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Drug-drug interactions often limit statin optimization in a population of patients prescribed cytochrome P3A4 inhibitors, which include immunosuppressive agents, protease inhibitors, and antifungals. These patients frequently have autoimmune conditions or rheumatologic disorders that require complex drug regimens and are often on low-dose statin therapy or no statin at all, resulting in suboptimal LDL levels despite increased cardiovascular (CV) risk. There is an unmet clinical need to improve LDL levels in this vulnerable patient population, which faces increased CV risk due to underlying conditions that also contribute to polypharmacy and multiple drug-drug interactions. This study is a randomized, open-label trial evaluating subcutaneous inclisiran plus standard of care for LDL-C lowering in high-risk primary prevention patients with multiple comorbidities (e.g., Type II diabetes, liver disease, chronic kidney disease, autoimmune disease, solid-organ transplant) who are taking five or more medications in which drug-drug interactions prevent optimization of statin therapy.
This study will examine the effects of doses of opioid/placebo and doses of alprazolam/placebo, alone and in combination. The primary outcomes are pharmacodynamic measures (subjective ratings of drug liking and other abuse-related effects; physiological outcomes) and pharmacokinetic outcomes (from blood samples) to determine the interaction effects of these compounds.
The purpose of this clinical trial is to determine how the supplement oregano affects how the body metabolizes pharmaceutical drugs.
The purpose of this project is to implement and evaluate a shared-decision making (SDM) tool called DDInteract that was developed to support decision making for drug-drugs interactions while on oral anticoagulants. DDInteract will be implemented in clinics at the University of Utah, University of Colorado and University of Vanderbilt. DDInteract will be launched from within the electronic health record (EHR) retrieving patient-specific risk factors, will calculate the risk of harm, and will allow providers and patients to dynamically explore "what if" scenarios to optimize treatment and minimize risk. DDInteract will enable shared-decision making using individually-tailored information on the potential benefits and harms of drug interactions in anticoagulated patients.
The purpose of this study is to determine whether a consultation with a Personalized Therapeutics Clinic, or PTC, will help participants lower the risk for side effects (drug-drug interactions and drug-gene interactions) when taking many medications and help providers improve prescribing decisions for participants. A PTC is a clinical that will test your genes to gather information about your health that may help guide prescribing advice and offer you new information about your prescriptions. Doctors leading this study will look for variations (differences) in your genes that may suggest that you are at greater risk of having side effects or a greater chance of benefiting from certain medications. Individuals in this study will participate for roughly 9 months.
The objectives of this study are to (1) test the feasibility of the clinical implementation of preemptive pharmacogenetic (PGx) testing in the emergency department (ED) and (2) determine if PGx testing (with appropriate decision support) decreases ED return visits and hospitalizations. We will conduct a randomized, controlled, pragmatic clinical trial assessing both the real-world effectiveness as well as implementation outcomes using a targeted PGx testing panel in several UF Health EDs.
The purpose of this study is to determine whether the implementation of pre-emptive pharmacogenomic (PGx) testing of a panel of clinically relevant PGx markers, to guide the dose and drug selection for 39 commonly prescribed drugs, will result in an overall reduction in the number of clinically relevant drug-genotype associated ADRs which are causally related to the initial drug of inclusion (referred to as 'index drug').
The main goal of this clinical study is to test how CYP2B6 genetic variations and efavirenz (cornerstone in HIV-1 therapy) dictate the disposition (PK) of CYP2B6 substrate (methadone) and PK and effect (PD) of CYP1A2 substrate (tizanidine). Specifically, the investigators will test whether efavirenz produces CYP2B6 genotype dependent unanticipated DDIs with CYP2B6 (methadone) and CYP1A2 (tizanidine), leading to lack of efficacy or increased toxicity. Healthy volunteers genotyped for CYP2B6\*6 and \*18 alleles will be grouped in to three genotype predicted phenotype groups: 20 normal metabolizer (NM) (CYP2B6\*1/\*1); 20 intermediate metabolizer (IM) (\*1/\*6, or \*1/\*18); and 20 poor metabolizer (PM) (\*6/\*6, \*6/\*18 or \*18/\*18). Each phenotype group will receive methadone and tizanidine (separated by a washout period) on two occasions: at baseline (control) and after treatment with efavirenz (600 mg/day for 17 days).
This study looks at how a medicine called trihexyphenidyl works in children with dystonic cerebral palsy. The study aims to understand how trihexyphenidyl is broken down and used in the body of pediatric patients and whether this is impacted by a person's genetics. Information from this study will also be used to design future clinical trials.
The goal of this clinical trial is to evaluate how differences in specific parts of our DNA can influence how individual bodies break down the hormones contained within oral contraceptive pills, which could affect how well these birth control pills work to prevent pregnancy. The investigators are also interested in exploring how these differences in our DNA can also explain why patients taking the exact same formulation of birth control pill will experience very different side effects. The main questions it aims to answer are: * Do individuals with the CYP3A7\*1C variant have increased metabolism of both desogestrel and ethinyl estradiol when taking a combined oral contraceptive pill? * Do individuals with the CYP3A7\*1C variant experience higher rates of breakthrough ovulation while taking a desogestrel/ethinyl estradiol combined oral contraceptive pill? * What novel genetic loci are associated with alterations in steroid hormone pharmacokinetics and pharmacodynamics among a larger cohort of combined oral contraceptive pill users? Participants will take a specific formulation of combined oral contraceptive pill (desogestrel/ethinyl estradiol) and undergo the following procedures: * Blood draw to measure the amount of progestin and estrogen in their system from the combined oral contraceptive pill * Questionnaires to assess side effects possibly caused by the combined oral contraceptive pill * Blood draw to measure endogenous hormone levels and biomarkers that may be affected by the combined oral contraceptive pill * A transvaginal ultrasound to measure any ovarian follicles (optional procedure)