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We list hundreds of Clinical Trials about "Human Genome Sequencing centerBaylor college of Medicine" on BioPortfolio. We draw our references from global clinical trials data listed on ClinicalTrials.gov and refresh our database daily.
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This research is being done to see if whole genome sequencing (WGS) improves the diagnosis of patients in the NICU. Using WGS in this way, which is relatively new, researchers at Penn State College of Medicine will look at approximately 5000 genes that are known to be associated with genetic diseases to see if the neonatal patient has a known disease causing mutation. Comparing the parents' DNA with the child's will help the investigators better understand the child's DNA.
The goal of this collaborative research is to study human genomes in children with suspected congenital disease, multiple-congenital anomalies and/or multi-organ disease of unknown etiology by understanding the potential value of Whole Genome Sequencing (WGS) in establishing genetic diagnosis. The study will examine diagnosis rates, changes in clinical care as a result of a genetic diagnosis, health economics including potential cost-effectiveness of WGS and patient and provide...
To assess the indications and diagnostic efficiency of whole genome sequencing (WGS) in pediatric patients with unexplained intellectual disability/developmental delay, multiple congenital abnormalities and other rare and undiagnosed diseases
The VetSeq Study is a pilot intervention study exploring the feasibility of integrating genome sequencing into clinical care at the VA Boston Healthcare System.
Rapid Whole Genome Sequencing (rWGS) has proven to provide much faster diagnoses than traditional clinical testing, including clinical Whole Exome Sequencing (WES) and standard Whole Genome Sequencing (WGS). This collaborative study seeks to provide rWGS as a research test to additional pediatric hospitals nationwide to assist in the rapid diagnosis of acutely ill children suspected of a genetic condition. The study will examine diagnosis rates, changes in clinical care as a re...
The purpose of this study is to compare the effectiveness of rapid next generation sequencing (NGS, such as whole genome sequencing1) with current practice to provide diagnostic or prognostic information or treatment guidance in acutely ill neonates and infants, particularly with respect to clinical care, cost and outcomes.
This study will seek to determine if rapid genomic sequencing improves outcomes for acutely ill infants. The investigator will enroll up to 1,000 acutely ill infants in a prospective, randomized, blinded study to either rapid Whole Genome Sequencing (WGS) or rapid Whole Exome Sequencing (WES, which is 2% of the genome and ~4-fold less expensive). Outcomes will be measured both by objective clinical measures and family perceptions (patient/family centered outcomes). Primary anal...
Syphilis is an important sexually transmitted infection. There has been an epidemic of syphilis amongst men who have sex with men in the United Kingdom in the last decade. Early infection with syphilis causes a genital ulcer followed, in the absence of treatment, by a generalised illness often accompanied by rash. Studies on syphilis have been limited because it is not possible to grow syphilis outside of the body. New approaches allow the whole genetic sequence of Treponema pa...
To gain knowledge about how patients undergoing prenatal diagnosis for a fetal abnormality understand and react to Whole Genome Sequencing (WGS) testing, so that the investigators can develop more ethical and responsible approach to patient education, counseling, and return of results for patients.
Background: Genes are the instructions a person s body uses to function. Genome sequencing is a new way to look at genes that your main research team is using to learn the causes of the condition they are studying. When a new cause is found this way, it is called a primary variant. Each person has many variants. Most do not cause disease. Sequencing can also find secondary variants. These are not related to the condition your main research team is studying, but may show ...
The purpose of this study is to investigate genetic mutations affecting prognosis using whole genome sequencing in patients with biliary tract cancer.
This study will examine genome sequencing in clinical research. Genome sequencing is a process in which researchers analyze (or sequence) part or all of the genome from a single person. The human genome is the material in cells that includes thousands of genes. Gene changes that cause or contribute to disease can be passed on from one generation to the next. This study first focuses on heart disease. Later, researchers hope to study other conditions and genes, with the eventual...
Investigators aim to use comparative exome and/or genome sequencing to discover causative molecular lesions for phenotypes hypothesized to be caused by somatic mutations. For this study, investigators have targeted hypertrophic cardiomyopathy.
The management of cancers and their therapeutic guidance was until shortly mostly based on histopathological considerations of the tumor. the development of targeted therapies is a turning point and keeps increase. These molecules target a specific molecular defect in the tumor making it more effective and more specific treatment. But these treatments are only effective if the tumor has a specific molecular abnormality that is characterized and known. These therapeutic progres...
Background: - The purpose of this study is to identify changes in genes that cause human diseases. We would like to obtain some of you or your child s DNA and test for changes in genes that may contribute to a disease in you or your family. Objective: -To allow for exomic or genomic sequencing of NICHD patients or family members in order to identify changes in genes that cause or contribute to a specific disease. Eligibility: - Children who are enrol...
Background: - A number of rare inherited diseases affect only a few patients, and the genetic causes of these conditions remain unknown. Researchers are studying the use of a new technology called whole genome sequencing to learn which gene or genes cause these conditions. Understanding the genes that cause these diseases is important to improve diagnosis and treatment of affected patients. Objectives: - To identify the genetic cause of disorders that are di...
The MilSeq Project is a nonrandomized, prospective pilot study of whole exome sequencing (WES) in the U.S. Air Force. The purpose of this study is to explore the implementation of WES into clinical medical care in the military health system.
Colorectal cancers (CRC) are the third most common human malignancy, and are also the leading cause of cancer related deaths worldwide. Early detection of premalignant lesions such as adenomatous polyps has decreased the risk of CRCs; however, cases which are initially undetected and progress to advanced CRC with distant metastasis are still unfortunately incurable. The development of CRC is a complex and heterogeneous process arising from an interaction between multiple etiolo...
The My Research Legacy Pilot Study will establish a participant registry that collects self-reported health data and answers to online survey questions about individual daily choices, diets, and exercise; data from wearable devices; and, (optional) data from genome sequencing analysis. Individuals under the age of 50 who meet eligibility criteria will answer questions using the American Heart Association's (AHA) Life's Simple 7™ My Life Check v4.0 three times over the course ...
No health condition(s) are studied. Genetic background of blood groups is studied. U- and Stones(a)+ ("Caucasian type") are used as proof-of-principle samples. Disease associations of all blood group genes investigated are very rare, e.g. < 1 among 1'000 Swiss individuals (see table 1), and are not to be expected in the course of this study. Genomic DNA of 2 U- samples were both provided as blinded reference material from New York and Vienna blood centres, respectively. Both d...
Despite significant progress made in identification on numerous genes and gene pathways critical for craniofacial development, several approaches, ie mutation screening of specific candidates, association studies and even genome-wide scans have largely failed to reveal the molecular basis of NS human clefting. Moreover, the efficiency of Whole Exome Sequencing -WES- was proven. The efficiency of WES was proven by the identification of the genes causing Freeman Sheldon and Mille...
The main objective of SAFIR is to identify the atherosclerotic genetic factors in these patients, which will identify new therapeutic targets for the treatment of CV and Familial Hypercholesterolemia diseases. In addition, SAFIR will allow the identification of new CV protection biomarkers, which will be useful tools for the development of a personalized medicine for the management of dyslipidemias.
hMe-Seal is a low-input whole-genome cell-free 5hmC sequencing method based on selective chemical labeling. It uses β-glucosyltransferase (βGT) to selectively label 5hmC with a biotin via an azide-modified glucose for pull-down of 5hmC-containing DNA fragments for sequencing. After selectively constructing 5hmC library, highthroughput-sequencing will be performed on an Illumina Nextseq-500 instrument. By ways of Rawdata processing, differential loci between Osteosarcoma group...
This study is designed to utilize whole exome and whole genome sequencing techniques to identify underlying genetic causes for undiagnosed disorders in the Plain Communities, and to do population genetic studies looking at genetic drift and founder mutations in this unique population.
The purpose of this addendum is to establish the ability of Next-Generation Sequencing (NGS) technologies to provide a diagnosis in a group of participants with suspected leukodystrophy as determined by clinical symptoms, including MRI imaging, but without a specific genetic diagnosis. Additionally, the cost-effectiveness and clinical use of such testing approaches will be analyzed.