54 Clinical Trials for Various Conditions
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').
This multicenter Registry is to assess whether the use of pharmacogenomic data results in a meaningful change in a subject's drug or dose regimen. In addition, the Registry will evaluate the relationship between adverse drug reactions (ADR) and genotype and assess resource utilization (emergency department visits and hospitalizations) associated with ADR.
The purpose of the study is to examine the individual metabolic profiles of pediatric patients receiving carbamazepine or valproate therapy, in an attempt to determine identities of the reactive metabolites or, alternatively, the identities of those metabolites that serve as potential precursors to reactive species.
The investigator's primary aim is to evaluate polypharmacy-associated adverse drug reactions (ADR) in a pilot study of at-risk patients using state-of-the-art pharmacogenomic technology and to use this information to make recommendations for optimization of pharmacotherapy regimens. The data from the pilot cohort will be used to optimize and integrate a customized electronic decision support (clinical semantic network; CSN) dashboard to identify drug regimens that should be modified, replaced, or discontinued. A secondary objective of the pilot study is to evaluate the capacity/saturation of CYP P450 enzymatic pathways in polypharmacy patients. A third objective is to determine the feasibility of the planned informatics workflows between the CLIA lab, the EMR, and the Family Medicine Practice including Whole Genome Sequencing (WGS).
The investigator's primary aim is to evaluate polypharmacy-associated adverse drug reactions (ADR) in a pilot study of at-risk patients using state-of-the-art pharmacogenomic technology and to use this information to make recommendations for optimization of pharmacotherapy regimens. The data from the pilot cohort will be used to optimize and integrate a customized electronic decision support (clinical semantic network; CSN) dashboard to identify drug regimens that should be modified, replaced, or discontinued. A secondary objective of the pilot study is to evaluate the capacity/saturation of CYP P450 enzymatic pathways in polypharmacy patients. A third objective is to determine the feasibility of the planned informatics workflows between the CLIA lab, the EMR, and the Family Medicine Practice.
The INGenious trial will prospectively enroll a total of 6,000 patients, with 2,000 patients assigned to a pharmacogenetic testing arm and 4,000 to a control arm who will be followed, but not tested. It is randomized between an intervention arm and one that receives no intervention in order that the genotyped group can be compared with one in which undisturbed, routine clinical care is carried out in patients taking the same drugs. Both arms will be followed for a year after being prescribed a targeted medication. Patients randomized into the intervention arm that are prescribed one or more of the 24 targeted index medication will receive pharmacogenomic testing using a custom micro-array measuring 51 Single nucleotide polymorphisms in 16 genes. The study is being conducted by the Indiana University School of Medicine and the Indiana University Institute of Personalized Medicine in collaboration with the Eskenazi and Indiana University Health Systems and will evaluate the economic and clinical outcomes associated with embedding a pharmacogenomics program in a system that serves as the primary health care safety-net in Indianapolis, Indiana. By successfully implementing a pharmacogenomics program and integrating it with the Electronic Health Record and Clinical Decision Support system, physicians will be able to optimize patient care by delivering tailored therapeutic decisions based on the patient's individual genetics.
This program collects genetic and health information to help doctors choose the right medications for patients.
The purpose of the study is to implement a pharmacist-led deprescribing intervention for adults 65 and older taking 10 or more medications at University of Texas (UT) Physicians clinics and to assess the effect of the pharmacist intervention on the incidence of adverse drug reactions, emergency room visits, and hospitalizations as well as costs to the patient and to the healthcare system in adults 65 and older taking 10 or more medications treated at UT Physicians.
Patients meeting eligibility criteria will be randomized into two groups, one receiving pharmacogenetic testing and the other not receiving pharmacogenetic testing. In this open-label trial, a pharmacist will make medication therapy recommendations using YouScript® Personalized Prescribing System for patients who receive genetic testing and standard drug information resources per usual for patients who do not undergo pharmacogenetic testing.
This multicenter observational study aims to investigate the benefits of providing pharmacogenetic testing with the YouScript Personalized Prescribing System which includes a clinical decision support tool and individualized pharmacist recommendations to elderly polypharmacy patients who are most at risk of adverse drug events. The YouScript system is unique in identifying drug-gene, and drug-drug-gene interactions that are missed by existing systems, and represent over 35% of significant interaction warnings. Data analysis will assess the impact of recommendations for medication changes on clinical decision making, patient outcomes, and healthcare resource utilization to determine which medications, specialties, or patient segments derive the greatest benefit from this intervention. Data gathered from patients enrolled in this study will be compared to patients matched on key characteristics from Inovalon's MORE2 healthcare database.
Some medications are known to cause kidney damage because the person is allergic to the medication while others cause direct damage to the kidney because they are toxic at certain concentrations. Risk factors for developing kidney damage have been identified for some medications but not for all. Patients who are exposed to these important medications and develop problems with their kidneys may have some genetic risk. The purpose of this study is to determine the genetic risk factors for drug induced kidney injury. A better understanding of the role of genetics for the development of kidney injury from medications will allow us to better select medications, improve effectiveness of treatment and minimize harm.
The purpose of this study is to evaluate the hemodynamics and adverse event profile in comparison between two treatment arms, one using an admixture of propofol and etomidate at a ratio by volume of 25%/75% (P2E7), and one using an admixture of propofol and etomidate at a ratio by volume of 75%/25% (P7E2), for anesthesia during endoscopic procedures at the Clements University Hospital (CUH) endoscopy lab (Endo).
Study objective is to determine whether there is an association between genetic variant risk scores and clinical outcomes (percent time in therapeutic range, time to reach therapeutic international normalized ratio (INR), INR ≥ 4, bleeding event, ischemic stroke, death) in participants taking warfarin for atrial fibrillation, deep vein thrombosis (DVT), pulmonary embolism (PE), and/or intracardiac thrombosis.
Patients receiving intravenous immunoglobulin (IVIG) therapy for primary immunodeficiency and neurologic conditions may experience adverse drug reactions (ADRs). The mechanism of the ADR is unknown. Currently, the standard practice for these patients is to change from IV to subcutaneous IG (SCIG) but because of the need of immunomodulation or patient preference, SCIG may not be an option. Data has shown that some levels of complement decrease from pre- to post-infusion of IVIG. This study is to determine if replacing this complement protein may ameliorate ADRs.
The North American Therapeutics in Epidermal Necrolysis Syndrome (NATIENS) study is a multicenter double-blind randomized controlled assessment of two arms - one of systemic immunomodulatory therapy (etanercept) and one of supportive care deemed to be the current standard of care. We will leverage the opportunity of this controlled design to collect multiples samples with an aim to discover new genetic and biological markers for prevention and early diagnosis and define cellular and molecular mechanisms to facilitate discovery of promising treatment strategies. This study has been preceded by a planning phase to ensure testing and development of harmonized supportive care infrastructure and operating procedures across sites.
This randomized controlled trial will evaluate whether the use of pharmacogenetic testing through a Medication Therapy Management (MTM) program has a beneficial impact on drug therapy problems. More specifically, cytochrome DNA testing, which provides information with regards to participant specific metabolism of medications, will be used in the evaluation of participant medication regimens. The overall aim of the project is to evaluate if the addition of genetic CYP testing to a standardized MTM Program provides increased clinical value. To answer this question, the investigators will look at the drug therapy problems (DTPs) identified by the genetic test compared to those DTPs discovered without the test.
Per-capita consumption of medication is higher in older adults than any other sector of the population. In fact, it has been estimated that although older adults comprise 13% of the population they take 34% of all prescriptions and 30% of the over-the-counter (OTCs) consumed in the US (National Council on Patient Information and Education, 2010). Given current trends in aging, the savings, freedom and flexibility that self-medicating provides, as well as the trends to switch prescription products to an OTC status, it is likely that older adults will increasingly turn to OTCs as part of their medical regimens for years to come (Hanlon, J et al, 2001). In addition to the advantages that self-medicating offers, there are risks. These risks are more pronounced in older consumers, who are likely experiencing physiological changes (e.g. pharmacokinetics, pharmacodynamics, perceptual, cognitive and motor); this combines with a propensity for poly-pharmacy that escalates the likelihood of adverse drug reactions. It has also been suggested that low health literacy rates in older consumers detrimentally impact health and health outcomes in this population (Kutner et al., 2005 and Federman et al., 2009). Despite the risks associated with improper OTC use, the critical importance of OTC labeling information (there is no learned intermediary), and the fact that older consumers are significantly more likely to experience an adverse drug reaction than younger adults, surprisingly little information exists about the decision making process older adults employ when selecting and using an OTC product. We propose to recruit people 65 and older for an eye tracking study of mock OTC brands. The study has the following objectives: 1. To begin to garner insights regarding the proportion of subjects who closely examine (e.g. turn to the Drug Facts Label) the labeling of an OTC when deciding whether (or not) a drug is appropriate for them (based on their health history and current medications). 2. To quantify and compare the attentive behaviors to specific information (Specifically: name, active ingredient, symptom relief). 3. To quantify and compare the attentive behaviors to different formats of information (prominently featured information vs less prominently featured information). 4. To begin to benchmark whether or not older consumers make appropriate choices based on their current conditions and medication history.
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."
18F-LY3950321 (also known as 18F-MNI-1256) is a radiolabeled positron emission tomography (PET) tracer targeting granzyme B. The overall goal of this protocol is to evaluate the safety, tolerability, and radiation dosimetry of 18F-LY3950321.
To evaluate the pharmacokinetics (PK) of EE and NES released from the CVR in the presence of a single dose and multiple doses of antimycotic co-medication (miconazole nitrate suppository or cream).
The aim of this study was to describe the postoperative "baseline" magnetic resonance imaging (MRI) appearance of the ipsilateral thigh musculature after total knee arthroplasty (TKA). The secondary aim was to describe baseline muscle enzyme levels under the same clinical scenario. Neither of these measures have been reported previously.
The goal of the study is to combine a collaborative and translational approach to evaluate the effect antiretroviral regimen switch to a dolutegravir containing regimen compared to continued treatment with a non- dolutegravir based regimen on on lipid and metabolic profiles, renal function, body composition, vascular function and diet.
Antimicrobial resistance is one of today''s most urgent public health problems. An important strategy to slow the spread of antimicrobial resistance is the promotion of judicious antimicrobial use. There are many opportunities to reduce unnecessary antimicrobial-prescribing, including in patients undergoing surgical procedures. The following study will specifically study opportunities to improve antimicrobial use in patients undergoing common urologic procedures at hospitals in the Veterans Health Administration (VHA). Guidelines recommend giving antibiotics for no more than 24-hours after most urologic procedures, but the investigators have shown that the unnecessary use of post-procedural antimicrobials is common in this setting. In a national cohort of nearly 30,000 VHA patients, excessive post-procedural antimicrobials were prescribed after 37.2% of urologic procedures for a median duration of 3.0 excess days. In this study, the investigators will evaluate whether giving regular feedback to providers at 3 VHA hospitals can reduce unnecessary antimicrobial use after urologic procedures.
Increased comorbidities such as cardiovascular disease (CVD), are emerging problems in HIV infection but the mechanisms are unclear. Understanding how antiretrovirals can minimize morbidity in treated HIV infection is a research priority. Nucleoside/nucleotide reverse transcriptase inhibitors (NRTIs) are included in all HIV treatment regimens. Tenofovir (TFV) disoproxil fumarate (TDF) has been associated with an increased risk of nephrotoxicity and bone disease compared with other NRTIs. Tenofovir alafenamide (TAF) is an oral prodrug of TFV, but is more stable in plasma as compared with TDF and lower plasma levels of TFV are thought to lead to the favorable safety profile of TAF. Mitochondrial dysfunction has a key role in HIV pathogenesis and may be the common denominator that drives pathogenesis of several comorbidities. Despite the better safety profile of newer (such as TDF) compared to older NRTIs, there are concerns for the potential for longer term toxicity of NRTIs since the exact cellular effects of NRTIs remain unclear. It is unknown whether a four-fold increase in intracellular drug levels seen in peripheral blood mononuclear cells (PBMCs) with TAF may increase toxicity in mitochondria. Better understanding of these effects could provide insights into mechanisms of HIV pathogenesis and selection of NRTIs that improve morbidity in chronic HIV infection. Hypothesis: Despite higher intracellular levels, TAF has minimal mitochondrial toxicity compared to TDF in vivo. This research will explore the relative mitochondrial toxicity of newer NRTIs (TAF, TDF) as a possible mechanism for differential NTRI-related toxicities. These data will allow selection of NRTIs that may improve morbidity in chronic treated HIV infection. Towards this aim, the investigators will use a robust experimental approach to study NRTI-related mitochondrial dysfunction using novel methods, human cell lines and PBMC. Our specific aims are: Aim 1: To evaluate the relative in vitro effects of TAF and TDF compared to an older NRTI (ddC) on 5 independent measures of mitochondrial function in the human cell line HepG2 and PBMC. Aim 2: To explore in vivo whether there is increased mitochondrial dysfunction with the use of TAF vs. TDF in chronic treated HIV infection. The investigators anticipate that the proposed experimental approach will set the basis for future large scale studies to directly compare subtle potential mitochondrial toxicities of newer NRTIs in large HIV cohorts.
Our primary outcome is to assess the safety of Dotarem in children \<2 years old up to 24 hours after Dotarem injection. Patients will be monitored for any adverse events that occur for 2 hours following the completion of the MRI exam. The type of event, time of onset, duration of symptoms, intensity of the reaction (mild, moderate, severe), causality (not related, probably related, related, definitely related, unclassifiable), and subsequent outcome (required treatment, favorable outcome, recovery with sequela, or death) will be documented. Parents will be given instruction sheets on who and when to call should any adverse event occur after discharge. Parents will be called by the radiology department the next day to identify any adverse events that occurred during the first 24 hours after discharge from the hospital. Our secondary outcome is to assess image quality of the exam. The pre-contrast images will be compared to the combined pre- and post-contrast images following administration of Dotarem by radiologists who are blinded to the patients' clinical information to assess for improvement of image quality and delineation of structures with contrast.
Purpose: To examine the impact of a personal health record (PHR) on medication use safety among older adults. Background: Online PHRs have potential as tools to manage health information. We know little about how to make PHRs accessible for older adults and what effects this will have. Methods: A PHR was designed and pretested with older adults and tested in a six-month randomized controlled trial. After completing mailed baseline questionnaires, eligible computer users aged 65 and over were randomized 3:1 to be given access to a PHR (n=802) or serve as a standard care control group (n=273). Follow-up questionnaires measured change from baseline medication use, medication reconciliation behaviors, and medication management problems.
Adenotonsillectomy is one of the most common surgical procedures performed in the pediatric population in the United States. It is generally a well-tolerated procedure with post-operative bleeding risk ranging from 3-5% in children. Post-operative pain following adenotonsillectomy has significant morbidity and may result in prolonged hospital stay or re-admission to the hospital. Post-operative analgesia is most commonly managed with narcotic-containing pain medication. In recent years however, there is evidence that some patients may manifest increased sensitivity to narcotics, resulting in life-threatening respiratory compromise. Though there is a theoretical risk that nonsteroidal anti-inflammatory drugs (NSAIDs) increase bleeding time by disrupting platelet aggregation, evidence of detrimental effects (i.e. increased risk of postoperative bleeding) remains inconclusive for these generally well-tolerated medications. The goal of this study is to determine the incidence of post-operative bleeding and to determine the efficacy of NSAIDs in the management of post-operative pain following pediatric adenotonsillectomy, versus more commonly used narcotic pain medication. The study design will be an initial retrospective study to collect pilot data on the incidence of postoperative hemorrhage and indicators of adequate/inadequate pain control in children age 4 to 17 undergoing adenotonsillectomy. This will be followed by a prospective, randomized, single-blind controlled study in which orally-administered ibuprofen (test intervention) is compared to acetaminophen-hydrocodone (control intervention) in the postoperative period following adenotonsillectomy.
The research study is a randomized controlled trial (RCT). The primary endpoint is to compare medication adherence of adult patients recently hospitalized with a diagnosis of common cardiac conditions who require medication assistance either by receiving usual care or by using a medication delivery unit. The overall study will last a total of 12 months. Each subject will be enrolled for a period of 90 days.
Care transition interventions have been successful in reducing medication-related problems and associated rehospitalization primarily by focusing on medication reconciliation conducted by trained healthcare professionals. Programs to improve the medication reconciliation process have largely been effective, but have limitations including the expense associated with recruiting, training, and retaining care transition healthcare professionals (e.g., nurses and nurse practitioners) the ability to provide services within a finite geographic area, and the retrospective nature of the reconciliation process which usually occurs in the home following hospital discharge. Our short-term objective is to use Pennsylvania Department of Aging resources to assess the feasibility of using a telemedicine medication delivery unit for frail older adults that require medication assistance in their home immediately following an acute hospitalization. As part of this feasibility assessment, the investigators will assess (1) recruitment process and procedures, (2) data collection procedures, (3) resource utilization, (4) drop-out rates, (5) acceptability and usability of the EMMA® telemedicine medication delivery unit, (6) medication adherence, and (7) medication-reconciliation errors during transition from hospital to home.
Medication discrepancies, defined as unintentional differences found between patients' medical records and patients' reports of the medication they are taking, occur frequently after hospital discharge, predisposing to adverse drug events (ADEs), emergency department visits and readmissions. Resolving medication discrepancies - medication reconciliation - is mandated at every care transition, but little is known about intervention strategies to improve medication reconciliation in the post-discharge period, when patients may lack prompt access to primary care and are at high risk for ADEs. To address this gap, the investigators developed and pilot tested the Secure Messaging for Medication Reconciliation Tool (SMMRT), with a pharmacist communicating with Veterans to review medications and reconcile discrepancies after hospital discharge via Secure Messaging (SM), within My HealtheVet (MHV), VA's patient portal. The objectives of The SMMRT Trial are therefore To optimize the end-users' experience with SMMRT through usability testing and refinement of the tool; To conduct a randomized controlled trial (RCT) of usual care vs. usual care plus MHV Training vs. usual care plus MHV Training plus SMMRT to reduce hospital utilization; To evaluate how Veterans and staff perceived the impact of SMMRT on routine clinical practices and, specifically, on Veterans' interactions with their primary care providers.