733 Clinical Trials for Various Conditions
To take part in this study you/your child have a vascular malformation, a type of blood vessel disorder whose cause is unknown. The investigators will do this by looking at changes in the genes and proteins in the cells of the malformation as well as normal cells. The investigators are doing this research because currently there is no known cause of vascular malformations and no way to know whether or not other health problems will occur in addition to the malformation. Through this research we hope to create standard methods for doctors to examine and treat people with vascular anomalies.
The overall significance of this study is to develop a laboratory developed test (LDT) to use a new marker in the maternal blood to better identify pregnancies that have a child with a chromosome abnormality such as Down syndrome (trisomy 21), Edward's syndrome (trisomy 18), Patau syndrome (trisomy 13), Klinefelter syndrome, (47, XXY), and other chromosome abnormalities. Accomplishing that task would reduce the need for invasive amniocentesis and CVS procedures.
The purpose of this research is to study a new way to test for chromosome abnormalities. Chromosomes are strands of DNA (the genetic material in the cell nucleus) that are made up of genes-the units of heredity. Chromosome abnormalities are usually investigated by staining the chromosomes with a dye (Giemsa stain) and examining them under a microscope. This method can detect many duplications and deletions of pieces of chromosomes and is very accurate in diagnosing certain abnormalities. It is not useful, however, for identifying very small abnormalities. This study will evaluate the accuracy of a test method using 24 different dyes for finding small chromosome abnormalities. Children and adults with various chromosome abnormalities may be eligible for this study, including, for example, people with developmental delay or mental retardation, abnormal growth features or growth retardation, and certain behavioral disorders. Participants will be evaluated in the clinic over a 1- to 3-day period, depending on their symptoms. All participants will be examined by a genetics specialist and will have a physical examination and possibly X-rays, computerized tomography (CT) scans, magnetic resonance imaging (MRI), ultrasound studies and medical photography. Blood will be drawn for chromosome testing-about 3 tablespoons from adults and 1 to 3 teaspoons from children. When the test results are available, participants will return to the clinic for follow-up evaluation and review of the test findings. The genetic and medical evaluations, along with their implications, will be discussed.
Kidney stones continue to affect more and more people in the United States with the most recent estimate being 1 in 9 people will develop a stone in their life. While family history is a known risk factor for stone disease, it remains unclear whether this is related to learned dietary habits or a truly inheritable genetic condition. Known inheritable genetic conditions linked to stone formation are uncommon, and thus, routine genetic testing is not currently recommended by any major urologic organizations. Patients who form calcium phosphate predominant stones, a less common type of stone composition, tend to have alkaline urine pH which suggests that the kidneys are unable to rid the body of acid. Management of such patients for stone prevention can be difficult. The Iowa Institute for Human Genomics is one of only a handful of commercial labs which offers genetic testing for stone disease. The aim of this study is to assess the rate of genetic abnormalities amongst calcium phosphate predominant stone formers with alkaline urine. To this end, the investigators plan to enroll calcium phosphate predominant stone forming patients with alkaline urine on 24 hour urine collection who obtain their health care at UIHC to undergo free genetic testing via blood draw to assess for genetic abnormalities. The investigators will also collect information already available in the subject's chart to assess for other patterns between blood and urine tests and any genetic variants.
There is no consensus regarding the neurological substrate underpinning ASD. The investigators describe the novel concept of "social reciprocity network" and hypothesize that aberrant connectivity/oscillatory patterns affecting this network contribute to the core deficits in ASD. The overarching goal of this trial is to explore abnormalities involving the neuronal connectivity and oscillatory patterns within the social reciprocity network and to elucidate the role of modulating this network via rTMS in improving the above measures and social cognition in ASD. Quantitative electroencephalography (QEEG) coherence and spectral power analysis are reliable measures of neuronal connectivity and dynamics. The investigators aim to study the QEEG coherence/spectral power analysis to explore the neuronal dynamics affecting the social reciprocity network in ASD.
Primary Objective - To assess the proportion of patients with Sjögren's dry eye who demonstrate impaired corneal sensitivity. Secondary Objectives * To assess corneal sensitivity via Cochet-Bonnet esthesiometer. * To assess tear secretion via Schirmer I test. * To assess OPAS questionnaire results.
This is a multi-center retrospective analysis of consecutive adult patients with cryptogenic stroke patients following a comprehensive workup for the underlying stroke etiology. Patients will be eligible for inclusion if the index stroke event occurred between 1/1/2016 and 06/30/2022.
The goal of the DIVA trial is to test the effectiveness of at-home diaphragmatic breathing exercises with bladder hygiene education in female patients with symptoms of difficulty urinating (dysfunctional voiding). It aims to answer how effective are at-home diaphragmatic breathing exercises for dysfunctional voiding. Researchers will compare two groups of participants (a group using diaphragmatic breathing exercises with bladder hygiene education versus a group using just bladder hygiene education alone) for a total of 4 weeks. Participants will complete weekly surveys on their symptoms.
This clinical trial tests how well molecular breast imaging (MBI) works to guide the collection of a breast biopsy in patients with a breast abnormality. Currently, a biopsy is often guided by either ultrasound or mammography in order to ensure that a sample of the correct part of the breast is taken. Sometimes a lesion or part of the lesion cannot be seen on ultrasound or mammography, and, therefore, a biopsy guided with ultrasound or mammography may not be always be accurate. Studies have shown that high resolution MBI may have potential to improve the detection of some breast tumors. This trial uses a new high-resolution MBI system that may help perform a biopsy using MBI.
Prospective cohort study to evaluate the utility of quantitative CT analysis to assess ventilation and perfusion defects in patients with Post-acute Sequelae of SARS-CoV-2 (PASC) and functional limitations
Substance use disorders and psychopathy are serious and costly mental health issues. Psychopathy is known to be associated with aberrant moral decision making and there is considerable interest in determining whether substance use disorders lead to impairments in these same cognitive processes. Recent large-scale research initiatives in forensic settings have begun to identify substance abuse and psychopathy-related disruption in the neural mechanisms involved in moral decision-making processes, and associations between these neural networks and future relapse and antisocial behavior. Here the investigators extend prior work (with incarcerated men) to examine these issues among incarcerated women in order to better understand sex differences. This project addresses the overall lack of neurocognitive research in criminal offenders with substance use disorders, thereby focusing on a major public health issue in an underserved and understudied population.
One of the primary criticisms of mammography is that it leads to unneeded stress and anxiety from identification and biopsy of non-cancerous findings. Contrast-enhanced mammography (CEM) has the potential to significantly reduce biopsy rates for commonly seen benign breast lesions while preserving very high cancer detection. The investigators propose a prospective clinical study of patients with diagnostic mammograms rated as BIRADS 4A or 4B and scheduled for a biopsy, in which, prior to undergoing their scheduled biopsy, a CEM procedure is performed. The investigators will test the primary hypothesis that for soft tissue lesions (i.e. masses, asymmetries, architectural distortions) initially rated BI-RADS 4A/4B adding CEM will reduce, by at least 20%, the number of biopsy recommendations for actually benign cases and, at the same time, provide a negative predictive value (NPV) higher than 95%.
The REFRESH study is designed to collect data related to a signal in the brain that MindRhythm has named the Headpulse. The Headpulse occurs as a natural movement of the brain in conjunction with the beating of the heart. 500 "normal" subjects who are considered healthy as they do not have any current known neurological injury will collect the brain signal data from the non-invasive headband style headset for a duration of 3 minutes either once or multiple times. Upon consenting to participate to the study by way of the accompanying MindRhythm app, participants will be sent a Harmony headset kit which will include ECG leads to collect cardiac data in conjunction with the brain signal. The participant will receive training materials and instructions on how to collect and transmit data to investigators by way of the MindRhythm app. The data collected by these "normal" patients will be used as a comparator to individuals who are suspected of neurological injury. This data will assist in training the data analysis algorithm to optimize its diagnostic abilities in detecting neurological injury or abnormalities including but not limited to stroke, stroke type, and concussion. The data set will also be analyzed to determine how the signal varies within an individual and amongst other "normals." An additional benefit of collecting this data will be to gain knowledge related to the ergonomic factors of the app and the headset and its "user friendliness."
This study is designed to measure how common nerve abnormalities are within a group of patients who feel discomfort within their eyes.
This study will test the iBreastExam device to find out whether it can detect a mass or lump in the breast as accurately as a routine breast cancer screening examination. The iBreastExam is a handheld device that performs a painless electronic palpation (examination by touch) of the breast. The device is designed to detect breast abnormalities that may require breast imaging and additional clinical examination by a nurse or doctor. The iBreastExam device creates a color map of the breast, with red spots indicating areas that may be abnormal.
Kawasaki disease (KD) is the leading cause of acquired heart disease in children in the developed world. Despite available treatment, 25% of children in San Diego County appropriately treated for KD develop coronary artery abnormalities that could lead to complications later in life, including heart attack. Although we can identify children with KD that have these coronary artery abnormalities, there is no approved additional treatment to decrease coronary artery inflammation and arrest or prevent damage to the coronary arteries. Statins, a class of drugs that is known for lowering cholesterol, have also been shown to decrease inflammation in general as well as at the level of the vessel wall. Anakinra, a therapy that blocks the high levels of interleukin 1 (IL1) that leads to inflammation during acute KD, has been shown in the KD mouse model to prevent the development of coronary artery damage. Both of these therapies have been demonstrated to be safe and well-tolerated in KD patients. Therefore, we propose to study the effects of combination therapy with atorvastatin and anakinra in children with acute KD and early coronary artery abnormalities.
Phase 1 and 2 trial to study the safety, pharmacokinetics, and efficacy of TAS0953/HM06 in patients with advanced solid tumors with RET gene abnormalities. Phase 1 aims to determine the Maximum Tolerated Dose (MTD) and identify the Recommended Phase 2 Dose (RP2D) to be used in phase 2.
The overall objective of this study is to determine if there are pyloric sphincter abnormalities in patients with gastroparesis symptoms and determine how prevalent these abnormalities are using tests to assess the pyloric sphincter - endoluminal functional luminal imaging probe (Endoflip™), water load satiety testing (WLST), and high-resolution cutaneous electrogastrography (HR-EGG) using Gastric Alimetry™ System.
This is a prospective, single-site controlled observational study designed to comprehensively determine whether children and adults with atopic dermatitis (AD) and food allergy (FA) have skin abnormalities which distinguish them from children with AD without FA, and non-atopic (NA) controls.
Background: Severe aplastic anemia (SAA) is a form of bone marrow failure. It usually results from a cytotoxic T cell attack on the marrow stem cell. Two treatments can be used for SAA. One is allogeneic hematopoietic stem cell transplant (HSCT). The other is immunosuppressive treatment (IST). In most cases, HSCT or IST works. But for some people, clonal evolution occurs after IST. One of the most common forms of clonal evolution is chromosome 7 abnormalities. These have a poor prognosis. HSCT can be used to treat them. Researchers do not know why clonal evolution happens. They want to look at data from past studies to learn more. Objective: To compare the data of people with SAA who developed chromosome 7 abnormalities between those who ultimately received HSCT versus those who received chemotherapy alone or supportive care. Eligibility: Adults and children with SAA who were enrolled on NHLBI protocol 12-H-0150, 06-H-0034, 03-H-0249, 03-H-0193, 00-H-0032, or 90-H-0146 Design: This study uses data from past studies. The participants in those studies have allowed their data to be used in future research. Researchers will review participants medical records. They will collect clinical data, such as notes, test results, and imaging scans. They will also collect the research data gathered as part of the original study. Researchers will enter the data into an in-house database. It is password protected. All data will be kept in secure network drives or in sites that comply with NIH security rules. Other studies may be added in the future.
The purpose of this pilot study will be to conduct a clinical trial using a time-of-flight PET scanner and MRI scanner to test an improved method for differentiating tumor recurrence from radiation necrosis in glioblastoma patients. We will attempt to do so by performing a static and dynamic FDG-PET scan, a static and dynamic FDOPA-PET scan, and a multiparametric MRI scan - then comparing the results with surgical pathology and static FDG-PET scans. We hypothesize that the new quantitative kinetic analytical methods using FDOPA in combination with FDG will provide crucial functional information to distinguish recurrent tumors from treatment-induced radiation changes in patients with treated brain neoplasms. This is important for improving patient outcomes by allowing treating physicians to more accurately tailor treatments. Furthermore, dynamic FDG and FDOPA PET will be combined with high resolution anatomic and physiologic MRI in order to develop a multimodal multiparametric approach for differentiating tumor recurrence from treatment effect.
Amblyopia and strabismus are characterized by a reduction in visual acuity, contrast sensitivity, grating acuity, vernier acuity, reading difficulties and binocular visual function deficits. Treated patients have residual visual function deficits. The purpose of the current study is to quantify various visual functions in amblyopic and strabismic participants at baseline, during and at the completion of treatment.
To find out if the use of an intranasal tear neurostimulator (ITN), may be useful in decreasing the pain symptoms felt by patients who experience contact lens discomfort.
The overarching aim is to assess the role of microglial activation and norepinephrine transporter binding in pathogenesis of MS-related fatigue, using novel Positron Emission Tomography (PET) radiotracers, \[F-18\]PBR06 and \[C-11\]MRB. Specific Aims: Specific Aim 1: To determine the relationship of cerebral microglial activation, as assessed by \[F-18\]PBR06 PET, with MS-related fatigue. Specific Aim 2: To determine the relationship of norepinephrine transporter (NET) binding, as assessed by \[C-11\]MRB PET, with MS-related fatigue. Specific Aim 3: To determine the relationship of microglial activation and NET binding, with grey matter pathology (lesion load and brain atrophy) assessed using 7T MRI, and evaluate their independent contribution in development of MS-related fatigue.
Background: Patients with mild blunt traumatic brain injury (TBI) are frequently transferred to Level 1 trauma centers (L1TC) if they have any positive finding of any acute intracranial injury identified on a CT scan of the head. The hypothesis for the study is that patients with such injuries and minor changes on the Head CT scan can be safely managed at community hospitals (CH). Methods: Patients with blunt, mild TBI (defined as a GCS 13-15 at presentation) presenting to CH, L1TC, and transferred from CH to L1TC between March, 2012 and February, 2014 were included. Minor changes on head CT were defined as: 1) epidural hematoma\<2mm; 2) subarachnoid hemorrhage\<2mm; 3) subdural hematoma\<4mm; 4) intraparenchymal hemorrhage\<5mm; 5) minor pneumocephalus; or 6) linear or minimally depressed skull fracture. TBI-specific interventions were defined as intracranial pressure monitor placement, administration of hyperosmolar therapy, or neurosurgical operation. Three groups of patients were compared: 1) those receiving treatment at CH, 2) those transferred from CH to L1TC, and 3) those presenting directly to L1TC. The primary endpoint was the need for TBI-specific intervention and secondary outcome was death of any patient.
The study aims to determine how historical cases of respiratory abnormalities are documented by clinicians in the electronic health records (EHR) of Memorial Hermann Healthcare System (MHHS) inpatient facilities. The knowledge gained from this study will support the design of modern data-driven surveillance approach to continuously collect, monitor and timely recognize postoperative respiratory abnormalities using electronic healthcare recorded data.
Hyperoxygenation for resuscitation of abnormal fetal heart rate tracings has been routine obstetric practice. However, there have not been any studies to support this practice. Recent literature have either found no associated benefit to intrapartum maternal oxygen administration, or in a number of studies demonstrated higher risk of neonatal complications. Despite these studies, the evidences have not been adequate to change the clinical practice because the majority of these studies either focused on biological differences rather than clinical outcomes data or were retrospective rather than randomized trials. Therefore, the investigators propose a large single center randomized clinical trial to determine the effects of maternal hyperoxygenation therapy for the treatment of fetal heart rate tracing abnormalities.
Combat Veterans of post-9/11 conflicts have experienced serious cognitive and emotional problems resulting from exposure to blasts. Recent work suggests that a critical factor influencing the consequences of blast exposure is distance from the blast, rather than the presence or absence of concussion symptoms. Exposure to blasts from a distance of \<10 m has been associated with significantly greater cognitive and neural problems than exposure to blasts from \>10 m. So far, the effects of blast-related brain injury on the brain are poorly understood, as to date the effects of blast exposure have received little research focus. The investigators propose to use oscillations in the gamma band (30-100 Hz) of the electroencephalogram (EEG; brain waves) to detect and remediate neural circuit dysfunction related to blast injury in Veterans. If successful, this project could lead to new approaches to detect and remediate the effects of blast exposure on Veterans and aid in their functional recovery.
Objectives: 1. To examine whether patients with delirium have higher prevalence of cytochrome-P450 abnormalities compared to patients without delirium. 2. To examine whether the severity of delirium is related to a specific cytochrome P450 genotype. 3. To examine the persistence of delirium at 6-8 weeks stratified by presence of cytochrome p450 abnormalities 4. To examine whether delirium persistence is impacted by types of medications administered during their hospital stay.
Each year world-wide, 2.5 million fetuses die unexpectedly in the last half of pregnancy, 25,000 in the United States, making fetal demise ten-times more common than Sudden Infant Death Syndrome. This study will apply a novel type of non-invasive monitoring, called fetal magnetocardiography (fMCG) used thus far to successfully evaluate fetal arrhythmias, in order to discover potential hidden electrophysiologic abnormalities that could lead to fetal demise in five high-risk pregnancy conditions associated with fetal demise.