View clinical trials related to Neutropenia.
Filter by:Using Lithium Carbonate to decrease incidence of neutropenia caused by using chemotherapy regimen in breast cancer patients.
Treatment of patients with febrile neutropenia (FN) attending Emergency Departments (EDs) relies on rapid antibiotic initiation in order to control a presumed infection. The choice of initial antibiotics is empirical and depends on patient's prior colonization or infection by multi-drug resistant pathogens (MDRPs) and risk stratification. Stratification of high-risk patients needing broad-spectrum antibiotics is debated. Thus, for non-specialist physicians, this choice may be challenging, leading to inappropriate initial antimicrobial regimens, potential risks for the patient and higher costs. Furthermore, international guidelines recommended to develop antibiotic stewardship programs and promoted an initial strategy based on escalation or de-escalation approaches, with early reassessment depending on patients' clinical course and microbiological results. Nevertheless, this interesting strategy may increase the level of complexity for the choice of the initial antibiotic regimen by non-specialist emergency physicians who are often the first prescribers in this context. We developed an interactive computerized decision support app (CDSA) for initial antibiotic prescription and early revaluation in patients with FN. The first goal of this app is to assist non-specialized physicians in choosing initial antimicrobial regimen for patients with FN when they attend EDs. It uses an interactive algorithm based on international guidelines that takes into account patients' medical history and characteristics. Secondly, the app is also designed to propose an algorithm of antibiotic revaluation at day 3-4 for hospitalized patients, depending on patient clinical course, and biological and microbiological results. The revaluation suggests antimicrobial modification (escalation or de-escalation) or discontinuation and stopping rules with recommended duration of therapy also based on international guidelines. We hypothesize that such a CDSA may improve the adherence to guidelines for the choice of initial antibiotic regimen for FN in the ED, favour early antibiotic reassessment for hospitalized patients, both decreasing the risk of treatment failure.
The THERMAL study is a pilot study to determine feasibility of using two separate continuous skin temperature monitors during intensive treatment for haematological malignancies. It involves participants wearing both the TempTraq and CORE temperature devices for up to 14 days, and then assessing their feasibility and tolerability with quantitative, semiquantitative and qualitative methods.
The aim of this study is to determine the effect of the cold steam application on body temperature in combination with the treatment algorithm in fever management in children with febrile neutropenia.
BioSticker data is remotely tracked and displayed in a report termed the BioReport for retrospective data analysis. Typically, the biosensor collects data on an interval of ~1 minute and this data is collated and reported remotely back to the BioReport every 6 hours. More importantly, for future applications of the BioSticker for early detection of FN, there are ongoing efforts to implement real time reporting and alarms using remote monitoring services that could alert the patient that they need to seek medical care. There are no known deleterious effects from the BioSticker and it is now being widely used and tested in diverse applications including detection and contact tracing of COVID and others.
Mortality due to bloodstream infections in patients with neutropenia and haematological malignancies is high and optimal management is hampered by long turnaround times of conventional blood cultures. This is an observational study to assess the performance of T2 magnetic resonance, in diagnosing proven, probable and possible bloodstream infections as well as its theoretical impact on antimicrobial prescriptions in neutropenic patients with acute leukemia and bone marrow recipients.
Blood stream infection (BSI) during febrile neutropenia (FN) is a lethal complication, while confirmed diagnosis via blood culture is usually with low sensitivity and time delay. The new technique of metagenome next generation sequencing (mNGS) has the potential of early and more accurate detection of pathogens. However, this technique has not been well validated for BSI diagnosis in patients with hematological disease. Therefore, we designed a prospective multicenter study to compare the diagnosis performance in BSI.
In general, the percentage of complete remissions is 85 - 90 % for acute lymphoid leukemia (ALL). In developing countries, percentages are lower secondary to higher sepsis-related mortality. Although the effect of statins on inflammatory response associated with sepsis has been demonstrated, including an effect on bacterial proliferation in patients with a state of immunosuppression, their effect has not been demonstrated so far in patients with hemato-oncological cancer.
This is a multicenter, open-label, single-arm, phase III study to evaluate the safety and efficacy of Amphotericin B liposomes in patients with persistent neutropenia and fever.
Background: Severe congenital neutropenia (SCN) is an immune system disease. People with SCN do not have enough of a kind of white blood cell called neutrophils. This means they get sick easily from infections. Some drugs to treat SCN have lots of side effects. Researchers want to see if a the drug empagliflozin can help increase the number of neutrophils in a person with SCN. Objective: To see if a drug called empagliflozin can help people with SCN. Eligibility: Adults aged 18 and older with SCN. Design: Participants will be screened with a physical exam, medical history, and blood tests. They may have a pregnancy test. Participants will have study visits and local lab visits. They will repeat the screening tests. They will have heart and lung function tests. They will have an ultrasound of the liver and spleen. Their skin symptoms will be photographed. They may have consultations with specialists. They may give a stool sample. They may have an optional colonoscopy with tissue sample collection. They may have an optional bone marrow biopsy and aspirate. They may have an optional magnetic resonance imaging scan of their heart. Participants will be admitted to NIH for 5 7 days. They will start taking the study drug as a pill once daily. They will be monitored for side effects. Participants will take the study drug at home for 12 months. They will use a fingerstick blood glucose meter to measure blood sugar at home. Participants may be able to take the study drug through their local doctor after the study ends. Participation will last for 15 months.