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.
Postpartum depression (PPD) affects up 10-15% of mothers overall, but the rate of PPD can be as high as 25% among mothers with personal or obstetric risk factors. The Mothers & Babies Program (MB) is a cognitive behavioral therapy (CBT)-based program that has been shown to prevent PPD among high-risk mothers without a prior history of depression. MB has been so consistently effective that the United States Preventive Services Task Force recommends this program be given to high-risk pregnant patients. Originally designed to be given in-person and via groups, MB has been adapted to be given in person one-on-one in clinic or at home and via text message. However, MB has yet to be adapted to a smartphone application (app). Via evidence-based qualitative research and end-user centered design, MB has been adapted to a novel app, M.Bapp. This study aims to examine the feasibility and acceptability of M.Bapp as a study intervention for perinatal patients as well as provide preliminary estimates of effect for the intervention.
The goal of this clinical trial is to study the impact of Neoadjuvant ipilimumab and nivolumab for melanoma patients that had recurrence during or after adjuvant anti-PD-1 therapy. Participants will receive 2 cycles of treatment prior to their standard of care surgery. After surgery participants will receive standard of care adjuvant therapy and be followed for response.
The primary goal of this study is to improve cancer literacy in Black women living with HIV and ultimately improve breast and cervical cancer screening uptake. This study involves an educational intervention delivered virtually and in person, depending on the participants' preference.
Heavy alcohol use among college students is associated with a range of negative consequences. However, college students rarely seek resources or treatment to change their alcohol use. Brief alcohol interventions (BAIs) have been developed as an alternative method to address heavy alcohol use among college students and show promise in reducing hazardous alcohol use in college students. Despite the established efficacy of BAIs, effects are often small and short-lived, and additional research is needed to investigate how BAIs can become more efficacious and endure for longer periods of time, particularly for computer-delivered interventions to improve accessibility and scalability of these interventions to a wider range of college students. Boosters or adjunctive components to BAIs have been suggested as a method to enhance the magnitude and duration of intervention effects. However, there remains a need to identify and test booster approaches that are both appealing and engaging to college students and effective in reducing heavy/hazardous alcohol use above and beyond the magnitude and duration seen by BAIs alone. The purpose of the study is to develop and test a novel, text-messaging booster as an adjunct to a current, evidence-based brief intervention, eCHECKUP TO GO, aimed at reducing college student heavy/hazardous alcohol use. Participants will complete baseline measures and will then be randomized to 1 of 3 conditions, stratified by sex at birth: 1) assessment only, 2) BAI only, and 3) Enhanced Intervention (BAI + four weeks of text messaging boosters). It is hypothesized that those randomized to the enhanced intervention condition will show a greater reduction in heavy/hazardous alcohol use at 3-month follow-up compared to the BAI and assessment only groups.
Transcranial magnetic stimulation (TMS) interventions could feasibly strengthen residual corticospinal tract (CST) connections and promote poststroke hand motor recovery. To maximize the effects of such interventions, they must be delivered during brain activity patterns during which TMS best activates the residual CST and enhances its neural transmission. This approach is termed brain state-dependent TMS. The investigators have recently developed a machine learning framework that identifies personalized brain activity patterns reflecting strong CST activation in neurotypical adults. In this study, the investigators will apply this framework to the poststroke brain for the first time. They will also evaluate relationships between this framework's ability to detect strong and weak CST activation states and measures of CST pathway integrity. Participants will visit the laboratory for two days of testing that are separated by at least one night of sleep. On Day 1, participants will provide their informed consent. The MacArthur Competence Assessment Tool and the Frenchay Aphasia Screening Test will be used to evaluate consent capacity and confirm the presence of expressive aphasia as needed. Afterwards, participants will complete eligibility screening and clinical assessment of upper extremity motor impairment, motor function, and disability using the Upper Extremity Fugl-Meyer Assessment, the Wolf Motor Function Test, and the Modified Rankin Scale. Participants will then be screened for the presence of residual CST connections from the lesioned hemisphere to the affected first dorsal interosseous muscle. Recording electrodes will be attached to this muscle in order to record TMS-evoked twitches in these muscles. During this procedure, single-pulse TMS will be applied to each point of a 1 cm resolution grid covering primary and secondary motor areas of the lesioned hemisphere at maximum stimulator output. If TMS reliably elicits a muscle twitch in the affected first dorsal interosseous, that participant will be considered to have residual CST connections and will be eligible for the full study. If no muscle twitch is observed, the participant will not be eligible for the full study. Afterwards, recording electrodes will be removed and the participant will leave the laboratory. On Day 2, participants will return to the laboratory. The investigators will confirm continued eligibility and place recording electrodes on the scalp using a swim-type cap. The investigators will also place recording electrodes on the affected first dorsal interosseous as well as the affected abductor pollicis brevis and extensor digitorum communis muscles. After identifying the scalp location at which TMS best elicits muscle twitches in the affected first dorsal interosseous muscle, the investigators will determine the lowest possible TMS intensity that such evokes muscle twitches at least half of the time. Then, the investigators will deliver 6 blocks of 100 single TMS pulses while participants rest quietly with their eyes open. Stimulation will be delivered at an intensity that is 20% greater than the lowest possible TMS intensity that evokes muscle twitches at least half the time. Afterwards, all electrodes will be removed, participation will be complete, and participants will leave the laboratory. The investigators will recruit a total of 20 chronic stroke survivors for this study.
Transcranial magnetic stimulation (TMS) interventions could feasibly strengthen residual corticospinal tract (CST) connections and enhance recovery of paretic hand function after stroke. To maximize the therapeutic effects of such interventions, they must be delivered during poststroke brain activity patterns during which TMS best activates the residual corticospinal tract and enhances neural transmission within it (i.e., brain state-dependent TMS). In this study, the investigators will test the feasibility of real-time, personalized brain state-dependent TMS in neurotypical adults. Participants will visit the laboratory for one day of testing. Upon arrival, participants will provide their informed consent; afterwards, they will complete eligibility screening. The investigators will then place recording electrodes on the scalp using a swim-type cap and on the left first dorsal interosseous, abductor pollicis brevis, and extensor digitorum communis muscles. After determining the location at which TMS best elicits muscle twitches in the left first dorsal interosseous, the investigators will determine the lowest possible intensity at which TMS elicits muscle twitches at least half of the time in this muscle. Then, the investigators will deliver 6 blocks of 100 single TMS pulses while the participant rests quietly with their eyes open; stimulation will be delivered at an intensity that is 20% greater than the lowest possible intensity at which TMS elicits muscle twitches at least half of the time. Afterwards, the investigators will use the muscle and brain activity recordings acquired during these 6 blocks to build a personalized mathematical model that identifies which patterns of brain activity correspond to the largest TMS-evoked muscle twitches. The investigators will then use this model to detect the occurrence of these brain activity patterns in real-time; when these patterns are detected, single TMS pulses will be delivered. Afterwards, all recording electrodes will be removed, participation will be complete, and participants will leave the laboratory. The investigators will recruit a total of 16 neurotypical adults for this study.
In this multicenter study, we will recruit 400 patients 40 years of age or older at 15 centers with a diagnosis of smoldering multiple myeloma (SMM), a group of patients for whom standard of care is observation not treatment. The main goal of this study is to screen for the diagnosis of light-chain amyloidosis (AL) before the onset of symptomatic disease and to develop a training set for a likelihood algorithm.
This is a clinical investigation to measure the changes in the oral environment resulting from a 3 month exposure to an arginine containing toothpaste. This study is a double blind, randomized controlled, parallel design. Seventy (70) male and female subjects who meet the inclusion/exclusion criteria will be enrolled in the study. Following oral health evaluations, subjects will be assigned to the treatment schedule and receive their assigned study product.
The purpose of this study, known as DISCERN, is to compare two different treatments for a type of lung cancer called non-small cell lung cancer (NSCLC) that does not show a marker known as PD-L1. This study will help us understand if using two types of immune therapy together with chemotherapy is better than using one type of immune therapy with chemotherapy. We're doing this by looking at changes in the subject's cancer's DNA in the blood after starting treatment.
This clinical registry study aims to evaluate the safety and effectiveness of the AE05ML device for ligating vessels and tissue structures during laparoscopic surgery using Hem-o-lok® Medium Large (ML) polymer clips. The primary objective is to assess the device's safety and performance, with secondary objectives focusing on device performance characteristics and operator feedback.