可可黄烷醇与无机硝酸盐之间的相互作用:在可实现的饮食摄入量下对内皮功能的累加效应。
Interactions between cocoa flavanols and inorganic nitrate: additive effects on endothelial function at achievable dietary amounts.
作者信息
Rodriguez-Mateos Ana, Hezel Michael, Aydin Hilal, Kelm Malte, Lundberg Jon O, Weitzberg Eddie, Spencer Jeremy P E, Heiss Christian
机构信息
Division of Cardiology, Pulmonology, and Vascular Medicine, Medical Faculty, and.
Department of Physiology and Pharmacology, Karolinska Institute, Stockholm, Sweden.
出版信息
Free Radic Biol Med. 2015 Mar;80:121-8. doi: 10.1016/j.freeradbiomed.2014.12.009. Epub 2014 Dec 18.
Dietary intervention studies have shown that flavanols and inorganic nitrate can improve vascular function, suggesting that these two bioactives may be responsible for beneficial health effects of diets rich in fruits and vegetables. We aimed to study interactions between cocoa flavanols (CF) and nitrate, focusing on absorption, bioavailability, excretion, and efficacy to increase endothelial function. In a double-blind randomized, dose-response crossover study, flow-mediated dilation (FMD) was measured in 15 healthy subjects before and at 1, 2, 3, and 4 h after consumption of CF (1.4-10.9 mg/kg bw) or nitrate (0.1-10 mg/kg bw). To study flavanol-nitrate interactions, an additional intervention trial was performed with nitrate and CF taken in sequence at low and high amounts. FMD was measured before (0 h) and at 1h after ingestion of nitrate (3 or 8.5 mg/kg bw) or water. Then subjects received a CF drink (2.7 or 10.9 mg/kg bw) or a micro- and macronutrient-matched CF-free drink. FMD was measured at 1, 2, and 4 h thereafter. Blood and urine samples were collected and assessed for CF and nitric oxide (NO) metabolites with HPLC and gas-phase reductive chemiluminescence. Finally, intragastric formation of NO after CF and nitrate consumption was investigated. Both CF and nitrate induced similar intake-dependent increases in FMD. Maximal values were achieved at 1 h postingestion and gradually decreased to reach baseline values at 4 h. These effects were additive at low intake levels, whereas CF did not further increase FMD after high nitrate intake. Nitrate did not affect flavanol absorption, bioavailability, or excretion, but CF enhanced nitrate-related gastric NO formation and attenuated the increase in plasma nitrite after nitrate intake. Both flavanols and inorganic nitrate can improve endothelial function in healthy subjects at intake amounts that are achievable with a normal diet. Even low dietary intake of these bioactives may exert relevant effects on endothelial function when ingested together.
饮食干预研究表明,黄烷醇和无机硝酸盐可改善血管功能,这表明这两种生物活性物质可能是富含水果和蔬菜的饮食对健康产生有益影响的原因。我们旨在研究可可黄烷醇(CF)与硝酸盐之间的相互作用,重点关注吸收、生物利用度、排泄以及增加内皮功能的功效。在一项双盲随机剂量反应交叉研究中,对15名健康受试者在摄入CF(1.4 - 10.9毫克/千克体重)或硝酸盐(0.1 - 10毫克/千克体重)之前以及摄入后1、2、3和4小时测量血流介导的血管舒张(FMD)。为了研究黄烷醇 - 硝酸盐的相互作用,还进行了一项额外的干预试验,按低剂量和高剂量顺序分别摄入硝酸盐和CF。在摄入硝酸盐(3或8.5毫克/千克体重)或水之前(0小时)和之后1小时测量FMD。然后受试者饮用CF饮料(2.7或10.9毫克/千克体重)或与微量和常量营养素匹配的不含CF的饮料。此后在1、2和4小时测量FMD。采集血液和尿液样本,用高效液相色谱法和气相还原化学发光法评估CF和一氧化氮(NO)代谢产物。最后,研究了摄入CF和硝酸盐后胃内NO的形成情况。CF和硝酸盐均引起类似的FMD摄入量依赖性增加。摄入后1小时达到最大值,4小时逐渐降至基线值。在低摄入量水平时,这些作用是相加的,而高硝酸盐摄入量后CF并未进一步增加FMD。硝酸盐不影响黄烷醇的吸收、生物利用度或排泄,但CF增强了硝酸盐相关的胃内NO形成,并减弱了硝酸盐摄入后血浆亚硝酸盐的增加。正常饮食可摄入的黄烷醇和无机硝酸盐摄入量均可改善健康受试者的内皮功能。即使这些生物活性物质的饮食摄入量较低,一起摄入时也可能对内皮功能产生相关影响。
Zotero 插件