期刊
PHARMACOGENOMICS & PERSONALIZED MEDICINE
卷 15, 期 -, 页码 879-911出版社
DOVE MEDICAL PRESS LTD
DOI: 10.2147/PGPM.S338601
关键词
drug-drug interactions; drug-gene interactions; drug-drug-gene interactions; drug-gene-gene interactions; pharmacogenomics
资金
- Medical Research Council
- [MR/V033867/1]
Cardiovascular disease remains a leading cause of both morbidity and mortality worldwide. Both concomitant medications and genomic factors can influence the efficacy and safety outcomes of cardiovascular drugs. However, there is a lack of research on drug-drug-gene interactions (DDGIs) and other complex interactions. Multimorbidity and polypharmacy in cardiovascular disease patients increase the risk of clinically relevant drug-related interactions, leading to reduced drug efficacy and increased adverse reactions.
Cardiovascular disease remains a leading cause of both morbidity and mortality worldwide. It is widely accepted that both concomitant medications (drug-drug interactions, DDIs) and genomic factors (drug-gene interactions, DGIs) can influence cardio-vascular drug-related efficacy and safety outcomes. Although thousands of DDI and DGI (aka pharmacogenomic) studies have been published to date, the literature on drug-drug-gene interactions (DDGIs, cumulative effects of DDIs and DGIs) remains scarce. Moreover, multimorbidity is common in cardiovascular disease patients and is often associated with polypharmacy, which increases the likelihood of clinically relevant drug-related interactions. These, in turn, can lead to reduced drug efficacy, medication-related harm (adverse drug reactions, longer hospitalizations, mortality) and increased healthcare costs. To examine the extent to which DDGIs and other interactions influence efficacy and safety outcomes in the field of cardiovascular medicine, we review current evidence in the field. We describe the different categories of DDIs and DGIs before illustrating how these two interact to produce DDGIs and other complex interactions. We provide examples of studies that have reported the prevalence of clinically relevant interactions and the most implicated cardiovascular medicines before outlining the challenges associated with dealing with these interactions in clinical practice. Finally, we provide recommendations on how to manage the challenges including but not limited to expanding the scope of drug information compendia, interaction databases and clinical implementation guidelines (to include clinically relevant DDGIs and other complex interactions) and work towards their harmonization; better use of electronic decision support tools; using big data and novel computational techniques; using clinically relevant endpoints, preemptive genotyping; ensuring ethnic diversity; and upskilling of clinicians in and medicine.
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