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      저자 : Aaron Wheeler (검색결과 2 건)
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      • Impact of common genetic determinants of Hemoglobin A1c on type 2 diabetes risk and diagnosis in ancestrally diverse populations: A transethnic genome-wide meta-analysis

        Wheeler, Eleanor,Leong, Aaron,Liu, Ching-Ti,Hivert, Marie-France,Strawbridge, Rona J.,Podmore, Clara,Li, Man,Yao, Jie,Sim, Xueling,Hong, Jaeyoung,Chu, Audrey Y.,Zhang, Weihua,Wang, Xu,Chen, Peng,Marut Public Library of Science 2017 PLoS medicine Vol.14 No.9

        <▼1><P><B>Background</B></P><P>Glycated hemoglobin (HbA1c) is used to diagnose type 2 diabetes (T2D) and assess glycemic control in patients with diabetes. Previous genome-wide association studies (GWAS) have identified 18 HbA1c-associated genetic variants. These variants proved to be classifiable by their likely biological action as erythrocytic (also associated with erythrocyte traits) or glycemic (associated with other glucose-related traits). In this study, we tested the hypotheses that, in a very large scale GWAS, we would identify more genetic variants associated with HbA1c and that HbA1c variants implicated in erythrocytic biology would affect the diagnostic accuracy of HbA1c. We therefore expanded the number of HbA1c-associated loci and tested the effect of genetic risk-scores comprised of erythrocytic or glycemic variants on incident diabetes prediction and on prevalent diabetes screening performance. Throughout this multiancestry study, we kept a focus on interancestry differences in HbA1c genetics performance that might influence race-ancestry differences in health outcomes.</P><P><B>Methods & findings</B></P><P>Using genome-wide association meta-analyses in up to 159,940 individuals from 82 cohorts of European, African, East Asian, and South Asian ancestry, we identified 60 common genetic variants associated with HbA1c. We classified variants as implicated in glycemic, erythrocytic, or unclassified biology and tested whether additive genetic scores of erythrocytic variants (GS-E) or glycemic variants (GS-G) were associated with higher T2D incidence in multiethnic longitudinal cohorts (<I>N</I> = 33,241). Nineteen glycemic and 22 erythrocytic variants were associated with HbA1c at genome-wide significance. GS-G was associated with higher T2D risk (incidence OR = 1.05, 95% CI 1.04–1.06, per HbA1c-raising allele, <I>p</I> = 3 × 10<SUP>−29</SUP>); whereas GS-E was not (OR = 1.00, 95% CI 0.99–1.01, <I>p</I> = 0.60). In Europeans and Asians, erythrocytic variants in aggregate had only modest effects on the diagnostic accuracy of HbA1c. Yet, in African Americans, the X-linked <I>G6PD</I> G202A variant (T-allele frequency 11%) was associated with an absolute decrease in HbA1c of 0.81%-units (95% CI 0.66–0.96) per allele in hemizygous men, and 0.68%-units (95% CI 0.38–0.97) in homozygous women. The <I>G6PD</I> variant may cause approximately 2% (<I>N</I> = 0.65 million, 95% CI 0.55–0.74) of African American adults with T2D to remain undiagnosed when screened with HbA1c. Limitations include the smaller sample sizes for non-European ancestries and the inability to classify approximately one-third of the variants. Further studies in large multiethnic cohorts with HbA1c, glycemic, and erythrocytic traits are required to better determine the biological action of the unclassified variants.</P><P><B>Conclusions</B></P><P>As G6PD deficiency can be clinically silent until illness strikes, we recommend investigation of the possible benefits of screening for the <I>G6PD</I> genotype along with using HbA1c to diagnose T2D in populations of African ancestry or groups where <I>G6PD</I> deficiency is common. Screening with direct glucose measurements, or genetically-informed HbA1c diagnostic thresholds in people with G6PD deficiency, may be required to avoid missed or delayed diagnoses.</P></▼1><▼2><P>Ines Barroso and colleagues identify a genetic variant that leads to reduced levels of HbA1c in African American adults; 2% of this population are at risk of missed diagnosis for diabetes.</P></▼2><▼3><P><B>Author summary</B></P><P><B>Why was this study done?</B></P><P>Blood glucose binds in an irreversible manner to circulating hemoglobin in red blood cells (RBCs), generating “glycated hemoglobin,” called HbA1c. HbA1c is used to diagnose and monitor diabetes.</P><P>Previous large-scale human genetic studies have demonstrated that HbA1c is influenced by genetic variants. Some vari

      • Direct coupling of digital microfluidics to LC-MS

        Kihwan Choi(최기환),Chang Liu,Jihye Kim,Aaron Wheeler 한국분석과학회 2017 학술대회논문집 Vol.2017 No.5

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