Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019621 (Langerhans cell histiocytosis)
 3,250 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

From July 1990 to April 1993, 36 lung transplantations in 33 patients were performed in our pediatric transplant program (0.25 to 23 years, mean age 10.3 years). Eight children had been continuously supported with a ventilator for 3 days to 4.5 years before transplantation and three were supported by extracorporeal membrane oxygenation. Indications for lung transplantation in this pediatric population included the following: cystic fibrosis (n = 13), pulmonary hypertension, and associated congenital heart disease (n = 10), pulmonary atresia, ventricular septal defect and nonconfluent pulmonary arteries (n = 3), pulmonary fibrosis (n = 6), and acute respiratory distress syndrome (n = 1). Three children underwent retransplantation for acute graft failure (n = 2) or chronic rejection (n = 1). Pulmonary fibrosis was related to complications of treatment of acute of myelogenous leukemia with bone marrow transplantation in two children and to bronchiolitis obliterans, bronchopulmonary dysplasia, interstitial pneumonitis, and Langerhans cell histiocytosis in four others. Thirteen children underwent lung transplantation and concomitant cardiac repair. Bilateral lung transplantation, ventricular septal defect closure and pulmonary homograft reconstruction of the right ventricular outflow tract to the transplanted lungs was performed in three children by means of a new technique that avoids the need for combined heart-lung transplantation. Two patients had ventricular septal defect closure and single lung transplant for Eisenmenger's syndrome, two had ligation of a patent ductus arteriosus and transplantation, three additional children underwent atrial septal defect closure and lung transplantation, and two underwent lung transplantation for congenital pulmonary vein stenosis. Eight early deaths and three late deaths occurred (actuarial 1-year survival 62%). Lung transplantation in children has been associated with acceptable early results, although modification of the adult implantation technique has been necessary. Lung transplantation and repair of complex congenital heart defects is possible; heart-lung transplantation may only be required for patients with severe left heart dysfunction and associated pulmonary vascular disease. Bronchiolitis obliterans remains a major concern for long-term graft function in pediatric lung transplant recipients.
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PMID:Pediatric lung transplantation. Indications, techniques, and early results. 815 51

In order to determine the presence and distribution of Haemophilus influenzae in lung tissue sections, we obtained lung explants from 49 lung transplant recipients with cystic fibrosis (CF) (n = 16), chronic obstructive pulmonary disease (COPD) including emphysema (n = 16), bronchiectasis (n = 5), pulmonary hypertension (n = 9), Langerhans cell histiocytosis (n = 1), and idiopathic pulmonary fibrosis (n = 2). Analysis was done by selective culturing, immunoperoxidase (IP) staining, and by polymerase chain reaction (PCR). H. influenzae was cultured from specimens of the lung explants from one CF and one COPD patient. IP staining of tissue sections was positive in 24 patients (10 CF patients, eight COPD patients, two bronchiectasis patients, and four patients with noninfectious pulmonary diseases). IP-positive tissue sections were PCR-positive, and IP-negative sections were PCR-negative. H. influenzae was more frequently detected in tissue sections of lung explants from CF and COPD patients than from patients with bronchiectasis or noninfectious pulmonary diseases. H. influenzae was diffusely present in the epithelium, the submucosa of the bronchi, the bronchioles, the interstitium, and the alveolar epithelium. H. influenzae was localized extracellularly alone and in bacterial clusters, and was also associated with macrophages in CF patients. The results of this study demonstrate that H. influenzae is often present in the lungs of patients with end-stage pulmonary disease, especially CF and COPD patients. H. influenzae is diffusely present in the respiratory epithelium and subepithelial layers of the lungs of these patients.
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PMID:Haemophilus influenzae in lung explants of patients with end-stage pulmonary disease. 951 16

To estimate the number of patients with intractable respiratory diseases, we conducted a two-stage nationwide epidemiological survey in 1997. The first survey was performed at randomly sampled hospitals to identify the number of patients treated. The second survey sought detailed clinico-epidemiological data on the patients reported in the first survey. The response rates were 54% for the first survey and 62% for the second. Based on the survey findings, we derived the following nationwide estimates: 450 patients (95% confidence interval: 360-530) with chronic thromboembolic pulmonary hypertension; 230 (200-260) with primary pulmonary hypertension; 180 (150-210) with obesity-associated hypoventilation syndrome; 40 (30-50) with primary alveolar hypoventilation syndrome; 160 (140-180) with histiocytosis X; and 190 (150-230) with juvenile pulmonary emphysema.
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PMID:[Estimated numbers of patients with intractable respiratory diseases]. 1006 52

Diminished exercise capacity in advanced pulmonary histiocytosis X does not appear to be related to ventilatory limitation but may be related to pulmonary vascular dysfunction. Pulmonary hemodynamics and respiratory function were studied in 21 consecutive patients with advanced pulmonary histiocytosis X, and compared with parameters of patients with other severe chronic lung diseases (29 patients with chronic obstructive pulmonary disease and 14 patients with idiopathic pulmonary fibrosis). All patients with pulmonary histiocytosis X displayed severe pulmonary hypertension: mean pulmonary arterial pressure, 59 +/- 4 mm Hg; cardiac index, 2.6 +/- 0.8 L/min/m(2); and total vascular pulmonary resistance, 25 +/- 3 IU/m(2) (p < 0.05, as compared with patients with other chronic lung diseases). Pa(O(2)) was similar in the three groups, whereas FEV(1) was lower in patients with other chronic lung diseases (p < 0.05). In contrast to other chronic lung diseases, the degree of pulmonary hypertension was not related to variables of pulmonary function in pulmonary histiocytosis X. Histopathology was available for 12 patients with pulmonary histiocytosis X and revealed proliferative vasculopathy involving muscular arteries and veins, with prominent venular involvement. Two consecutive lung samples (taken before and after the occurrence of pulmonary hypertension) were available for six patients with pulmonary histiocytosis X, and showed that pulmonary vasculopathy worsened, whereas parenchymal and bronchiolar lesions remained relatively unchanged. These results indicate that pulmonary hypertension in pulmonary histiocytosis X might be related to an intrinsic pulmonary vascular disease, in which the pulmonary circulation is involved independent of small airway and lung parenchyma injury.
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PMID:Severe pulmonary hypertension in histiocytosis X. 1061 23

This report describes unusual clinical and pathological findings in a 29-yr-old female with pulmonary Langerhans' cell granulomatosis (LCG). During a 7-yr clinical course her condition deteriorated despite corticosteroid therapy, and she died of respiratory failure and pulmonary hypertension. At autopsy, there were widespread pulmonary veno-occlusive disease (PVOD) lesions as well as abundant advanced and healed lesions of pulmonary LCG composed of multiple cysts and stellate fibrosis. The present case demonstrates that pulmonary Langerhans' cell granulomatosis should be considered as a possible cause of pulmonary veno-occlusive disease.
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PMID:Pulmonary veno-occlusive disease in pulmonary Langerhans' cell granulomatosis. 1070 15

Lung transplantation for respiratory failure due to lymphangioleiomyomatosis, histiocytosis X, and sarcoidosis is a therapeutic option in selected patients. These indications account for less than 6% of all lung transplant procedures, and experience is relatively scarce. Pulmonary function testing at evaluation usually shows an obstructive pattern in lymphangioleiomyomatosis, whereas histiocytosis presents with a mixed pattern, and sarcoidosis with a restrictive pattern. Lung diffusion capacity is similarly reduced, however, only histiocytosis and sarcoidosis are often associated with pulmonary hypertension. In all three diseases extrapulmonary manifestations, although of different kinds, are common and must be investigated before transplantation to avoid posttransplant diagnostic pitfalls. In all these diseases, single and bilateral transplantation show comparable results. Typical complications in lymphangioleiomyomatosis include intraoperative severe intrathoracic bleeding, posttransplant chylothorax, pneumothorax, and bleeding of angiomyolipomas. In histiocytosis, extrapulmonary manifestations in bones and pituitary gland may progress. These diseases typically recur in the allograft, leading to clinical symptoms in histiocytosis whereas recurrence in lymphangioleiomyomatosis and sarcoidosis is most often asymptomatic. Survival is similar to patients transplanted for other diseases.
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PMID:Lung transplantation for cystic lung diseases: lymphangioleiomyomatosis, histiocytosis x, and sarcoidosis. 1608 97

Pulmonary hypertension (PH) in patients with interstitial lung diseases (ILDs) is not well recognized and can occur in the absence of advanced pulmonary dysfunction or hypoxemia. To address this topic, we identified relevant studies in the English language by searching the MEDLINE database (1966 to November 2006) and by individually reviewing the references of identified articles. Connective tissue disease-related ILD, sarcoidosis, idiopathic pulmonary fibrosis, and pulmonary Langerhans cell histiocytosis are the ILDs most commonly associated with PH. Pulmonary hypertension is an underrecognized complication in patients with ILDs and can adversely affect symptoms, functional capacity, and survival. Pulmonary hypertension can arise in patients with ILDs through various mechanisms, Including pulmonary vasoconstriction and vascular remodeling, vascular destruction associated with progressive parenchymal fibrosis, vascular inflammation, perivascular fibrosis, and thrombotic angiopathy. Diagnosis of PH in these patients requires a high index of suspicion because the clinical presentation tends to be nonspecific, particularly in the presence of an underlying parenchymal lung disease. Doppler echocardiography is an essential tool in the evaluation of suspected PH and allows ready recognition of cardiac causes. Right heart catheterization is needed to confirm the presence of PH, assess its severity, and guide therapy. Management of PH in patients with ILDs is guided by identification of the underlying mechanism and the clinical context. An increasing number of available pharmacologic agents in the treatment of PH allow possible treatment of PH in some patients with ILDs. Whether specific treatment of PH in these patients favorably alters functional capacity or outcome needs to be determined.
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PMID:Pulmonary hypertension in patients with interstitial lung diseases. 1735 70

Despite the introduction of new drugs that have changed the course of pulmonary arterial hypertension (PAH), some patients are still refractory to treatment and deteriorate rapidly. Long-acting phosphodiesterase-5 inhibitors are a new class of drugs that are effective in PAH. This prospective study assessed the potential of combination therapy with prostacyclin and tadalafil for treatment of severe PAH. We report four cases of severe PAH that deteriorated despite prostacyclin therapy. Two patients had Eisenmenger syndrome, one had pulmonary hypertension associated with scleroderma and one had histiocytosis X. All were treated with tadalafil, 10-20 mg once daily, in addition to prostacyclin. After 3 months of treatment, all patients improved clinically, with an increase in mean 6MWD from 214 to 272 m. In three patients, the New York Heart Association functional class decreased from IV to III. Echocardiograms showed no significant changes in pulmonary arterial pressure. Although this study was limited by the small sample size, it suggests that tadalafil in combination with prostacyclin is an effective treatment for severe PAH. Tadalafil may be beneficial for the treatment of patients with advanced disease.
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PMID:Combination therapy with prostacyclin and tadalafil for severe pulmonary arterial hypertension: a pilot study. 1881 91

Pulmonary Langerhans cell granulomatosis (PLCG) is a smoking-related interstitial lung disease characterized by hyperinflation and/or obstructive pulmonary disease. Pulmonary hypertension is a late complication of advanced pulmonary disease and often portends a poor prognosis. A 24-year-old male patient who had been receiving diltiazem and corticosteroid treatment with the diagnosis of PLCG for four years was examined by the cardiology clinic due to dyspnea and deterioration in his functional capacity. He was in New York Heart Association class III. The electrocardiogram showed sinus rhythm and right bundle branch block. Systolic pulmonary artery pressure (SPAP) was estimated as 80 mmHg with continuous-wave Doppler echocardiography. During right heart catheterization, SPAP was 70 mmHg and the mean pulmonary artery pressure (MPAP) was 44 mmHg. Vascular pulmonary reactivity test with adenosine did not result in a significant change in MPAP. Based on these findings, medical treatment was scheduled for the patient.
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PMID:[A rare cause of pulmonary hypertension: pulmonary Langerhans cell granulomatosis]. 1922 25

Pulmonary hypertension is a pathophysiologic condition characterized by the increase of mean pulmonary arterial pressure > or =25 mmHg. A concomitant increase of pulmonary wedge pressure >15 mmHg may be present (post-capillary pulmonary hypertension) or not (precapillary pulmonary hypertension). The increase of pulmonary arterial pressure and of pulmonary vascular resistance and consequent elevation of the right ventricular afterload lead to right ventricular failure after variable periods of time. Pulmonary hypertension is present in multiple clinical conditions which have been classified in five groups. Pulmonary arterial hypertension (group 1) includes the familial and the idiopathic form and the forms associated with anorexigen drug use, connective tissue diseases, congenital heart diseases, HIV infection and portal hypertension. Group 2 includes all left heart diseases characterized by the increase of left atrial pressure and pulmonary wedge pressure (post-capillary pulmonary hypertension). Group 3 includes parenchymal lung diseases (chronic obstructive lung disease, lung fibrosis, ecc). Chronic thromboembolic pulmonary hypertension (group 4) is characterized by the obstruction of elastic pulmonary arteries at different levels by organized thromboembolism. Group 5 includes heterogeneous conditions such as sarcoidosis and histiocytosis X. These clinical groups are characterized by different pathobiologic and pathophysiologic mechanisms and therapeutic strategies. The exact pathobiologic mechanisms leading to pulmonary arterial hypertension (group 1) are unknown. Genetic factors (inheritable forms), predisposing factors (female gender) and exogenous factors (drugs, antibodies, viruses, congenital heart disease, etc). Endothelial dysfunction of lung microcirculation is invariably present and is characterized by the reduction of vasodilator and antiproliferative substances (prostacyclin, nitric oxide) and by the increase of vasoconstrictor and mitogenic factors (endothelin, thromboxane A2). Current approved therapies are targeted to the correction of this imbalance, which leads to the progressive increase of pulmonary vascular resistance. Different therapeutic strategies that are effective in diverse groups require an appropriate diagnostic algorithm in order to identify the precise group and specific conditions within the group. Evaluation of vasoreactivity and assessment of the severity of functional and hemodynamic changes are also required in pulmonary arterial hypertension for an appropriate therapeutic decision-making and estimate of results.
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PMID:[Pulmonary arterial hypertension. Part I: pathobiologic, pathophysiologic, clinical and diagnostic aspects]. 1953 40


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