Background: Acute exacerbation is a substantial cause of death in patients with idiopathic pulmonary fibrosis with poorly described prognostic factors. Objectives: To review the features associated with acute exacerbation of idiopathic pulmonary fibrosis and assess its prognostic factors. Methods: Thirty-seven occurrences of acute exacerbation of idiopathic pulmonary fibrosis were retrospectively reviewed in the medical records of 27 patients. Clinical presentation, radiographic studies, pulmonary function tests, laboratory data, treatment, and outcome were analyzed. Results: Acute exacerbation of idiopathic pulmonary fibrosis occurred more frequently between December and May (75.7%) than between June and November (24.3%) (p = 0.01). In-hospital mortality was 27% and median survival was 4.2 months (range 0.2–36.6). Significant differences between nonsurvivors and survivors included the time elapsed between their admission and the initiation of treatment for acute exacerbation (6 vs. 3.1 days, p = 0.04), lactate dehydrogenase levels at admission (801 vs. 544.6 IU/l, p = 0.002), impairment of the prior forced vital capacity (51.2 vs. 65%, p = 0.01) and diffusing capacity for carbon monoxide (21.7 vs. 34%, p = 0.01). Furthermore, the evolution of gas exchange in the first 10 days after the initiation of treatment was associated with in-hospital and long-term mortality. Conclusions: Acute exacerbations of idiopathic pulmonary fibrosis are more frequent during winter and spring. The time between admission and initiation of treatment is a new reported prognostic factor that should be investigated further. This finding highlights the need for a fast diagnostic approach that should probably be standardized. Early gas exchange modifications reflect the response to treatment and predict the prognosis.
Cardiac involvement is undeniably one of the most challenging issues in sarcoidosis. Although autopsy studies reveal heart lesions in 20 to 30% of sarcoid patients, fewer than 5% suffer from clinical disease. Cardiac sarcoidosis (CS) has a predilection for the myocardium, but the pericardium and endocardium may also be affected. CS manifestations are various and most frequently include the following: (1) aberrations of atrioventricular or intraventricular conduction, either silent or symptomatic; (2) ventricular arrhythmias; (3) subacute congestive heart failure; and (4) sudden death. CS must be detected in all sarcoid patients by means of detailed medical history, physical examination, and resting electrocardiogram (ECG) at first evaluation and during follow-up. In patients with suspected CS, further investigations are aimed at evaluating diagnosis and cardiac consequences. Unfortunately, no gold standard exists that would allow CS diagnosis with a level of confidence. Endomyocardial biopsy is an invasive procedure that lacks sensitivity. Patients need, at a minimum, specialized cardiologic advice, echocardiography, and 24-hour ambulatory ECG. Other diagnostic tools include thallium, technetium, and gallium scintigraphy, and more recently, 18F-fluorodeoxyglucose positron emission tomography and cardiac magnetic resonance (CMR). The respective role of these new imaging tools in the diagnostic approach remains to be defined. CMR has the advantage of not exposing patients to radiation, but it is not feasible in those with cardiac devices. In Western countries, heart involvement accounts for 13 to 25% of sarcoidosis-related deaths, and it is the leading cause of mortality in Japan. The main prognostic indicators are New York Heart Association functional class, left ventricular enlargement, and sustained ventricular tachycardia. Treatment is based on systemic corticosteroids with an initial dose between 30 mg/day and 1 mg/kg/day (which is usually maintained for at least 24 months), specific cardiologic agents, and the placement of a pacemaker or implantable cardiac defibrillator in case of an atrioventricular block or severe intractable ventricular arrhythmias. Cardiac transplantation is exceptionally required.
Sarcoidosis is a systemic disease, with lung involvement in almost all cases. Abnormal chest radiography is usually a key step for considering diagnosis. Lung impact is investigated through imaging; pulmonary function; and, when required, 6-minute walk test, cardiopulmonary exercise testing, or right heart catheterization. There is usually a reduction of lung volumes, and forced vital capacity is the most accurate parameter to reflect the impact of pulmonary sarcoidosis with or without pulmonary infiltration at imaging. Various evolution patterns have been described. Increased risk of death is associated with advanced pulmonary fibrosis or cor pulmonale, particularly in African American patients.
Background: Birt-Hogg-Dubé syndrome (BHD) is a rare autosomal dominant disorder caused by mutations in the FLCN gene coding for folliculin. Its clinical expression includes cutaneous fibrofolliculomas, renal tumors, multiple pulmonary cysts, and recurrent spontaneous pneumothoraces. Data on lung function in BHD are scarce and it is not known whether lung function declines over time. We retrospectively assessed lung function at baseline and during follow-up in 96 patients with BHD. Results: Ninety-five percent of BHD patients had multiple pulmonary cysts on computed tomography and 59% had experienced at least one pneumothorax. Mean values of forced expiratory volume in 1 second (FEV 1), forced vital capacity (FVC), FEV 1 /FVC ratio, and total lung capacity were normal at baseline. Mean (standard deviation) residual volume (RV) was moderately increased to 116 (36) %pred at baseline, and RV was elevated > 120%pred in 41% of cases. Mean (standard deviation) carbon monoxide transfer factor (DLco) was moderately decreased to 85 (18) %pred at baseline, and DLco was decreased < 80%pred in 33% of cases. When adjusted for age, gender, smoking and history of pleurodesis, lung function parameters did not significantly decline over a follow-up period of 6 years. Conclusions: Cystic lung disease in BHD does not affect respiratory function at baseline except for slightly increased RV and reduced DLco. No significant deterioration of lung function occurs in BHD over a follow-up period of 6 years.
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