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Filter by:This phase II MATCH treatment trial tests how well sunitinib in treating patients with cancer that has certain genetic changes. Sunitinib is in a class of medications called kinase inhibitors. It is used in patients whose cancer has a certain mutation (change) in the cKIT gene. It works by blocking the action of mutated cKIT that signals cancer cells to multiply. This helps to stop or slow the spread of cancer cells.
Biodiversity is essential for nature and human well-being. Land use has reduced biodiversity in cities, which weakens the functionality of the urban ecosystems and the well-being of citizens. This may also increase the risk of immune-mediated disorders among urban dwellers. In Biodiversity interventions for assisted living centers (BIWE 2), microbial biodiversity interventions are performed to increase biodiversity in urban housing units for people with autism spectrum disorder, disabled people and elderly. Results from the intervention trials are combined with publicly available land cover and ecological data. These are analyzed from the viewpoint of shifts in ecosystems and human well-being and immune regulation, ecological quality, and urban planning. The investigators set up an intervention study in which yards of the housing units are rewilded with diverse vegetation and decaying deadwood and plant residuals. The investigators aim to evaluate the effect of rewilding, and yard management practices on commensal microbiome, cortisol levels and well-being and salivary cytokine levels, and gene pathways.
This phase II MATCH treatment trial tests how well MLN0128 (TAK-228) works in treating patients with cancer that has certain genetic changes called mTOR mutations. MLN0128 (TAK-228) may stop the growth of cancer cells by blocking some of the enzymes needed for cell growth.
This phase II MATCH treatment trial tests how well afatinib works in treating patients with cancer that has certain genetic changes. Afatinib is in a class of medications called kinase inhibitors. It is used in patients whose cancer has a certain mutation (change) in the EGFR gene. It works by blocking the action of mutated EGFR that signals cancer cells to multiply. This helps to stop or slow the spread of cancer cells.
High flow nasal oxygen therapy (HFNO) is an established modality in the supportive treatment of patients suffering from acute hypoxemic respiratory failure. The high humidified gas flow supports patient's work of breathing, reduces dead space ventilation, and improves functional residual capacity while using an unobtrusive patient's face interface [Mauri et al, 2017; Möller et al, 2017]. As hyperoxia is considered not desirable [Barbateskovic et al, 2019] during any oxygen therapy, the inspired O2 concentration is usually adapted to a pre-set SpO2 target-range of 92-96% in patients without hypercapnia risk, and of 88-92% if a risk of hypercapnia is present [O'Driscoll et al, 2017; Beasley et al, 2015]. In most institutions, the standard of care is to manually adapt the FiO2, although patients frequently have a SpO2 value outside the target range. A new closed loop oxygen controller designed for HFNO was recently developed (Hamilton Medical, Bonaduz, Switzerland). The clinician sets SpO2 targets, and the software option adjusts FiO2 to keep SpO2 within the target ranges. The software option offers some alarms on low and high SpO2 and high FiO2. Given the capability, on the one hand, to quickly increase FiO2 in patients developing sudden and profound hypoxia, and, on the other hand, of automatically preventing hyperoxia in patients improving their oxygenation, such a system could be particularly useful in patients treated with HFNO. A short-term (4 hours vs 4 hours) crossover study indicated that this technique improves the time spent within SpO2 pre-defined target for ICU patients receiving high-flow nasal oxygen therapy [Roca et al, 2022]. Due to its simplicity, HFNO is increasingly used outside the ICU during transport and in the Emergency Room (ER). This environment poses specific challenges, as patients may deteriorate very quickly and depending on patient's flow, healthcare providers can easily be overwhelmed. We thus propose to evaluate closed loop controlled HFNO in ER patients. The hypothesis of the study is that closed loop oxygen control increases the time spent within clinically targeted SpO2 ranges and decreases the time spent outside clinical target SpO2 ranges as compared to manual oxygen control in ER patients treated with HFNO.
This is an observational study in which data already collected from people with sepsis (blood poisoning) and/or disseminated intravascular coagulation (DIC) are studied. In observational studies, only observations are made without participants receiving any advice or changes to their healthcare. DIC is a serious blood disorder that can cause clots throughout the body, blocking blood vessels. People who have sepsis or cancer are at a higher risk of developing DIC. To find a treatment that works well for people with DIC associated with sepsis, it is important to know about its occurrence, treatments people receive, and their outcomes. Japan is the only country that has officially approved medicines for DIC including a few newer medicines that prevent extensive blood clotting. In this study, researchers will assess patient data from a hospital database in Japan. The main purpose of this study is to learn more about how many adults develop DIC related to sepsis, thrombocytopenic sepsis (sudden decrease in the number of platelets in the blood), or septic shock (dangerously low blood pressure) in Japan every year. To learn about this, researchers will collect the following information: - The number of participants who developed DIC 14 days, 21 days and 28 days after their sepsis diagnosis - The grading scores given to the participants which are used to assess the likelihood, cause, severity, treatment plan, and outcome of DIC (including scores called JAAM, ISTH, MHLW, and/or SOFA scores) - The number of days between diagnosis of sepsis and the beginning of DIC Researchers will study the data collected between June 2018 and June 2023. The data will come from TXP Medical, which collects data through the hospital health information system of 7 selected hospitals for this study across Japan. In this study, only available data from routine care are collected.
COLLIGO-HCM is a global observational study that will conduct observational research of hypertrophic cardiomyopathy (HCM) treatment in real-world clinical practice.
The aim of this study was to predict the effect of gastric antrum diameter before extubation on intra-abdominal pressure changes and consequently on the risk of pulmonary aspiration in patients undergoing elective spinal surgery under general anaesthesia in the prone position in the Neurosurgery Operating Theatre of the Ministry of Health Ankara City Hospital and to take precautions accordingly. Gastric antrum diameter and intraabdominal pressure measurements may contribute to the improvement of anaesthetic practice by reducing the risk of pulmonary aspiration and additional complications.
Previous studies have shown that repetitive transcranial magnetic stimulation(rTMS) can improve clinical symptoms of Parkinson's disease(PD). Continuous theta-burst stimulation(cTBS) is a novel rTMS protocol that produces physiological effects b acting on neurons in the brain, which can decrease the excitability of motor system. This study aims to explore the long-term effects of cTBS on improvement of movement symptoms in patients with PD.
This is an observational study in which data already collected from people with chronic heart failure with reduced ejection fraction (HFrEF) are studied. In observational studies, only observations are made, without participants receiving any advice or any changes to healthcare. Chronic HFrEF is a long-term condition in which the heart becomes weak and cannot pump enough blood to the rest of the body with each heartbeat. This leads to a reduced supply of oxygen, which the body requires to function properly. The study treatment, vericiguat, works by increasing the activity of an enzyme called soluble guanylate cyclase (sGC), which relaxes the blood vessels and allows more blood to flow. As a result, the heart can pump better. It is already approved for doctors to prescribe to people with chronic HFrEF in the United States (US) who are stabilized after a recent "decompensation event". The treatment with vericiguat starts at a low dose, which should be increased gradually to the target dose based on how a patient tolerates the treatment. The participants in this study are already receiving treatment with vericiguat as part of their regular care from their doctors. The main purpose of the study is to learn more about the dosage pattern of vericiguat in people with chronic HFrEF in the US. To do this, researchers will collect the following information for 3 months after participants' first dose of vericiguat: - starting dose of vericiguat - daily changes in dosage pattern - time taken to reach the target dose - number and percentage of participants: - with specific changes in dosage pattern - reaching the target dose of vericiguat They will also collect information on how often low blood pressure or fainting occurs, which are well known events in people with chronic HFrEF. The data will come from the participants' information stored in a database called the HealthVerity HF dataset. Data collected will be from people with chronic HFrEF who started taking vericiguat between January 2021 and April 2023. Researchers will only look at the health records of participants in the US. Researchers will track participants' data and will collect information for a maximum of 6 months before and 3 months after their first dose of vericiguat. In this study, only available data from routine care are collected. No visits or tests are required as part of this study.