参考文献/References:
[1]INTERNATIONAL DIABETES FEDERATION. IDF diabetes atlas(EB/OL).
[2022/04/20]. https://www.diabetesatlas.org/en/.
[2]MICHELLE R T, ASGAR F,ABISHEK B S, et al. Intrinsic and extrinsic factors affecting rice starch digestibility[J]. Trends in Food Science & Technology,2019,88:10-22.
[3]冯博. 低GI与低碳水饮食对超重、肥胖症者的减脂效果[J]. 食品安全导刊,2022(21):134-136.
[4]FOOD AND AGRICULTURE ORGANIZATION OF THE UNITED NATION. Rice market monitor (EB/OL).
[2022/04/20]. https://www.fao.org/markets-and-trade/commodities/rice/fao-rice-price-update/en/
[5]BUTARDO V M,SREENIVASULU N,JULIANO B O. Improving rice grain quality: state-of-the-art and future prospects[J]. Methods in Molecular Biology,2019,1892:19-55.
[6]LEE K Y,LEE H G. Comparative effects of slowly digestible and resistant starch from rice in high-fat diet-induced obese mice[J]. Food Science and Biotechnology,2016,25(5):1443-1448.
[7]TRINIDAD T P,MALLILLIN A C,ENCABO R R,et al. The effect of apparent amylose content and dietary fibre on the glycemic response of different varieties of cooked milled and brown rice[J]. International Journal of Food Sciences and Nutrition,2013,64(1):89-93.
[8]PHYLLIS A C. Fact: The glycemic response to foods[J]. Nutrition Today,1984,19(2):6-11.
[9]JAMES W W,JOHN A M,CHARLES S,et al. Simulating human carbohydrate digestion in vitro: a review of methods and the need for standardisation[J]. International Journal of Food Science & Technology,2008,43(12):2245-2256.
[8] 杨小雪,王丽丽,丁岚,等. 加工方式对红小豆粉理化性质及预估血糖生成指数的影响[J]. 中国粮油学报,2021,36(1):33-38.
[9]GRANFELDT Y,BJRCK I,DREWS A,et al. An in vitro procedure based on chewing to predict metabolic response to starch in cereal and legume products[J]. American Journal of Clinical Nutrition,1994, 59(3):777S.
[10]BUTARDO V M,SREENIVASULU N. Tailoring grain storage reserves for a healthier rice diet and its comparative status with other cereals[J]. International Review of Cell and Molecular Biology,2016,23:31-70.
[11]姜彩霞,汪睿,郑喜群,等. 白芸豆中α-淀粉酶抑制剂的制备及性质研究[J]. 食品科技,2022,47(2):251-255.
[12]李恒,刘静,孙桂菊,等. 抗性淀粉、脂肪和蛋白质对淀粉体外消化速度的影响[J]. 卫生研究,2007(3):308-310.
[13] BUTARDO V M,SREENIVASULU N,JULIANO B O. Improving rice grain quality:State-of-the-art and future prospects[J]. Methods in Molecular Biology,2019,1892:19-55.
[14]张翼麟,谢勇,易川虎,等. 青稞结构对淀粉体外消化的影响[J]. 食品与发酵工业,2021,47(15):98-103.
[15]曾悦. 稻谷类及豆类碳水化合物消化速度与血糖反应的初步研究[D]. 北京:中国农业大学,2005.
[16]KAI L,WANG S,LE C,et al. Discovery of a low-glycemic index potato and relationship with starch digestion in vitro[J]. British Journal of Nutrition,2013,111(4):699-705.
[17]TOUTOUNJI M R, BUTARDO V M ,ZOU W J, et al. A high-throughput in vitro assay for screening rice starch digestibility[J]. Foods, 2019, 8(12):601.
[18]FERNANDES J M,MADALENA D A,PINHEIRO A C, et al. Rice in vitro digestion: application of INFOGEST harmonized protocol for glycemic index determination and starch morphological study[J]. Journal of Food Science and Technology,2020, 57:1393-1404.
[19]JENKINS D J,WOLEVER T M,TAYLOR R H,et al. Glycemic index of foods: a physiological basis for carbohydrate exchange[J]. The American Journal of Clinical Nutrition,1981,34(3):362-366.
[20]FITZGERALD M A,RAHMAN S,RESURRECCION A,et al. Identification of a major genetic determinant of glycemic index in rice[J]. Rice,2011,4(2):66-74.
[21]LIN L S, CAI C H,GILBERT R G,et al. Relationships between amylopectin molecular structures and functional properties of different-sized fractions of normal and high-amylose maize starches[J]. Food Hydrocolloids,2016,52:359-368.
[22]GOI I,GARCIA-ALONSO A,SAURA-CALIXTO F. A starch hydrolysis procedure to estimate glycemic index[J]. Nutrition Research,1997,17(3):427-437.
[23]中华人民共和国国家质量监督检验检疫总局,中国国家标准化管理委员会. 优质稻谷GB/T17891-2017[S]. 北京:中国标准出版社,2017.
[24]刘辉,王成祥,刘兵军,等. 一种血糖生成指数体外检测方法:CN105911007A[P]. 2016-08-31.
[25]顾娟,洪雁,顾正彪. 荞麦淀粉理化性质的研究[J]. 食品与发酵工业,2008(4):36-39.
[26] AHMED R, SEGAL I, HASSAN H. Fermentation of dietary starch in humans [J]. American Journal of Gastroenterology, 2000,95 (4): 1017-1020
[27]徐箐,柳嘉,林静,等. 低GI淀粉原料的筛选及理化特性和体外消化特性的研究[J]. 食品研究与开发,2020,41(20):8-14.
[28]LI C,YU W W,WU P,et al. Current in vitro digestion systems for understanding food digestion in human upper gastrointestinal tract[J]. Trends in Food Science & Technology,2020,96:114-126.
[29]PAN Z,YE A Q,LI S,et al. Dynamic in vitro gastric digestion of sheep milk: Influence of homogenization and heat treatment[J]. Foods,2021,10(8):1938.
[30]CAI Y D,QIN W,SUNANTHA K,et al. Impact of particle size of pulverized citrus peel tissue on changes in antioxidant properties of digested fluids during simulated in vitro digestion[J]. Food Science and Human Wellness,2020,9(1):58-63.
[31]TSUGAMI Y,SUZUKI N,KAWAHARA M,et al. Establishment of an in vitro culture model to study milk production and the blood-milk barrier with bovine mammary epithelial cells[J]. Animal Science Journal,2020,91(1):e13355.
[32]MUIR J G,O’DEA K. Measurement of resistant starch: factors affecting the amount of starch escaping digestion in vitro[J]. American Journal of Clinical Nutrition,1992,56(1):123-127.
[33]曾悦,刘芳,刘波,等. 一种淀粉类食品消化速度体外测定法的探讨及应用[J]. 食品与发酵工业,2005(5):114-118.
[34]王淑颖,范志红,刘波. 不同品种稻米中碳水化合物的消化特性[J]. 中国农业大学学报,2012,17(4):129-134.
[35]RITUDOMPHOL O,LUANGSAKUL N. Optimization of processing condition of instant rice to lower the Glycemic Index[J]. Journal of Food Science,2019,84(1):101-110.
[36]RANAWANA D,HENRY C J,LIGHTOWLER H J,et al. Glycaemic index of some commercially available rice and rice products in Great Britain[J]. International Journal of Food Sciences and Nutrition,2009,60(4):99-110.
[37]ARAYA H,CONTRERAS P,ALVIA M,et al. A comparison between an in vitro method to determine carbohydrate digestion rate and the glycemic response in young men[J]. European Journal of Clinical Nutrition,2002,56(8):735-739.
[38]JULIANO B O. Rice: Chemistry and technology[M]. St Paul, MN: American Association of Cereal Chemists,1985
[39] BUTARDO V M, SREENIVASULU N, JULIANO B O. Rice grain quality: State of the art and future prospects[M]//SREENIVASULU N. Rice grain quality: Methods and protocols. Clifton: Humana Press,2019
[40] STROCCHI A, LEVITT M D. Measurement of starch absorption in humans[J]. Canadian Journal of Physiology and Pharmacology, 1991,69:108-110.
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