Browsing by Author "Flockhart, D. A."

Now showing 1 - 3 of 3
  • Thumbnail Image
    Item
    Aromatase inhibitor-induced modulation of breast density: clinical and genetic effects
    (NPG - Nature Publishing Group, 2013-10-29) Henry, N. L.; Chan, H-P; Dantzer, J.; Goswami, C. P.; Li, L.; Skaar, Todd C.; Rae, J. M.; Desta, Z.; Khouri, N.; Pinsky, R.; Oesterreich, S.; Zhou, C.; Hadjiiski, L.; Philips, S.; Robarge, J.; Nguyen, A. T.; Storniolo, A. M.; Flockhart, D. A.; Hayes, D. F.; Helvie, M. A.; Stearns, V.; Department of Medicine, School of Medicine
    Background: Change in breast density may predict outcome of women receiving adjuvant hormone therapy for breast cancer. We performed a prospective clinical trial to evaluate the impact of inherited variants in genes involved in oestrogen metabolism and signalling on change in mammographic percent density (MPD) with aromatase inhibitor (AI) therapy. Methods: Postmenopausal women with breast cancer who were initiating adjuvant AI therapy were enrolled onto a multicentre, randomised clinical trial of exemestane vs letrozole, designed to identify associations between AI-induced change in MPD and single-nucleotide polymorphisms in candidate genes. Subjects underwent unilateral craniocaudal mammography before and following 24 months of treatment. Results: Of the 503 enrolled subjects, 259 had both paired mammograms at baseline and following 24 months of treatment and evaluable DNA. We observed a statistically significant decrease in mean MPD from 17.1 to 15.1% (P<0.001), more pronounced in women with baseline MPD ⩾20%. No AI-specific difference in change in MPD was identified. No significant associations between change in MPD and inherited genetic variants were observed. Conclusion: Subjects with higher baseline MPD had a greater average decrease in MPD with AI therapy. There does not appear to be a substantial effect of inherited variants in biologically selected candidate genes.
  • Thumbnail Image
    Item
    Genetic variant predicts bevacizumab-induced hypertension in ECOG-5103 and ECOG-2100
    (Nature Publishing Group, 2014-09-09) Schneider, B. P.; Li, L.; Shen, F.; Miller, K. D.; Radovich, M.; O'Neill, A.; Gray, R. J.; Lane, D.; Flockhart, D. A.; Jiang, G.; Wang, Z.; Lai, D.; Koller, D.; Pratt, J. H.; Dang, C. T.; Northfelt, D.; Perez, E. A.; Shenkier, T.; Cobleigh, M.; Smith, M. L.; Railey, E.; Partridge, A.; Gralow, J.; Sparano, J.; Davidson, N. E.; Foroud, T.; Sledge, G. W.; Department of Medicine, IU School of Medicine
    Background: Bevacizumab has broad anti-tumour activity, but substantial risk of hypertension. No reliable markers are available for predicting bevacizumab-induced hypertension. Methods: A genome-wide association study (GWAS) was performed in the phase III bevacizumab-based adjuvant breast cancer trial, ECOG-5103, to evaluate for an association between genotypes and hypertension. GWAS was conducted in those who had experienced systolic blood pressure (SBP) >160 mm Hg during therapy using binary analysis and a cumulative dose model for the total exposure of bevacizumab. Common toxicity criteria (CTC) grade 3–5 hypertension was also assessed. Candidate SNP validation was performed in the randomised phase III trial, ECOG-2100. Results: When using the phenotype of SBP>160 mm Hg, the most significant association in SV2C (rs6453204) approached and met genome-wide significance in the binary model (P=6.0 × 10−8
  • Thumbnail Image
    Item
    Identification and Mechanistic Investigation of Drug-Drug Interactions Associated With Myopathy: A Translational Approach
    (Wiley Blackwell (John Wiley & Sons), 2015-09) Han, X.; Quinney, S. K.; Wang, Z.; Zhang, P.; Duke, J.; Desta, Z.; Elmendorf, J. S.; Flockhart, D. A.; Li, L.; Department of Medical & Molecular Genetics, IU School of Medicine
    Myopathy is a group of muscle diseases that can be induced or exacerbated by drug-drug interactions (DDIs). We sought to identify clinically important myopathic DDIs and elucidate their underlying mechanisms. Five DDIs were found to increase the risk of myopathy based on analysis of observational data from the Indiana Network of Patient Care. Loratadine interacted with simvastatin (relative risk 95% confidence interval [CI] = [1.39, 2.06]), alprazolam (1.50, 2.31), ropinirole (2.06, 5.00), and omeprazole (1.15, 1.38). Promethazine interacted with tegaserod (1.94, 4.64). In vitro investigation showed that these DDIs were unlikely to result from inhibition of drug metabolism by CYP450 enzymes or from inhibition of hepatic uptake via the membrane transporter OATP1B1/1B3. However, we did observe in vitro synergistic myotoxicity of simvastatin and desloratadine, suggesting a role in loratadine-simvastatin interaction. This interaction was epidemiologically confirmed (odds ratio 95% CI = [2.02, 3.65]) using the data from the US Food and Drug Administration Adverse Event Reporting System.