6 Clinical Trials for Various Conditions
We have designed new electromyography sensors for measuring uterine activity. These sensors are directional - they preferentially report uterine muscle contractions at specific locations, called regions. By measuring the synchronization of the regions of the uterus during contractions we intend to non-invasively determine if any patient is in-labor or not-in-labor. Accurately diagnosing true preterm labor allows timely intervention to avoid preterm birth; Accurately diagnosing false preterm labor avoids needlessly treating patients who would not benefit.
Trial to compare the interexaminer agreement between two cervical dilation examinations conducted by Labor and Delivery physicians when using standard methods versus DilaCheck device.
First Responders are expected to maintain high-performance levels under extreme conditions. However, constant intense workplace stress, physical work demands, and irregular shift hours are taking a severe toll on frontline workers. These demands often lead to physical and mental health problems, poor job performance, and lifestyle issues. Without better support and resources, these demands will continue to cause first responders to be trapped in a vicious cycle that typically includes occupational trauma, stress, and maladaptive coping skills. The purpose of this research is to: 1. Better understand the physiological, psychological, and cognitive impacts workplace stress and irregular shift hours have on first responders 2. Better understand the most prominent challenges first responders face when trying to manage their own physical and mental health. Through the results of this study, we hope to identify possible solutions/interventions at the individual, clinical and departmental levels to help first responders better manage their stress and improve their quality of life.
Researchers are looking for a better way to treat people with atrial fibrillation (AF) and prevent stroke or systemic embolism (blood clots travelling through the blood stream to plug another vessel). Atrial fibrillation is a condition of having irregular and often rapid heartbeat. It can lead to the formation of blood clots in the heart which can travel through the blood stream to plug another vessel, and like this lead to serious and life-threatening conditions, such as a stroke. A stroke occurs because the brain tissue beyond the blockage no longer receives nutrients and oxygen so that brain cells die. As strokes arising from atrial fibrillation can involve extensive areas of the brain, it is important to prevent them. Blood clots are formed in a process known as coagulation. Medications are already available to prevent the formation of blood clots. When taken by mouth (orally), they are known as oral anticoagulants (OACs) including apixaban. OACs decrease the risk of the above-mentioned serious and life-threatening conditions. The main side effect of OACs is an increase of the risk of bleeding. The study treatment asundexian is a new type of anticoagulant currently under development to provide further treatment options. Asundexian aims to further improve the standard of care with regard to the risk of bleeding. The main purpose of this study is to collect more data about how well asundexian works to prevent stroke and systemic embolism and how safe it is compared to apixaban in people with atrial fibrillation and at high risk for stroke. To see how well the study treatment asundexian works researchers compare: * how long asundexian works well and * how long apixaban works well after the start of the treatment. Working well means that the treatments can prevent the following from happening: * stroke and/or * systemic embolism. The study will keep collecting data until a certain number of strokes or embolisms happen in the study. To see how safe asundexian is, the researchers will compare how often major bleedings occur after taking the study treatments asundexian and apixaban, respectively. Major bleedings are bleedings that have a serious or even life-threatening impact on a person's health. The study participants will be randomly (by chance) assigned to 1 of 2 treatment groups, A and B. Dependent on the treatment group, the participants will either take the study treatment asundexian by mouth once a day or apixaban by mouth twice a day for approximately 9 - 33 months. Each participant will be in the study for approximately 9 - 34 months. There will be visits to the study site every 3 to 6 months and up to 7 phone calls. Those participants who do not want or are unable to have visits to the study site may join the study remotely in selected locations. The location name contains the abbreviation - DCT in such cases. During the study, the study team will: * take blood samples * do physical examinations * examine heart health using an electrocardiogram (ECG) * check vital signs such as blood pressure and heart rate * do pregnancy tests * ask the participants questions about their quality of life * ask the participants questions about how they are feeling and what adverse events they are having. An adverse event is any medical problem that a participant has during a study. Doctors keep track of all adverse events that happen in studies, even if they do not think the adverse events might be related to the study treatments.
Insufficient sleep has both health and safety risks, but currently there are no quick, accurate and inexpensive ways to measure sleep deficiency. The current study aims to use a cutting-edge technology, small molecule analysis (e.g. metabolomics), to detect compounds in breath that reliably change with sleep-wake state and those whose levels vary by time of day.
Study investigators want to learn more about the underlying biological clock and to see if the timing of that clock can be estimated from a single blood sample.