View clinical trials related to Acute Chest Syndrome.
Filter by:Many patients with Sickle Cell Disease (SCD) may develop Acute Chest Syndrome (ACS). ACS is usually caused by a Lower respiratory tract infection (LRTI) which may be caused by either a bacterium or a virus. Antibiotics are usually used for 7 to 10 days with no microbiological workup. The hypothesis of the study is that the identification of the microorganisms might lead to a reduction of antibiotics exposure and a better care of the patients. We speculate that an early pathogen-directed strategy (respiratory broad panel multiplex PCR and early antibiotics interruption based on the PCT values decrease) might reduce the antibiotics exposure in SCD patients with ACS who are hospitalized and for whom an antibiotic treatment is indicated, as compared with usual care
This study evaluates the safety of defibrotide in subjects with sickle cell disease (SCD)-associated acute chest syndrome (ACS).
Background: Painful vasoocclusive crisis (VOC) occurs in people with sickle cell disease (SCD). People with VOC have many visits to the hospital. About 10 30 percent of these people will go on to develop acute chest syndrome (ACS). ACS can cause further ill health. It can also cause death. Researchers want to find ways to diagnose ACS more quickly. To do this, they want to use stored blood samples and scans from a study (the DeNOVO trial) that was closed in 2015. They want to see if scans and samples taken of people with VOC who later developed ACS could help diagnose ACS faster. The data of people in the DeNOVO study who did not develop ACS will serve as controls. Objectives: To look at data from the DeNOVO trial to find a way to diagnose ACS more quickly. Eligibility: People 10 85 years old who took part in NHLBI Protocol number 05-H-0019 (the DeNOVO trial). The trial lasted from 2004 to 2008. The study was closed in November 2015. Design: Scans and intact, frozen samples from a study that was closed in 2015 will be studied. No new participants will be enrolled. ...
Secretory phosholipases A2 (sPLA2) are significantly elevated in the plasma of sickle cell disease patients with acute chest syndrome (ACS), and similar enzymes have been measured in exhaled breath condensate (EBC), which is collected easily and non-invasively. The investigators hypothesize that sPLA2 will be measurable in EBC samples from sickle cell patients with acute chest syndrome.
Sickle cell disease is a genetic red blood cell disorder characterized by vaso-occlusion from sickling of red blood cells, that can lead to pain or organ complications such as acute chest syndrome. Sickle cell disease is associated with low amounts of nitric oxide, a compound important for dilating the blood vessel wall. Citrulline is a substance that is known to increase nitric oxide. The goal of this Phase I study are to find the highest safe dose of continuous IV citrulline that can be given to individuals with sickle cell disease experiencing a sickle cell pain crisis or acute chest syndrome without causing severe side effects.
Acute Chest Syndrome (ACS) is a pulmonary complication of sickle cell disease (SCD) representing the leading cause of death and the second cause of hospitalization among adult patients. Pulmonary vaso-occlusion is one of the main pathophysiologic hypotheses during ACS. Our hypothesis is that therapeutic anticoagulation may reduce the severity of ACS via the alleviation of pulmonary thrombosis. The main objective of this prospective, randomized, double-blind study is to test the efficacy and safety of a curative anticoagulation strategy during ACS. The main efficacy endpoint is time to ACS resolution. The main safety endpoint is number of major bleedings. A thoracic CT scan will be performed to check for pulmonary artery thrombosis. If the CT scan is positive (thrombosis within a large elastic artery), the patient will not be randomized and will be treated with a curative anticoagulation. If the CT scan is negative, the patient will be randomized to receive subcutaneous anticoagulation with low molecular weight heparin (tinzaparin) either at a curative dose (175 Unit International (UI)/kg/day for 7 days) or at a prophylactic dose (4500 UI/day).
Acute and chronic pulmonary complications with concomitant inflammatory response are a leading cause of morbidity and mortality in children with sickle cell disease (SCD). Acute chest syndrome (ACS), defined broadly as an increase in respiratory effort, fever and new radiodensity on chest x-ray, is a major cause of death in children and adults with SCD. There is a high rate of ACS in children between 1 and 4 years of age that is associated with an asthma diagnosis, and children with ACS events before 4 years of age have a 50% rate of being hospitalized for either ACS or pain within 1 year of admission. For children with SCD that develop ACS, the investigators propose that the use of budesonide inhalation suspension (BIS) will attenuate pulmonary inflammation after an ACS episode and will decrease future vaso-occlusive pain and ACS episodes. Through a single-arm prospective feasibility trial and in preparation for a limited-institution randomized trial, the investigators plan to test the following primary hypothesis for a phase III definitive trial: In children with SCD admitted to the hospital for an ACS episode between 1 and 4 years of age, low dose BIS for 6 months will result in a 50% reduction in the recurrent incidence rate of ACS or pain requiring hospitalization. Through this trial, the investigators will determine the acceptability of and adherence to BIS in the study population. The investigators will track respiratory symptoms in cases versus controls over 6 months. Finally, the investigators will explore the impact of BIS on biological correlates (sVCAM-1).
This study aims to answer the question whether oral vitamin D supplementation can decrease lung complications in children and adolescents with sickle cell disease. Lung complications are the leading causes of morbidity and of death in sickle cell disease. Infections and increased inflammation play important roles in the development of the lung problems in sickle cell disease. Emerging evidence shows that vitamin D helps the immune system to fight infection and to control inflammation and could potentially help prevent respiratory complications in patients with sickle cell disease. The investigators hypothesize that oral vitamin D3, 100,000 IU (2.5 mg), given once a month to a group of children and adolescents with sickle cell disease, will reduce the rate of respiratory events (infection, asthma exacerbation and acute chest syndrome) compared to the rate in a group given standard dose oral vitamin D3, 12,000 IU (0.3 mg) given once a month. Funding Source - U.S. Food & Drug Administration, Office of Orphan Products Development
The pathophysiology of sickle cell disease (SCD) manifestations, are complex with interactions of intracellular hemoglobin, membrane and endothelial activation but the hallmark remains recurrent and painful vaso-occlusive episodes (VOC). These painful episodes are thought to result from ischemia caused when small blood vessels are occluded by misshapen, inflexible erythrocytes. Painful episodes are the most common cause of hospitalization, morbidity, and impairment for SCD patients. There is no therapy that completely prevents or directly aborts painful events for all patients. Consequently, treatment for acute VOC is primarily supportive using hydration and medicinal pain control. Every pain medication has the potential to relieve pain but is associated with significant limitations and side effects. The primary hypothesis to be tested in this double blind, randomized controlled trial is that Nalbuphine is equivalent to morphine for pain control and patients will suffer fewer episodes of acute chest syndrome. The investigators also expect subjects will report fewer side effects from respiratory depression, abdominal distention from reduced peristalsis, reduced histamine release causing pruritis and still be provided adequate pain control. Further hypotheses to be tested is ability to recruit patient participants while being treated in the Emergency Department and that continuous infusion of Nalbuphine with accompanying patient controlled analgesia (PCA) is safe and effective in controlling pain, requiring less total opiates consumption, while decreasing length of hospitalization.
Acute chest syndrome is a severe sickle cell disease complication in children requiring blood transfusion therapy to prevent acute respiratory failure and death. Nitric oxide is a potent vasodilator that could reverse pulmonary vascular occlusion and restore normal oxygenation. The randomized trial will test that hypothesis.