Akerele Gbenga P, Adedayo Bukola C, Oboh Ganiyu, Ademosun Ayokunle O, Oyeleye Sunday I
Functional Foods and Nutraceutical Unit, Department of Biochemistry, Federal University of Technology, Akure, Nigeria.
J Food Biochem. 2022 Dec;46(12):e14511. doi: 10.1111/jfbc.14511. Epub 2022 Nov 12.
In a bid to make the use of functional food easier in the management and prevention of diseases, product development and fortification from/with functional foods have become the recent focus of research. This study, therefore, sought to exploit the recent trend in the brewing industry on the production of non-alcoholic beers by investigating the possibility of having a non-alcoholic beer flavored with bitter leaf, a known plant widely reported to have a strong hypoglycemic effect, as against the traditional use of hops, and the effect of the produced beer on the glycemic indices and various diabetic biochemical parameters that serve as biomarkers for type-2 diabetes (T2D). The glycemic indices, as well as the inhibitory potentials of bitter leaf-flavored Non-alcoholic wheat beer (NAWB) in ratios of 100%HP, 100%BL, 75:25BL, 50:50BL, and 25:75BL, on enzymes linked to a high-fat diet/streptozocin (HFD/STZ)-induced T2D albino Wistar rats were investigated. There were no significant difference (p > .05) between the starch (1.72-1.77 mg/100 mL), amylose (0.22-0.24 mg/100 mL), and amylopectin (1.49-1.53 mg/100 mL) contents of the various samples. The Glycemic Index (GI) of the samples ranged from 36 to 73 with 75:25Bl and 50:50BL have the lowest (36) values. The samples reduced blood glucose levels and inhibited pancreatic α-amylase, lipase, and intestinal α-glucosidase activity. The inhibitory potentials of these beer samples on α-amylase and α-glucosidase as well as their ability to reduce blood glucose levels in diabetic rats thus making the bitter leaf flavored NAWB a suitable healthy beverage for better glycemic control in diabetics. PRACTICAL APPLICATIONS: This study revealed the potential of producing non-alcoholic wheat beer flavored with bitter leaves as a possible substitute for hops. The potential inherent in bitter leaf in the management of type 2 diabetes can thus be made available through a far-reaching beverage medium such as non-alcoholic beer to help in the treatment/management of T2D. The results of this research could be an eye-opener to the possible utilization of bitter leaf and by extension other plants that have been reported in the management of T2D. The use of the bitter leaf as a substitute for hops in the production of non-alcoholic beer in the brewing industry could help in a health-oriented campaign for safe drinks that could be helpful in the control of blood glucose levels of diabetic patients.
为了使功能性食品在疾病管理和预防中更易于使用,功能性食品的产品开发和强化已成为近期的研究重点。因此,本研究试图利用酿造行业近期在生产无酒精啤酒方面的趋势,通过研究用苦叶(一种广为人知且据报道具有强大降血糖作用的植物)来调味无酒精啤酒的可能性,以替代传统使用的啤酒花,并研究所生产的啤酒对血糖指数以及作为2型糖尿病(T2D)生物标志物的各种糖尿病生化参数的影响。研究了100%啤酒花(HP)、100%苦叶(BL)、75:25苦叶、50:50苦叶和25:75苦叶比例的苦叶风味无酒精小麦啤酒(NAWB)对高脂饮食/链脲佐菌素(HFD/STZ)诱导的T2D白化Wistar大鼠相关酶的血糖指数以及抑制潜力。各样本的淀粉(1.72 - 1.77毫克/100毫升)、直链淀粉(0.22 - 0.24毫克/100毫升)和支链淀粉(1.49 - 1.53毫克/100毫升)含量之间无显著差异(p>0.05)。样本的血糖指数(GI)范围为36至73,其中75:25苦叶和50:50苦叶比例的样本值最低(36)。这些样本降低了血糖水平,并抑制了胰腺α -淀粉酶、脂肪酶和肠道α -葡萄糖苷酶的活性。这些啤酒样本对α -淀粉酶和α -葡萄糖苷酶的抑制潜力以及它们降低糖尿病大鼠血糖水平的能力,使得苦叶风味的NAWB成为一种适合糖尿病患者更好地控制血糖的健康饮品。实际应用:本研究揭示了生产苦叶风味无酒精小麦啤酒作为啤酒花可能替代品的潜力。苦叶在2型糖尿病管理中的内在潜力因此可以通过无酒精啤酒这种影响深远的饮料媒介来发挥作用,以帮助治疗/管理T2D。本研究结果可能会让人意识到苦叶以及其他据报道可用于管理T2D的植物的潜在用途。在酿造行业中使用苦叶替代啤酒花生产无酒精啤酒有助于开展以健康为导向的安全饮品宣传活动,这可能有助于控制糖尿病患者的血糖水平。
