Health care utilization and behavior changes after workplace genetic testing at a large US health care system.

PURPOSE: This study explored employee health behavior changes and health care utilization after workplace genetic testing (wGT). Wellness-program-associated wGT seeks to improve employee health, but the related health implications are unknown. METHODS: Employees of a large US health care system offering wGT (cancer, heart disease, and pharmacogenomics [PGx]) were sent electronic surveys. Self-reported data from those who received test results were analyzed. Descriptive statistics characterized responses, whereas logistic regression analyses explored correlates of responses to wGT. RESULTS: 53.9% (n = 418/776) of respondents (88.3% female, mean age = 44 years) reported receiving wGT results. 12.0% (n = 48/399) received results indicating increased risk (IR) of cancer, 9.5% (n = 38/398) had IR of heart disease, and 31.4% (n = 125/398) received informative PGx results. IR results for cancer and/or heart disease (n = 67) were associated with health behavior changes (adjusted odds ratio: 3.23; 95% CI 1.75, 6.13; P < .001) and health care utilization (adjusted odds ratio: 8.60; 95% CI 4.43, 17.5; P < .001). Informative PGx results (n = 125) were associated with medication changes (PGx-informative: 15.2%; PGx-uninformative: 4.8%; P = .002). CONCLUSION: This study explored employee responses to wGT, contributing to the understanding of the ethical and social implications of wGT. Receiving IR results from wGT may promote health behavior changes and health care utilization in employees.

Dosing recommendations for pharmacogenetic interactions related to drug metabolism.

OBJECTIVE: Pharmacogenomic studies have established the important contribution of drug-metabolizing enzyme genotype toward drug toxicity and treatment failure; however, clinical implementation of pharmacogenomics has been slow. The aim of this study was to systematically review the information on drug-metabolizing enzyme pharmacogenomics available in the US drug labeling, practice guidelines, and recommendations. METHODS: Drug-metabolizing enzyme genotype and phenotype information was assessed in US FDA drug labeling, clinical practice guidelines, and independent technology assessors to evaluate the consistency in information sources for healthcare providers. RESULTS: Eighty four gene-drug pairs were identified as having drug-metabolizing enzyme genotype or phenotype information within the label. The manner in which pharmacogenomic information was presented was heterogeneous both within the label and between clinical practice recommendations. CONCLUSION: For proper implementation of pharmacogenomics in clinical practice, information sources for healthcare providers should relay consistent and clear information for the appropriate use of biomarkers.

Genomics, personalized medicine, and pediatrics.

Genomic discoveries are advancing biomedicine at an ever-increasing pace. Pediatrics is near the epicenter of these discoveries, which are revising our understanding of the genome and its function. Since the completion of the Human Genome Project in 2003, dramatic reductions in the cost of genotyping, and more recently sequencing, have permitted the study of the genomes of a great number of species as well as humans. These studies have led to insights on gene regulation and the complex interplay of factors responsible for normal development and biology. Study of single-gene disorders has greatly benefited from the genomics revolution and tests are now available for well over 2000 Mendelian conditions; availability of these tests are changing screening and diagnosis paradigms for rare conditions. Genomics is also yielding an increased understanding of common conditions such as diabetes, obesity, asthma, cancers, and mental health conditions. Personalized medicine, an approach to care in which an individual's genomic information is used to help tailor interventions to maximize health outcomes, is rapidly becoming a reality for a variety of conditions. Though challenges remain in translating new genomic insights into improved patient health, today's pediatricians and their patients will increasingly benefit from this watershed moment in the biological sciences.