A Pharmacogenetic versus a Clinical Algorithm for Warfarin Dosing

Kimmel, Stephen E.; French, Benjamin; Kasner, Scott E.; Johnson, Julie A.; Anderson, Jeffrey L.; Gage, Brian F.; Rosenberg, Yves; Eby, Charles S.; Madigan, Rosemary; McBane, Robert D.; Abdel‐Rahman, Sherif Z.; Stevens, Scott M.; Yale, Steven H.; Mohler, Emile R.; Fang, Margaret C.; Shah, Vinay; Horenstein, Richard B.; Limdi, Nita A.; Muldowney, James A.S.; Gujral, Jaspal S; Delafontaine, Patrick; Desnick, Robert J.; Ortel, Thomas L.; Billett, Henny H.; Pendleton, Robert C.; Geller, Nancy L.; Halperin, Jonathan L.; Goldhaber, Samuel Z.; Caldwell, Michael D.; Califf, Robert M.; Ellenberg, Jonas H.

doi:10.1056/nejmoa1310669

Cited by 652 publications

(650 citation statements)

References 26 publications

(46 reference statements)

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“…Several recent clinical trials have challenged the overall benefits of genetics-based warfarin dosing by illustrating near-similar results of dosage optimisation using other clinical factors and INR monitoring. 54,55 A reconciliatory note here is that the availability of non-genetic alternatives, particularly that of aggressive monitoring, is predicated on having an efficient and rigorous health-care system that is able to diagnose and circumvent adverse effects or re-adjust dosages in a timely manner. A less rigorous (or more negligent) health-care system may see greater occurrences of missed diagnosis or delays in acknowledging adverse events or drug failures, which genetic tests act as early preventive measures to minimise.…”

Section: Availability Of Non-genetics Alternatives To Physiciansmentioning

confidence: 99%

Role of pharmacogenetics in public health and clinical health care: a SWOT analysis

2016

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Pharmacogenomics has been lauded as an important innovation in clinical medicine as a result of advances in genomic science. As one of the cornerstones in precision medicine, the vision to determine the right medication in the right dosage for the right treatment with the use of genetic information has not exactly materialised, and few genetic tests have been implemented as the standard of care in health systems worldwide. Here we review the findings from a SWOT analysis to examine the strengths, weaknesses, opportunities and threats around the role of pharmacogenetics in public health and clinical health care, at the micro, meso and macro levels corresponding to the perspectives of the individuals (scientists, patients and physicians), the health-care institutions and the health systems, respectively.

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Section: Availability Of Non-genetics Alternatives To Physiciansmentioning

confidence: 99%

Role of pharmacogenetics in public health and clinical health care: a SWOT analysis

2016

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“…The mock EHR system was purposely designed with limited ordering functionality, and users could only make modifications to a current warfarin order or initiate a new warfarin order. The usability of an initial and revised version of the CDSS prototype was evaluated in two iterations approximately one year apart to allow for the interface redesign and the data collection was completed prior to publication of conflicting reports related to the effectiveness of pharmacogenomic-guided warfarin dosing in 2013 [21,22]. Usability findings from the development iteration were used to inform an enhanced CDSS prototype for evaluation in the validation iteration (▶ Figure 1).…”

Section: Prototype Design and Redesignmentioning

confidence: 99%

“…An important setback is the fact that there are conflicting reports regarding the effectiveness of incorporating genetic testing into warfarin dosing [21,22]. The aforementioned barrier in the complexity of the genetic output also presents clinical challenges given the large amount of data [17,19,23].…”

Section: Background and Significancementioning

confidence: 99%

Iterative Development and Evaluation of a Pharmacogenomic-Guided Clinical Decision Support System for Warfarin Dosing

Melton¹,

Zillich²,

Saleem³

et al. 2016

Appl Clin Inform

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SummaryObjective: Pharmacogenomic-guided dosing has the potential to improve patient outcomes but its implementation has been met with clinical challenges. Our objective was to develop and evaluate a clinical decision support system (CDSS) for pharmacogenomic-guided warfarin dosing designed for physicians and pharmacists. Methods: Twelve physicians and pharmacists completed 6 prescribing tasks using simulated patient scenarios in two iterations (development and validation phases) of a newly developed pharmacogenomic-driven CDSS prototype. For each scenario, usability was measured via efficiency, recorded as time to task completion, and participants' perceived satisfaction which were compared using Kruskal-Wallis and Mann Whitney U tests, respectively. Debrief interviews were conducted and qualitatively analyzed. Usability findings from the first (i.e. development) iteration were incorporated into the CDSS design for the second (i.e. validation) iteration. Results: During the CDSS validation iteration, participants took more time to complete tasks with a median (IQR) of 183 (124-247) seconds versus 101 (73.5-197) seconds in the development iteration (p=0.01). This increase in time on task was due to the increase in time spent in the CDSS corresponding to several design changes. Efficiency differences that were observed between pharmacists and physicians in the development iteration were eliminated in the validation iteration. The increased use of the CDSS corresponded to a greater acceptance of CDSS recommended doses in the validation iteration (4% in the first iteration vs. 37.5% in the second iteration, p<0.001). Overall satisfaction did not change statistically between the iterations but the qualitative analysis revealed greater trust in the second prototype. Conclusions: A pharmacogenomic-guided CDSS has been developed using warfarin as the test drug. The final CDSS prototype was trusted by prescribers and significantly increased the time using the tool and acceptance of the recommended doses. This study is an important step toward incorporating pharmacogenomics into CDSS design for clinical testing. Research ArticleBL Background And SignificancePersonalized medicine is an emerging field with the fundamental objective to predict a patient's response in order to individualize drug therapy for improved medication effectiveness and safety. Pharmacogenomic-guided drug therapy is at the forefront of personalized medicine with over 150 United States Food and Drug Administration (FDA) approved drug labels incorporating pharmacogenomic information.[1] Nonetheless, the translation of pharmacogenomic testing into routine clinical practice has been slow due to several obstacles towards its implementation [2][3][4]. Currently, the routine use of clinical pharmacogenomics is limited to centers with resources to overcome these obstacles [5][6][7][8][9].A major obstacle in the implementation of clinical pharmacogenomics is the rapid pace that science has identified genetic polymorphisms that can predict drug response. Th...

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“…This is illustrated robustly by recent work demonstrating that PGx guidance for warfarin dosing, long a poster child for the PGx field, simply does not matter when using this agent. 28,29 Thus, while many associations are suggested by ongoing studies, not all remain statistically significant after replication studies, and few reach a level at which clinical implementation is warranted. Thus, the notion, suggested by Nishimura et al, 24 that substantial resources are required to keep their alerts up to date is questionable.…”

confidence: 99%

Returning pharmacogenetic secondary findings from genome sequencing: let’s not put the cart before the horse

Janssens

2015

Genetics in Medicine

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A Pharmacogenetic versus a Clinical Algorithm for Warfarin Dosing

Cited by 652 publications

References 26 publications

Role of pharmacogenetics in public health and clinical health care: a SWOT analysis

Role of pharmacogenetics in public health and clinical health care: a SWOT analysis

Iterative Development and Evaluation of a Pharmacogenomic-Guided Clinical Decision Support System for Warfarin Dosing

Returning pharmacogenetic secondary findings from genome sequencing: let’s not put the cart before the horse

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