39 Clinical Trials for Various Conditions
Several human genes affect how medications are metabolized by the body. It is believed that knowledge of variations of these genes can help health care providers better manage an anticoagulation medicine called warfarin (Coumadin®)and as a result decrease patient problems with bleeding or the development of blood clots. This study was designed to evaluate if genetic testing can improve warfarin initiation better than usual care.
Clinical Performance Study SP2024001, is a prospective, interventional study to assess the clinical performance of the APOL1 Genotyping Clinical Trial Assay (CTA) in the intended use population and environment. The study will use the APOL1 Genotyping CTA to test deoxyribonucleic acid (DNA) extracted from blood specimens to identify individuals who are homozygous or compound heterozygous for apolipoprotein L1 (APOL1) high-risk genotypes (G1 and G2).The individuals who are identified as being homozygous or compound heterozygous for the APOL1 high-risk genotypes are candidates for enrolment onto an pharmaceutical company-sponsored, Phase 2b clinical trial which is investigating the safety and efficacy of a synthetic antisense oligonucleotide (ASO) for the treatment of APOL1-mediated kidney disease (AMKD).
Background: The eyeGENE (Registered Trademark) program is a research resource for inherited eye conditions which includes genotypic and phenotypic data, imaging, and a corresponding biobank of DNA samples from people with a variety of eye diseases. Since 2007 this registry has been helping researchers learn more about the genetic sources for many inherited eye diseases. These findings helped them create better treatments. Now researchers want to expand eyeGENE (Registered Trademark) to include more people for certain eye diseases. Objective: To collect information and DNA samples for the study of eye diseases. * Primary objective --To expand the current eyeGENE (Registered Trademark) data repository with targeted participant accrual * Secondary objectives * To enhance recruitment for clinical trials and investigations in inherited eye diseases * To establish genotype-phenotype correlations for rare eye diseases Eligibility: People of any age with certain eye diseases. These can include aniridia; Best disease; blue-cone monochromacy; corneal dystrophy; and disorders of pigmentation, such as albinism. Relatives unaffected by the eye disease of interest may also be needed. Design: Researchers will select participants based on their diagnosis. The data may include images and test results from eye exams. Participants will provide a sample of saliva. They will receive a kit with written instructions. They will spit in a tube and mail it to the NIH. Participants may be asked to provide a blood sample. The blood may be drawn at the NIH or at a local clinic. The eyeGENE (Registered Trademark) repository will offer researchers data about the participants eye conditions. The data may include pictures of their eyes, results of the genetic testing, and history of other diseases. Researchers will be able to see data such as age and gender, but they will not see names, dates of birth, or contact information.
This study is designed to help identify patients with HoFH due to mutations in the LDLR as confirmed by genotyping.
This research is to evaluate the effectiveness of Talazoparib as a potential treatment for metastatic breast cancer with a BRCA 1 or BRCA 2 mutation.
Patient with Non-Small Cell Lung Cancer (NSCLC) that might have a genetic change (mutation) in the Epidermal Growth Factor Receptor (EGFR) are invited to take part in this study. This research study is evaluating a new blood test that is capable of detecting an EGFR mutation in cancer without a biopsy.
It is well established that clopidogrel-induced antiplatelet effects is suboptimal in many patients who are thus exposed to an increased risk of adverse cardiovascular events. Studies have shown that genotypes of the cytochrome P450 (CYP) 2C19 enzyme, which is a key determinant of clopidogrel metabolism, contribute to these findings. Prasugrel and ticagrelor are alternative agents whose effectiveness is not dependent on CYP2C19 genotype. A boxed warning on the Food and Drug Administration (FDA)-approved clopidogrel labeling warns of reduced effectiveness in patients with the LOF genotype and recommends alternative therapies in these patients. The availability of an assay recently approved by the FDA, SpartanRX, which provides results within one-hour facilitates performing genetic testing as a clinical test in real-world practice. We therefore propose to 1) examine the feasibility of implementing CYP2C19 genotyping using SpartanRX as standard of care for patients undergoing cardiac catheterization at UF Health Jacksonville providing the opportunity for clinicians to embrace genotype-guided antiplatelet therapy in those who proceed to PCI and 2) determine if CYP2C19 genotype-guided antiplatelet therapy reduces the risk for major adverse cardiovascular outcomes after PCI.
Specific mutations relating to hyperoxaluria will be determined via DNA analysis by the Mayo RKSC research staff.
This study will examine the effect of having genotype information on pain management and pain control for patients treated in family medicine clinics. This study will also examine physician-perceived usefulness of genotype information. Patients will be enrolled from family medicine clinics serving as either implementation sites or control sites. Patients from implementation sites will undergo genotyping, while those from control sites will not by genotyped.
Tumor genotyping has become an essential biomarker for the care of advanced lung cancer and melanoma, and is currently used to identify patients for treatment with targeted kinase inhibitors like erlotinib and vemurafenib. However, tumor genotyping can be slow and cumbersome, and is limited by availability of tumor biopsy tissue for testing. The aim of this study is to prospectively evaluate a blood-based genotyping tool that can quantify the presence of oncogenic mutations (EGFR, KRAS, BRAF) in patients with lung cancer and melanoma. This assay is being studied both as a diagnostic tool for classifying patient genotype, and a serial measurement tool for quantification of response and progression on therapy.
This is a retrospective analysis to include demographic, clinical, biochemical, and genetic data that will further explore the natural history of ADPKD and assess the factors that are likely to be associated with the progression of disease and the incidence of complications including progressive chronic kidney disease, cardiovascular disease, and cerebrovascular disease.
Objective: The objective of this study is to identify genetic causes of inherited eye conditions through whole exome or whole genome sequencing. This includes identifying mutations in known genes or novel genes for recognized conditions, as well as identifying mutations in novel genes for previously uncharacterized genetic conditions involving the eye. Study Population: We plan to recruit 1,685 participants, to include both participants with an eye condition under study and unaffected family members. Ideally unaffected family members will be parents of an affected participant. Design: Most affected participants will be recruited from existing studies at the NEI. These include, but are not limited to, the Screening Protocol (08-EI-0102), the NEI Ocular Natural History protocol (16-EI-0134), the Genetics of Inherited Eye Disease protocol (15-EI-0128) and the Pathogenesis and Genetics of Microphthalmia, Anophthalmia and Uveal Coloboma (MAC) study (13-EI-0049). Unaffected family members will be invited to participate once an affected relative is determined eligible for participation. Offsite affected and unaffected participants will also be enrolled. If a participant is self-referred or referred to the study by an outside provider, screening will determine whether participation is offered. Offsite participants will be screened via phone or secure videoconference, and records will be requested for evaluation of affected participants.. Both affected and unaffected eligible participants will undergo genetic counseling and will provide a blood sample and/or saliva sample for exome or genome sequencing. Biological relationships may be confirmed prior to exome or genome sequencing. Sequence data will be analyzed for primary variants and secondary findings, unless participants choose to opt-out of secondary analysis and reporting. All sequence variants deemed clinically relevant will be validated in a CLIA-certified laboratory and the results will be returned to the participant in-person, secure video conference, or by telephone. Outcome Measures: This is an etiologic study that will generate molecular information about previously-recognized conditions for which participants did not have a molecular diagnosis, as well as molecular information for previously uncharacterized conditions involving the eye.
The aim of the study is to examine whether determining treatment strategies based upon Cytochrome P450 2D6 (CYP2D6) genotype will improve drug response rates and clinical outcome in patients with psychosis. The investigators predict that prospectively testing CYP2D6 genotype and using this information to treat psychotic patients with risperidone will improve clinical outcomes. Specifically, CYP2D6 poor metabolizers who are treated with low dose and slow titration of risperidone will do better than those who are treated with usual dose and titration approach in terms of rates of side effects and clinical improvement.
The purpose of this study is to see if testing for genes related to pain and pain management before surgery affects how patients are treated for pain after surgery. The investigators want to know if this information will be used to effectively treat patients for pain after surgery if the clinical staff have a chance to review it before the surgery.
This study will help the investigator determine whether certain genetic mutations, more than others, are a cause of more severe disease in Dent Disease.
Innovative strategies to reduce adult smoking prevalence include using genetic information to motivate cessation and, ultimately, to tailor cessation pharmacotherapy. Success of these interventions depends, in part, on smokers' interest and participation in genetic testing related to cessation and their understanding and use of the results (i.e., their genetic literacy). The recent availability of genetic risk testing for a nicotinic acetylcholine receptor gene (CHRNA3) variant (rs105173) associated with nicotine dependence makes it highly feasible to investigate smokers' interest in and use of genetic information about nicotine dependence. Therefore, the primary purpose of this study is to determine the impact of an intervention that provides smokers with an educational session about genetic contributions to smoking and nicotine dependence plus their genotype results for rs1051730 on smoking cessation outcomes compared to those who receive only the educational session. Secondary purposes are to determine: (a) the impact of genetic education and knowing personal genotype results on genetic literacy outcomes and (b) the feasibility of recruitment and retention methods in a study addressing genotyping for nicotine dependence. Primary outcomes are cessation-related behaviors and cognitions indicating abstinence. Secondary outcomes are cognitions and emotions indicating genetic literacy. Knowledge gained from this study has the potential for clinical translation so that as genotyping becomes part of smoking cessation, health-care providers can understand and address factors influencing smokers' adaptation to genetically-informed cessation treatment. The study will use a longitudinal, repeated measures design (experimental, control; N=90; 45/group). All participants will receive a 90-minute educational session about genetic contributions for smoking and nicotine dependence and will donate a buccal swab sample for genotyping. The investigators will then randomize participants to two groups: those who receive genotyping results in a genetic counseling session (experimental) and those who do not (control). Follow-up data will be collected from both groups at baseline and weeks 2, 6, 10 after the experimental group receives genotyping results, with a brief follow-up and study termination occurring at week 12. Control group participants will be offered their genotyping results at the end of the study.
This is a prospective, single-center, randomized trial including 1500 subjects requiring PCI. Subjects with ischemic heart disease due to stenotic lesions in either native coronary arteries or coronary artery bypass undergoing PCI with stent placement and no contraindication to prolonged dual antiplatelet therapy (≥1 year) are eligible to be in the study. Subjects will be randomized to either guided antiplatelet therapy arm (n=750) or standard therapy arm (n=750) and undergo laboratory testing, antiplatelet adjustment, and clinical follow-up for 1 year. Patients (non-emergent) presenting for PCI will receive standard pre-procedural PCI care as outlined by the current ACC/AHA guidelines. Subjects will be consented peri- PCI (prior to or within 24 hours of PCI) and then randomized (1:1 ratio) to guide or standard non-guided (control) antiplatelet therapy. Physicians will be blinded to genotyping and platelet function results for subjects randomized to the standard therapy group for the duration of the study or if endpoint is met. Subjects on chronic clopidogrel or prasugrel therapy (≥ 2 weeks) will be guided by VerifyNow P2Y12 assay, whereas clopidogrel naïve subjects will be guided by Verigene CYP2C19 genotyping assay. Patients on clopidogrel maintenance and/or in the control group will also be genotyped; conversely, clopidogrel naïve subjects will have VerifyNow testing prior to discharge for additional study analysis. Patients in the guided therapy group that have a measurement of ≥ 230 PRU will be reloaded with 60mg prasugrel and receive standard maintenance dosing. Similarly, clopidogrel naïve subjects that are considered CYP2C19\*2 carriers will also be reloaded with 60mg prasugrel and receive standard maintenance dosing (see flow schematic). Patients randomized to the control arm will remain on 75mg clopidogrel arm throughout the study. All patients will remain on 325mg ASA for one month and 81-162 mg daily ASA thereafter. Clinical follow-up (office visit) and post-PCI VerifyNow maintenance testing will occur at 2 weeks, 3 months, and 6 months for patients in the guided therapy group. VerifyNow testing, adverse event occurrence and drug compliance will be performed as part of follow-up. Patients having a measurement of ≥ 230 PRU at 2 weeks or the 3 month visit will be reloaded with 60 mg prasugrel and receive standard maintenance dosing thereafter until the 6-month visit. Patients in guided and control study arms will return at 6 months for clinical follow-up and VerifyNow testing. After completing 6 months of the study treatment period, further antiplatelet therapy will be at the physician's discretion. At 1 year, study subjects will be contacted via phone for clinical assessment and antiplatelet compliance. Physicians adjudicating events will be blinded to the therapy assignment.
This study will collect whole blood samples from pregnant subjects who are RhD negative by serology to develop an assay for RHD determination of the fetus.
This study will help us determine whether certain genetic mutations, more than others, are a cause of more severe disease in Primary Hyperoxaluria.
Cancer patients often require administration of multiple supportive care pharmacotherapies while receiving chemotherapy regardless the type of cancer. Supportive care therapies are commonly prescribed to nearly all cancer patients and could include antiemetics (ondansetron), pain management (opiates), GI protection (PPIs), antidepressants (select SSRIs), anticoagulation (warfarin) and antifungal prophylaxis (voriconazole). These are all are associated with known pharmacogenetic interactions, which in some cases render the drugs ineffective or toxic. This could result in negative impacts on quality of life in patients who are already undergoing complicated and costly anticancer regimens. Pharmacogenetic-guided therapy based on an individual patient's genetic profile could potentially target symptoms for which an individual is uniquely susceptible, guiding use of medications that are most likely to be effective, thereby reducing unnecessary physical complications and financial strain. It is hypothesized that patients in the genotype intervention arm will report lower scores for overall symptom distress as compared to patients in the delayed genotype intervention arm following initiation of chemotherapy.
This pilot project will provide an understanding of the contextual variables responsible for chronic low back pain. These variables include, genetic variation, pain sensitivity, reactivity, pain catastrophizing, perceived stress and kinesiphobia. The purpose is to understand the initial efficacy of self-management (SM) strategies on each of these contextual variables, in an effort to inform a personalized approach to managing chronic low back pain and its effect on improved health outcomes.
This pilot project will provide an understanding of the contextual variables responsible for breast and nipple pain during breastfeeding initiation. These variables include, genetic variation, pain sensitivity, reactivity, pain catastrophizing and perceived stress. The purpose is to understand the efficacy of self-management (SM) strategies on each of these contextual variables, in an effort to inform a personalized approach to managing breastfeeding pain and its effect on improved health outcomes.
In this randomized clinical trial, subjects will be assigned to either an assay-guided treatment condition (AGT) or a treatment-as-usual condition (TAU). All subjects will provide a DNA sample at the Screening Visit for the Genecept Assay ™. In the AGT condition, assay results will be provided to the treating investigator, who will use the results to guide antidepressant pharmacotherapy. In the TAU condition, the investigator will treat the subjects without the knowledge of the pharmacogenetic testing results. Assay results for all subjects will be provided to the investigator once all Week 8 visit procedures have been completed. Raters of the primary endpoint assessment and subjects will remain blinded to treatment assignment.
The overall goal of this investigator-initiated trial is to evaluate the impact of platform algorithm products designed to rapidly identify pharmacokinetic (PK) and/or pharmacodynamic (PD) genomic variation on treatment outcome of depression in adolescents. This new technology may have the potential to optimize treatment selection by improving response, minimizing unfavorable adverse events / side effects and increasing treatment adherence
The overall goal of this investigator-initiated trial is to evaluate the treatment outcome of depression utilizing platform algorithm products that can allow rapid identification of pharmacokinetic (PK) and/or pharmacodynamic (PD) genomic variation. This new technology may have the potential to optimize treatment selection by improving response, minimizing unfavorable adverse events / side effects and increasing treatment adherence.
This study involves standard combination chemotherapy treatment for colon cancer, 5-Fluorouracil (5FU), leucovorin and irinotecan (known as FOLFIRI), plus bevacizumab (Avastin). The study is designed to test the FOLFIRI regimen based on certain characteristics of a person's genetic makeup or "genes". Genes are made of DNA and determine not only inherited traits or appearance (hair and eye color, height, body type, etc.) but also play an important role in health and how the body responds to illness and treatments for those illnesses. In this study, the investigators will examine the relationship between a patient's genes (DNA), or "genotype", and how the patient's body breaks down and removes or "metabolizes" the anti-cancer drug irinotecan. Circulating blood level of irinotecan plays an important role in how well this drug works against a patient's cancer as well as the adverse side effects the patient may experience. The current standard dose of irinotecan was determined in clinical trials without knowing individual genotypes and thus does not take into account a patient's ability to metabolize irinotecan. This means that based on one genotype the current standard dose of irinotecan may be correct or based on other genotypes the standard dose could result in lower and possibly less effective blood levels and result in significant under-dosing of irinotecan. Based on genotype the patient will be assigned to one of the following doses of irinotecan: * 180 mg/m2 (standard dose) * 260 mg/m2 * 310 mg/m2 The purpose of this research study is to determine if dosing irinotecan based on genotype is effective and safe for patients with colon cancer. Patient genotype will be determined from a small sample of blood and a laboratory test or "assay" performed at University of North Carolina Laboratories. For the purpose of this study, this assay is new and considered to be "investigational". This means that the genotype assay used in this study has not yet been approved by the FDA for determining irinotecan dose levels in patients with colon cancer.
This is a genetic and platelet reactivity study of African-American versus Caucasian patients undergoing percutaneous coronary intervention and receiving clopidogrel or prasugrel. The investigators aim is twofold: to describe differences in allele frequencies between African-Americans and Caucasians, and to explore associations of platelet reactivity and genetic polymorphisms in these two groups.
Solid organ transplant recipients would greatly benefit from pharmacogenetic evaluation since immunosuppressive drug regimens consist of multiple medications with narrow therapeutic ranges and toxic adverse event profiles. Tacrolimus is a potent immunosuppressive agent utilized for rejection prophylaxis. Intensive pharmacokinetic monitoring must be performed following organ transplantation to ensure therapeutic drug concentrations due to its highly variable pharmacokinetics profile and narrow therapeutic index. Tacrolimus is a substrate for CYP450 3A and for the membrane transporter p-glycoprotein (Pgp). Polymorphisms in the gene encoding for CYP3A5 have been extensively studied and have been found to influence the dosing of tacrolimus. The effect of ABCB1 gene polymorphisms (which encodes for Pgp) upon tacrolimus pharmacokinetics has been more difficult to establish. This study will determine if haplotypes derived from three frequent polymorphisms in the ABCB1 gene (C1236T, G2677T, C3435T) can predict the degree of drug interaction between tacrolimus (CYP3A5/Pgp substrate) and ketoconazole (CYP3A5/Pgp inhibitor) in patients who are CYP3A5 nonexpressors. This prospective pharmacokinetic and pharmacogenomic study will enroll 20 stable renal transplant recipients with the CYP3A5 \*3/\*3 genotype and grouped by ABCB1 haplotype (CGC vs TTT). Pharmacokinetics of tacrolimus will be assessed on 2 occasions with and without ketoconazole coadministration separated by 1 week. The order of study occasions will be randomized in a crossover design. The results of this study may identify a genomic marker for predicting drug-drug interactions. Knowing this information a priori will aid clinicians in modifying drug dosing and alleviate patients of the burden of significant drug toxicities.
The primary objective of this trial is to demonstrate the non-inferiority of clopidogrel compared to prasugrel over 6 months in cardiovascular disease patients when the clopidogrel cohort is limited to the estimated 70% of the population that are CYP2C19 extensive metabolizers. This protocol will examine the comparative effectiveness of these two strategies.
The purpose of this study is to determine whether DNA analysis improves the efficiency of dosing and safety in patients who are being started on warfarin therapy.Warfarin, a blood thinner (anticoagulant) prescribed to 1-2 million patients in the United States, is a leading cause of drug-related adverse events (e.g., severe bleeding), in large part due to dramatic (20-fold) differences between individuals in dose requirements. At least half of this variability now can be explained by 3 common genetic variants, age, body size, and sex; however, warfarin therapy continues to begin with the same dose in every patient with the correct individual dose determined by trial and error. This study proposes to determine genetic variations the same day from DNA simply obtained by swabbing the inside of the cheek and use this information to determine the proper dose regimen individually in each patient. The aim is to show that the investigators can achieve more rapid, efficient, and safe dosing in up to 500-1000 individuals who are initiating warfarin therapy for various clotting disorders across a large healthcare system in order to demonstrate improved dosing effectiveness, efficiency, and safety with genetic-based dosing, which could lead to a nationwide application resulting in as much as a $1 billion dollar annual benefit in healthcare outcomes.