View clinical trials related to Pharmacogenetic Testing.
Filter by:The purpose of this study is to assess the clinical impact of reducing treatment failure rates after using genetic information targeting CYP2C19 in validating escitalopram prescription. 5 pharmacies in the canton of Vaud (Lausanne, Switzerland) will participate in the study. The study will also explored the ability to perform the test in community pharmacy, physician and pharmacist approval of prescription changes, patient acceptance of the test and dose changes, the economic impact of the test, the association between genetic polymorphisms and therapeutic failures and the degree of satisfaction, barriers and facilitators by stakeholders.
This proposed research is relevant to human health because preemptive clinical pharmacogenetic testing may improve the personalization of drug therapy which should improve patient outcomes. Better understanding of the effectiveness and feasibility of preemptive clinical pharmacogenetic testing will inform when and how this innovative healthcare technology is implemented into clinical care. To ensure equitable dissemination in all patient populations, such data is also needed in racial minorities and other traditionally underserved populations. The combined proposed research are relevant to the parts of the NIH's mission pertaining to protecting and improving health and developing scientific human resources that will ensure the Nation's capability to prevent and treat disease.
Pharmacist-led pharmacogenomics (PGx) clinical services and medication safety reviews are currently being offered to PACE organizations under the direction of licensed healthcare prescribers by CareKinesis d/b/a Tabula Rasa HealthCare. This project aims to include patients enrolled in PACE organizations with chronic pain and who are prescribed CYP2D6 activated opioids. PGx testing will be performed by contractual PGx vendor with TRHC. PGx results will be integrated into TRHC's proprietary Clinical Decision Support System (Medication Risk Mitigation™ Matrix, CareKinesis, Moorestown, NJ) that guides pharmacists to identify drug-drug interactions (DDIs), drug-gene interactions (DGIs), and drug-drug-gene interactions (DDGIs).16 Clinical pharmacists will translate PGx results combined with a comprehensive DDI review into actionable clinical decisions. Clinical pharmacists will provide medication therapy management recommendation to address medication problems to the PACE prescriber (physician). PACE prescribers will review the pharmacist's recommendation, and based on their clinical assessment, the prescriber will decide whether or not to implement the opioid therapy recommendation.
This is a pragmatic clinical trial of 100 patients who self-identify as black or Latino. Patients with active prescriptions for at least 3 medications and a medication change within the past 6-months will be recruited from the University of Florida (UF) Health primary care clinics for panel-based pharmacogenetic testing. Participants will be followed for 6 months and will undergo assessments with the Treatment Satisfaction Questionnaire for Medication (TSQM) three times (baseline visit, 3-month visit, and 6-month visit post pharmacogenetic testing). In addition, data on effectiveness outcomes and socioeconomic measures will be collected via the electronic health record (EHR) and patient report. Participation is expected to last approximately 6 months and the study will be open for approximately 12-14 months.
Use of polypharmacy has significantly increased over the past two decades, which has unproven clinical benefit and is associate with an increased the risk of adverse side effects. Pharmacogenetic assays, such as the Genecept® Assay, have the purported benefit of being able to predict response(s) to specific medication based on genetic markers. Thus, this study is a 12-week open-label, naturalistic study of the provision of pharmacogenetic testing and a computerized decision tool for providers to determine the potential efficacy of the assay to reduce polypharmacy and improve patient outcomes.
The purpose of this study is to further integrate pharmacogenetic (PGx) testing into clinical practice by educating physicians about pharmacogenetics and offering testing to their patients. Pharmacogenetic testing may help physicians choose the best drug and dosage for their patients which can reduce side effects, increase effectiveness, and improve patient adherence. Two clinics will be involved. One clinic will have a pharmacist on-site as a resource to physicians and to advise what patients may benefit from PGx testing; the other clinic will have a pharmacist on call. Patient and physician perspectives about PGx testing and their utilization will be examined via surveys. The investigators hypothesize that with education about PGx testing, more physicians will utilize testing.