Assessment of myocardial metabolic flexibility and work efficiency in human type 2 diabetes using 16-[~18F]fluoro-4-thiapalmitate, a novel PET fatty acid tracer

K. J. Mather; G. D. Hutchins; K. Perry; W. Territo; R. Chisholm; A. Acton; B. Glick-Wilson; R. V. Considine; S. Moberly; T. R. DeGrado

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Assessment of myocardial metabolic flexibility and work efficiency in human type 2 diabetes using 16-[~18F]fluoro-4-thiapalmitate, a novel PET fatty acid tracer

机译：使用16- [〜18F]氟-4-噻吩，一种新型PET脂肪酸示踪剂，评估人类2型糖尿病中的心肌代谢灵活性和工作效率

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Altered myocardial fuel selection likely underlies cardiac disease risk in diabetes, affecting oxygen demand and myocardial metabolic flexibility. We investigated myocardial fuel selection and metabolic flexibility in human type 2 diabetes mellitus (T2DM), using positron emission tomography to measure rates of myocardial fatty acid oxidation {16-[~18F]fluoro-4-thia-palmitate (FTP)} and myocardial perfusion and total oxidation ([~11C]acetate). Participants underwent paired studies under fasting conditions, comparing 3-h insulin + glucose euglycemic clamp conditions (120 mU·m~(-2)·min~(-1)) to 3-h saline infusion. Lean controls (n = 10) were compared with glycemically controlled volunteers with T2DM (n = 8). Insulin augmented heart rate, blood pressure, and stroke index in both groups (all P < 0.01) and significantly increased myocardial oxygen consumption (P = 0.04) and perfusion (P = 0.01) in both groups. Insulin suppressed available nonesterified fatty acids (P < 0.0001), but fatty acid concentrations were higher in T2DM under both conditions (P < 0.001). Insulin-induced suppression of fatty acid oxidation was seen in both groups (P < 0.0001). However, fatty acid oxidation rates were higher under both conditions in T2DM (P = 0.003). Myocardial work efficiency was lower in T2DM (P = 0.006) and decreased in both groups with the insulin-induced increase in work and shift in fuel utilization (P = 0.01). Augmented fatty acid oxidation is present under baseline and insulin-treated conditions in T2DM, with impaired insulin-induced shifts away from fatty acid oxidation. This is accompanied by reduced work efficiency, possibly due to greater oxygen consumption with fatty acid metabolism. These observations suggest that improved fatty acid suppression, or reductions in myocardial fatty acid uptake and retention, could be therapeutic targets to improve myocardial ischemia tolerance in T2DM.

机译：改变的心肌燃料选择可能是糖尿病心脏病风险的影响，影响需氧量和心肌代谢柔韧性。我们研究了人类2型糖尿病（T2DM）的心肌燃料选择和代谢柔韧性，使用正电子发射断层扫描来测量心肌脂肪酸氧化率{16- [〜18氟]氟-4-毒液（FTP）}和心肌灌注和总氧化（乙酸盐）。参与者在禁食条件下接受配对的研究，比较3-H胰岛素+葡萄糖Eugneycex钳称条件（120μm·m〜（-2）·min〜（-1））至3小时盐水输注。将瘦控制（n = 10）与具有T2DM的血液控制志愿者进行比较（n = 8）。胰岛素增强心率，血压和两组中的卒中指数（所有P <0.01）并显着增加了两组心肌氧消耗（P = 0.04）和灌注（P = 0.01）。胰岛素抑制了无效的脂肪酸（P <0.0001），但在两个条件下，T2DM的脂肪酸浓度较高（P <0.001）。在两个基团中观察到胰岛素诱导的脂肪酸氧化（P <0.0001）。然而，在T2DM的条件下脂肪酸氧化率较高（P = 0.003）。在T2DM（P = 0.006）中，心肌工作效率降低，并且两组在胰岛素诱导的工作增加和燃料利用时的增加（P = 0.01）。在T2DM中基线和胰岛素处理的条件下存在增强脂肪酸氧化，胰岛素诱导的血液诱导的血液诱导的血液氧化损失。这伴随着减少的工作效率，可能是由于具有脂肪酸代谢的氧气消耗较大。这些观察结果表明，改善脂肪酸抑制或减少心肌脂肪酸摄取和保留，可以是治疗靶标，以改善T2DM中的心肌缺血耐受性。

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来源
《American Journal of Physiology》 |2016年第1期|共9页
作者
K. J. Mather; G. D. Hutchins; K. Perry; W. Territo; R. Chisholm; A. Acton; B. Glick-Wilson; R. V. Considine; S. Moberly; T. R. DeGrado;
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Indiana University School of Medicine Indianapolis Indiana;

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正文语种 eng
中图分类人体生理学;
关键词
myocardial; heart; diabetes; metabolism; metabolic flexibility; positron emission tomography;

机译：心肌;心脏;糖尿病;新陈代谢;代谢灵活性;正电子发射断层扫描;

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1. Assessment of myocardial metabolic flexibility and work efficiency in human type 2 diabetes using 16-[~18F]fluoro-4-thiapalmitate, a novel PET fatty acid tracer [J] . K. J. Mather, G. D. Hutchins, K. Perry, American Journal of Physiology . 2016,第3aPta1期

机译：使用16- [〜18F]氟-4-噻吩，一种新型PET脂肪酸示踪剂，评估人类2型糖尿病中的心肌代谢灵活性和工作效率
2. Evaluation of trans-9-18F-Fluoro-3,4-Methyleneheptadecanoic Acid as a PET Tracer for Myocardial Fatty Acid Imaging. [J] . Shoup TM, Elmaleh DR, Bonab AA, The Journal of Nuclear Medicine . 2005,第2期

机译：评价反式9-18F-氟-3,4-亚甲基庚二酸作为用于心肌脂肪酸成像的PET示踪剂。
3. Evaluation of trans-9-18F-Fluoro-3,4-Methyleneheptadecanoic Acid as a PET Tracer for Myocardial Fatty Acid Imaging [J] . Timothy M. Shoup, David R. Elmaleh, Ali A. Bonab, The Journal of Nuclear Medicine . 2005,第2期

机译：反式9-18F-氟-3,4-亚甲基庚二酸作为PET示踪剂用于心肌脂肪酸成像的评估
4. Heterogeneity of myocardial fatty acid tracer uptake in the porcine heart wall [C] . Erik L. Ritman, Mayo Clinic, Foundation, Medical Imaging 1997: Physiology and Function from Multidimensional Images . 1997

机译：猪心脏壁中心肌脂肪酸示踪剂摄取的异质性
5. A superior early myocardial infarction marker: Human heart -type fatty acid -binding protein. [D] . Chan, Cangel Pui Yee. 2002

机译：优良的早期心肌梗塞标志物：人心脏型脂肪酸结合蛋白。
6. Assessment of myocardial metabolic flexibility and work efficiency in human type 2 diabetes using 16-18Ffluoro-4-thiapalmitate a novel PET fatty acid tracer [O] . K. J. Mather, G. D. Hutchins, K. Perry, -1

机译：使用新型PET脂肪酸示踪剂16- 18F氟-4-硫代棕榈酸酯评估人类2型糖尿病患者的心肌代谢灵活性和工作效率
7. Assessment of myocardial metabolic flexibility and work efficiency in human type 2 diabetes using 16-[18F]fluoro-4-thiapalmitate, a novel PET fatty acid tracer [O] . Mather, K.J., Hutchins, G.D., Perry, K., 2016

机译：使用新型PET脂肪酸示踪剂16- [18F]氟-4-硫代棕榈酸酯评估人类2型糖尿病患者的心肌代谢灵活性和工作效率
8. Effects of Omega-3 Fatty Acids on Lipids and Glycemic Control in Type II Diabetes and the Metabolic Syndrome and on Inflammatory Bowel Disease, Rheumatoid Arthritis, Renal Disease, Systemic Lupus Erythematosus, and Osteoporosis Evidence Report/Technology [R] . Newberry, S. J., Gralnek, I., MacLean, C. H., 2004

机译：Omega-3脂肪酸对II型糖尿病和代谢综合征以及炎症性肠病，类风湿性关节炎，肾病，系统性红斑狼疮和骨质疏松症的血脂和血糖控制的影响证据报告/技术

Assessment of myocardial metabolic flexibility and work efficiency in human type 2 diabetes using 16-[~18F]fluoro-4-thiapalmitate, a novel PET fatty acid tracer

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