There are about 173942 clinical studies being (or have been) conducted in United States. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
The purpose of this research is to to assess the feasibility and safety of left atrial appendage (LAA) occlusion with the WATCHMAN FLX™ device using a standardized intra-procedural intracardiac echocardiography (ICE) protocol under moderate sedation for procedural guidance.
The main purpose of this study is to compare the amount of selpercatinib that gets into the blood stream and how long it takes the body to get rid of it, when given as three different formulations in adult healthy participants. The information about any adverse effects experienced will be collected and the tolerability of selpercatinib will also be evaluated. The study may last up to 59 days including the 28 days of screening period.
The study objective is to assess the efficacy and safety of cenegermin (rhNGF) ophthalmic solution at 20 mcg/mL concentration administered three times daily for 4 weeks in patients with severe Sjogren's dry eye disease (DED) who are under chronic treatment with topical Cyclosporine A (CsA).
The main goal of this study is to learn more about the safety of a drug called Lu AG22515. During the trial, healthy adult participants will receive a single dose of Lu AG22515 or a placebo (normal saline solution).
Inpatient management of glycemia in people with diabetes has been inadequately studied. Previous randomized trials of intensive insulin therapy in the hospital setting resulted in excessive hypoglycemia. Current ADA guidelines (glucose 140-180 mg/dL) are by consensus with the upper bound defined by observational data and the lower bound by safety concerns. None of the previous studies of intensive glucose management used CGM technology. Whether near normal glucose levels can be achieved without increasing hypoglycemia among hospitalized patients with diabetes with the advent of CGM technology is not known. There are clear associations between hyperglycemia and poor outcomes in patients with diabetes hospitalized with infection, including COVID-19. The COVID-19 pandemic has increased the urgency to definitively answer the question of whether glucose lowering below 140-180 mg/dL can be achieved without increasing hypoglycemia. If this proposed study demonstrates intensive management of glucose to a target of 90 to 130 mg/dL without hypoglycemia is achievable in the inpatient setting with CGM technology, a larger study could then be performed to evaluate whether there is clinical benefit including a reduction in morbidity and mortality. The primary study hypothesis is that glucose management with CGM can achieve a mean glucose of 90-130 mg/dL without increasing hypoglycemia compared with standard care with a glucose target of 140-180 mg/dL. Individuals with diabetes who are hospitalized (non-ICU) for an eligible condition will be randomly assigned to receive standard therapy (glucose target 140-180 mg/dL per ADA guidelines) or intensive therapy (glucose target 90-130 mg/dL and CGM used for monitoring). Real-time CGM will be used in the Intensive Target Group and masked CGM will be used in the Standard Target Group. The co-primary outcomes, assessed via a hierarchical approach, include a treatment group comparison of mean glucose (superiority) followed by a non-inferiority comparison of time <54 mg/dL measured with CGM.
As of November 2021, partly due to the COVID-19 pandemic, there has been a months-long national shortage of several types of blood in the U.S. (O-Pos, O-Neg, A-Neg, B-Neg, and AB-Neg), which has extended to a local blood shortage within the Geisinger community. The broad aim of this collaborative healthcare operations quality improvement project is to determine whether a message indicating that a patient's own blood type is in short supply increases the likelihood that they will donate, compared to a message that mentions a blood shortage without referencing the patient's blood type, or no message at all. Scientists in Geisinger's Behavioral Insights Team (BIT), part of Geisinger's Steele Institute for Health Innovation, will collaborate with Miller Keystone, where Geisinger refers patients who wish to donate blood and from whom Geisinger receives blood for clinical purposes. Patients with one of the needed blood types will be randomized to receive 1) a message about a blood shortage that does not specify the blood types in short supply or their own blood type (no-blood-type message), 2) the same message modified slightly to specify the recipient's blood type, and to mention that their blood type is in short supply (blood-type message), or 3) no message (shortage control group). A second no-contact control group of patients without any of the needed blood types will also be observed (no-shortage control group). Both the blood-type and no-blood-type messages are informed by behavioral science, emphasizing supply needs in local hospitals and providing community-relevant examples of why someone might need blood (e.g., farming or industrial accidents). The BIT will compare how many patients in each group choose to donate blood. They hypothesize that: 1) patients who receive either message will be more likely to donate than patients who receive no message; and 2) patients who receive the blood-type message will be more likely to donate than those who receive the no-blood-type message. With respect to the latter hypothesis, informing the recipient that they have one of the needed blood types may increase their perception that they are in a semi-unique position to help someone in need as compared to a more general message that may suffer from a diffusion of responsibility effect.
In this study, the study team utilize virtual reality (VR) to simulate visual impairments of different types and severity in healthy subjects. The platform implements three of the most widespread forms of visual impairment in the United States (US): age-related macular degeneration (AMD), diabetic retinopathy (DR), and glaucoma, each with three levels of severity, (mild, moderate, and severe). At present, glaucoma is further developed toward a multidimensional visual impairment simulation. The platform is utilized: i) to provide a safe, controllable, and repeatable set of environments for development and preliminary testing of electronic travel aids (ETAs) in a variety of conditions (i.e., using the ETA to navigate in the immersed environment); and ii) to equip blind and low vision (BVI) professionals, inclusive of orientation and mobility (O&M) instructors, with a controlled, tunable training platform for skill/capacity building, assessment, and refinement of O&M techniques, as well as visually impaired trainees with a safe and immersive environment to improve their O&M skills and learn novel techniques. Two sets of hypothesis-driven experiments are proposed to assess the feasibility of the platform with respect to these two objectives.
Lung transplant is an option for treating end-stage lung disease in cystic fibrosis (CF). More than half of people with CF who die without a lung transplant were never referred for consideration. Patient preference not to undergo lung transplant may account for 25-40% of decisions to defer referral. Increasing awareness of lung transplant among people with CF, and promoting understanding of the risks and benefits of transplant, can potentially reduce the number of people with CF who die without a lung transplant. The CF Foundation (CFF) lung transplant referral guidelines were developed to optimize the timing of referral for lung transplant. These guidelines recommend annual conversations with CF patients once their forced expiratory volume in one second (FEV1) is <50% predicted. Considering lung transplant as a treatment option ahead of when it is medically needed will allow more time to learn about lung transplant and address any barriers to lung transplant that may exist. Investigators are interested in understanding how people with CF use lung transplant educational resources and how one prepares for having discussions and/or making decisions about lung transplant as a treatment option for advanced CF. The purpose of this study is to test whether a research website improves patient preparedness for discussions about lung transplant. Study involvement will span 4 weeks and study procedures will involve the following: - Three Zoom interview sessions (30-60 minutes each) - Survey assessments - Access to a research website that contains educational resources about lung transplant (goal of 4 hours of use over the 4 week study period)
During exercise in the heat, the thermoregulatory system impacts performance in an athletic population. Increased in core body temperature could lead to development of heat-related illnesses and impair physical performance. To facilitate heat loss and optimize performance during exercise in the heat, various cooling strategies, including cold water immersion and wearable cooling devices have been previously explored. Although whole body cooling by cold water immersion is considered to be the most effective way to reduce core body temperature, this cooling method would not be feasible for athletes during practice or competition. Therefore, previous studies strongly recommended neck cooling during exercise because of the rate of heat dissipation through the large blood vessel and accessibility compared to other body part. Furthermore, multiple studies reported that the neck cooling could improve aerobic performance (i.e. running distance and time). In addition to physiological changes, human prefer to be cool in the neck region as well as the face in hot environment. Thus, local cooling of the neck is efficient way to reduce thermal discomfort during heat exposure. The novel neck cooling collar device (NeuroRescue Inc., Lafayette, LA) used in the current study may be able to produce powerful effect of conductive cooling, which result in improving performance and also reduce thermal discomfort during exercise in the heat. While this neck cooling collar would assist athletes in improving sports safety and performance by decreasing skin temperature around the neck, the effectiveness of this neck cooling collar on core temperature was not examined at this point. Moreover, other physiological and perceptual changes are important to assess along with changes in core body temperature. Therefore, this study aims to examine how internal body temperature, heart rate, perceptual measures, and athletic performance are affected by the novel neck cooling collar during exercise in the heat.
The purpose of this study is to explore the efficacy and safety of LTP001 in participants with pulmonary arterial hypertension (PAH) to determine if LTP001 has an adequate clinical profile to warrant further clinical development in this indication.