevalence of pulmonary hypertension, ranging from 0.25% to 20%, in liver patients with portal hypertension, have previously been reported. The aim of this study was to evaluate pulmonary arterial pressure in a consecutive series of cirrhotic patients, using a noninvasive method. A complete clinical, laboratory, ultrasonographic, and endoscopic evaluation were performed in 83 consecutive liver patients assessed according to Child's classification and Pugh's score and according to evidence of ultrasonographic and/or endoscopic signs of portal hypertension. A complete echocardiographic evaluation was also performed and pulmonary arterial systolic pressure (PASP) was estimated by measuring tricuspidal regurgitation, using the modified Bernoulli equation. These same evaluations were performed by the same observers in a group of 60 healthy volunteers. The results showed a surprisingly high prevalence (about 20%) of pulmonary hypertension. Patients with more severe liver damage and portal hypertension showed a high prevalence for pulmonary hypertension. A progression in the frequency of portopulmonary hypertension (PPH) was found in Child's classification A to C, and in patients without to patients with evidence of portal hypertension. However, increased PASP was detected in some patients belonging to Child's class A, without evidence of portal hypertension. In conclusion, the echocardiographic examination (a noninvasive technique), appears suitable for detecting pulmonary hypertension in patients with compensated liver cirrhosis, and can elucidate some aspects of the clinical course of the so-called PPH syndrome.
 ...
PMID:Pulmonary hypertension associated with liver cirrhosis: an echocardiographic study. 1113 93

Transjugular intrahepatic portosystemic stent shunt (TIPS) implantation is an intervention to reduce elevated portal pressure by implantation of a stent shunt between hepatic and portal vein by transjugular approach. Elevated portal pressure is mostly caused by cirrhosis of the liver but Budd-Chiari-syndrome, venoocclusive disease, and portal vein thrombosis can also be responsible. The main indications for TIPS implantation are intractable variceal hemorrhage, prophylaxis for recurrent variceal bleeding after failure of endoscopic prophylaxis, and prophylaxis for recurrent variceal bleeding from gastric varices in the fundus. New data show that treatment of refractory ascites using TIPS implantation also leads to improved patient survival. Primary bleeding prophylaxis is not an indication for TIPS implantation. Absolute contraindications are progressive liver failure, decompensation of the right ventricle, pulmonary hypertension, and higher degree hepatic encephalopathy. The main problems after TIPS implantation are a high rate of restenosis, which frequently requires reintervention with TIPS dilatation or reimplantation, and undesirable side effects in patients after TIPS implantation for indications without proven benefit. Due to a number of prospective randomized controlled trials, the indications and contraindications for TIPS are now well defined, thus leading to a reduction of side effects and a more precise use of this important therapeutic modality for portal hypertension.
 ...
PMID:[Transjugular intrahepatic portosystemic shunt (TIPS)]. 1114 32


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>