25 Clinical Trials for Various Conditions
Pharmacogenomic (PGx) testing involves analyzing variants of genes associated with drug metabolism, transport and medication targets. PGx testing uses an individual's genetic factors, such as single nucleotide polymorphisms (SNPs), to personalize therapy or dose a selection of medications. PGx testing has traditionally been used to test single genes, but there are now platforms allowing a panel of genes to be tested at once. To date there has not been a comprehensive screening of pediatric oncology patients to determine the prevalence of genetic variants that may affect anticancer therapy and supportive care medications. This study would allow us to summarize the frequency of clinically relevant gene-drug interactions and actionable genetic polymorphisms in pediatric oncology patients.
Researchers are trying to learn more about how individuals break down and process specific medications based on their genes. Pharmacogenomics (PGx) is a new, specialized field within individualized medicine. PGx is the study of how genes may affect the body's response to, and interaction with, some prescription medications. Genes carry information that determines things such as eye color and blood type. Genes can also influence how individuals process and respond to medications. Depending on genetic make-up, some medications may work faster or slower or produce fewer side effects.
Tabula Rasa HealthCare (TRHC), doing business as CareKinesis, is the first national pharmacy that provides science-based medication risk identification and mitigation technologies and services. CareKinesis utilizes medication decision support tools and pharmacists certified in geriatrics to provide pharmacy services for various healthcare organizations including PACE organizations. Program of All-inclusive Care for the Elderly (PACE) is a Medicare-Medicaid program that provides comprehensive medical and supportive services to individuals \>55 years of age who are certified by their state as needing nursing home care. As an alternative to institutionalization, PACE helps these individuals live safely in their community. The aim of PACE is to improve overall quality of life in four domains (physical, psychological, social, and spiritual) using a multidisciplinary approach. In the United States, the vast majority of PACE organizations collaborate with one pharmacy to dispense drugs, in addition to other pharmacy services, for their population of participants. Presently, CareKinesis services approximately 140 PACE sites, across the country. As a national PACE pharmacy provider since 2011, CareKinesis focuses on improving medication regimens to reduce medication-related risks while enhancing economic, clinical and humanistic outcomes.
Doctors leading this study hope to find out if giving study participants' genetic information to cancer care providers will help personalize chemotherapy dosing decisions and decrease common chemotherapy side effects. Doctors leading the study will collect genetic information from study participants using pharmacogenomics/genotyping. Pharmacogenomics is the study of how the differences in our genes can affect our unique response to medications. This is a randomized study, which means that participants in this study will be randomly assigned (as if "by flip of a coin") to one of two different groups: a "pharmacogenomics group" or "control group".
The purpose of this study is to evaluate pharmacogenomics (PGx) guided drug prescribing for pain and depression in patients with cancer. The investigators aim to understand how PGx testing can be used to improve medication management for pain and depression, and whether PGx-guided prescribing improves these symptoms and quality of life compared to historical controls.
In the perioperative realm, studies have demonstrated an association of genotype with efficacy of medications applicable to the surgical setting. A clinical association exists between the genotype of various genes and with opioid efficacy and toxicity - specifically for drugs such as oxycodone, codeine, morphine, fentanyl, and tramadol. More studies are needed to assess the effects of personalized dosing of analgesics during the perioperative process for various surgical procedures. The application of Pharmacogenomic testing (PGx) to perioperative medicine is novel, has much potential for growth and may potentially improve outcomes. However, successful implementation of a system to evaluate PGx and integrate results into clinical decision-making is challenging and has not been adequately assessed. The investigators propose to conduct PGx testing for patients undergoing surgery, evaluate its clinical utility, and assess outcomes. The investigators hypothesize that PGx testing may ultimately lead to a decrease in adverse events and improved outcomes in the perioperative period.
This is a 6-month randomized, wait-listed, controlled pilot trial conducted in 6 department of family medicine (DFM) clinics at the University of Michigan (UM). Physicians practicing at a UM DFM clinical site who are willing to utilize pharmacogenomic (PGx) test results to manage antidepressant use will be enrolled. Patients of these DFM physicians who are adults with a new prescription for a target antidepressant will also be enrolled.
This is a two-arm double-blind prospective randomized controlled trial (RCT) to evaluate clinical impact of pharmacogenomic testing on the treatment of major depressive disorder. Participants will be randomly assigned to two groups: pharmacogenomic-guided therapy group (guided group) and treatment as usual group (TAU group). The primary hypothesis is the pharmacogenomic-guided treatment group will demonstrate significantly higher percent improvement in depression score compared to treatment-as-usual group.
Pharmacogenomics (PGx) studies the interactions between an individuals genes and medications. PGx testing identifies genes within an individual that may affect treatment, efficacy, and toxicity of drugs. With improvements in testing speed, accuracy and cost, it is now possible to perform PGx testing in cancer patients prior to starting chemotherapy. The test results may help a physician personalize chemotherapy dosing. The goal of this study is to determine if PGx testing using the OneOme® Rightmed test is feasible in a community oncology clinic to guide treatment prior to starting chemotherapy. The study will also gather data regarding the frequency of genes within the local population as well as the impact of testing on chemotherapy doses.
Opioid analgesics are the most common postoperative pain medications used among dentists in the United States.Although these medications are highly effective in the postoperative dental pain management, not all patients optimally benefit from this therapy. Many suffer adverse consequences such as nausea, emesis, and psychomotor impairment, and there is a high prevalence of opioid prescription misuse among substance abusers within the dental patient population. The use of non-opioid analgesics including ibuprofen and acetaminophen in the management of postoperative dental pain has demonstrated equivalent or superior analgesic effects compared to opioid analgesic therapies, typically with significantly less adverse effects.However, despite these results, dentists have encountered a high variability in the success of non-opioid analgesic responses among the postoperative dental pain population.Thus, new strategies for earlier recognition of analgesic responses for pain medications is fundamental in the field of dentistry. Therefore, this study will evaluate the clinical utility of pharmacogenomic testing in acute postoperative dental pain management among healthy adults who undergo extraction of impacted mandibular third molar.
The purpose of this study is to examine the feasibility, acceptability, and utility of pharmacogenomic (PGX) testing (specifically for the cytochrome P450 2D6 and 2C19 genes) prior to initiating treatment with an antidepressant (AD) among children and adolescents in the University of Florida Child Psychiatry clinics.
The goal of the POETRY Registry is to determine whether data from Pharmacogenomic (PGx) Testing for elderly and disabled patients can help physicians manage patient medication regimens and assess if the testing has an effect on reducing adverse drug events, hospitalizations, and emergency department visits. The way an individual processes or metabolizes a drug is in part determined by their genes, and there is known to be genetic variation from one human to another. The study of the way in which genes affect an individual's response to drugs is known as "Pharmacogenomics."
The purpose of this study is to collect DNA samples from patients undergoing routine care at the University of Chicago. These samples will be tested for differences in genes that may suggest greater risk of side effects or chance of increased benefit from certain medications. The results will be made available to the patient's treating physician and the researchers will track whether or not this information is used in routine health care.
This study will assess the impact of CYP450 2D6 genotype pharmacogenetic testing and the corresponding prescribing impact for postmenopausal women using tamoxifen in a patient care setting for prevention of recurrent breast cancer.
The purpose of this quasi-experiment study, which could also be classified as a prospective observational intervention study, is to assess the impact of cytochrome P450 2C9 (CYP 2C9) and vitamin K epoxide reductase complex, subunit 1 (VKORC1) testing within a primary patient care setting.
The field of pharmacogenetics has progressed from the discovery of genetic variants that cause variable function of drug metabolism enzymes to a cornerstone of clinical precision medicine. However, there are limited data supporting drug-gene associations for children and for women during and after pregnancy. The unique physiology of childhood and pregnancy demand validation of pharmacogenetic signals prior to clinical implementation. These knowledge gaps are compounded for individuals from minority populations, who have been underrepresented and thus underserved by genomic research and specifically pharmacogenetic studies. The primary objective of this project is to advance research and support clinical implementation in pharmacogenetics for children and pregnant women. This work will illuminate knowledge of, attitudes about, and priorities for pharmacogenetics, and will assess the impact of a brief educational video on knowledge and attitudes around pharmacogenetic testing. The investigators will assess the knowledge and attitudes regarding pharmacogenetic testing among diverse cohorts of children with chronic conditions and pregnant women, before and after receiving pharmacogenetic test results. Participants will be randomized to view an educational video about pharmacogenetic testing either at the time of receiving their pharmacogenetic test results, or at a later time. The investigators will perform surveys before and after pharmacogenomic testing and return of results, and before and after watching the educational video.
Pharmocogenomic test assessment in the medication regimen and disease management for patients under drugs known with genetic variation.
The primary goal of this study is to conduct pharmacogenomics testing (a type of DNA test) within an aging population and measure the impact of this test on medication selection, dosing, healthcare utilization, and costs of care.
Statins are the most cost-effective medications to lower cholesterol and cardiovascular disease (CVD) risk. However, many patients at high-risk for CVD do not accept or adhere to statins. This gap in patient's use of statins limits the full impact of these effective medications resulting in higher cholesterol levels and CVD risk. The main barriers to using statins are patients' perceived lack of benefit, excess risk of statin toxicity as well as their misperceptions of their CVD risk. Statin pharmacogenomic testing - an application of precision medicine - is a readily available, feasible, and inexpensive intervention that addresses this barrier by using genetic testing to identify the nearly 1 out of 2 patients with enhanced benefit and/or reduced risk of statin toxicity or increased risk for CVD. By communicating statin pharmacogenomic test results to Veterans at high-risk for CVD not taking statin therapy, the investigators aim to improve patients' perceptions of their risk of CVD and statins and, in turn, their acceptance of and adherence to statins to reduce their cholesterol levels and CVD risk.
5-fluorouracil and capecitabine, sometimes called 5-FU, fluoropyrimidines, or Xeloda are a type of chemotherapy. Many people have side effects from these drugs like nausea, diarrhea, or blood problems. This research study is being conducted to learn how to help increase the number of patients offered DPYD testing before taking this type of chemotherapy drugs. DPYD testing can help predict risk of side effects. Different people's bodies break down and use drugs faster or slower. Genes are the instructions that tell our bodies how to do this. The DPYD gene is one of the genes that tell your body how to use chemotherapy drugs. Some people have changes in their DPYD gene that can make their side effects from chemotherapy worse, sometimes so bad that they die. DPYD testing can tell doctors which people have these gene changes and need extra monitoring during chemotherapy. Some of the people in this study will join a focus group and read sample messages for future patients. They will discuss with the other participants how well the message does its job and anything that might make the message better. When there are no more messages, the host may ask about other information for future patients like a website or brochure. Other people in the study will read sample messages that may be sent to future patients about DPYD testing. They will select the message that they like the best and might make them ask their oncologist about testing options.
The overall goal of this study is to assess the effectiveness of a widely available and widely used combinatorial pharmacogenomic (PGx) test for the treatment of major depressive disorder. Pharmacogenomic tests use genetic information to guide medication treatment decisions. The tests inform clinicians and patients of potential gene-drug interactions by analyzing pharmacokinetic (PK) genes (how drugs are metabolized) as well as pharmacodynamic (PD) genes (how drugs work). While combinatorial PGx testing is attractive to clinicians, patients, healthcare systems, and insurers, limited data demonstrate that PGx testing will result in better outcomes compared to evidence-based guideline treatment. Therefore, the investigators will conduct a prospective randomized comparative effectiveness study of best practice guidelines plus combinatorial PGx-guided treatment versus best-practice guideline concordant treatment alone.
Evaluate the impact of GeneSight Psychotropic on response to psychotropic treatment as judged by the mean change in the 17-item Hamilton Depression (HAM-D17) score from baseline to end of Week 8 of the study.
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 study aims to determine whether the GeneSight Psychotropic test can result in better treatment outcomes for patients with treatment-naive major depressive disorder
This is a randomized, control group design of pharmacogenetic implementation in a mental health population of subjects taking anti-depressants and/or anti-psychotics with a new or current primary or secondary diagnosis of Major Depressive Disorder (MDD) or Depressive Disorder Not Otherwise Specified (DDNOS).