Hilaj Nikolin, Boit Tele, Andang'o Pauline, Zeder Christophe, Mwangi Martin N, Hummel Marijke, Velazco Ornella Necochea, van Loon Joop J A, Dicke Marcel, Zimmermann Michael B, Melse-Boonstra Alida
Human Nutrition Laboratory, Institute of Food, Nutrition and Health, ETH Zürich, Switzerland.
Nestlé, Berne, Switzerland.
Nat Commun. 2025 Jan 24;16(1):1003. doi: 10.1038/s41467-025-56259-1.
Edible insects have been proposed as a novel and sustainable source of protein and other essential nutrients for human consumption but nutrient absorption efficiency is still uncertain. We investigated zinc absorption from house crickets (Acheta domesticus) in a single-center and single-blinded cross-over study with children aged 24-36 months old in Kenya from September-November 2021. For this, children were randomized to consume two different experimental meals labeled with stable isotopes of zinc (Zn) at two different days, separated by a wash-out period of one month. Primary endpoints were the differences in amount of absorbed zinc (AZ) from maize-based meals enriched with intrinsically Zn-labeled house crickets (2.61 mg Zn, n = 28) in comparison with meals enriched with Zn (low-enriched: 0.90 mg Zn, n = 29); high-enriched: 3.24 mg Zn, n = 28) or with intrinsically Zn-labeled low-chitin cricket flour (2.51 mg Zn, n = 25), whereas the secondary endpoints were the differences in fractional zinc absorption. We found that AZ from meals with whole crickets (geometric mean: 0.36 mg; 95%CI: 0.30, 0.43) was 2.6 times higher than from low-enriched maize meals (0.14 mg; 0.11, 0.16; P < 0.001), while it was not different from low-chitin cricket flour meals. Absorbed zinc from both cricket meals was higher than that from high-enriched meals. No severe adverse side events were reported. We conclude that edible house crickets are a good source of well-absorbable zinc, and their increased consumption could contribute to the alleviation of zinc deficiency. This trial was registered at the Pan African Clinical Trials Registry as PACTR202104533831364.
食用昆虫已被提议作为一种新型的可持续蛋白质及其他必需营养素来源供人类食用,但营养吸收效率仍不确定。2021年9月至11月,我们在肯尼亚开展了一项单中心、单盲交叉研究,调查24至36个月大儿童对家蟋蟀(Acheta domesticus)中锌的吸收情况。为此,将儿童随机分组,在两个不同日期食用两种用锌的稳定同位素标记的不同实验餐,中间间隔一个月的洗脱期。主要终点是与富含锌的餐食(低富集:0.90毫克锌,n = 29;高富集:3.24毫克锌,n = 28)或富含天然锌标记的低几丁质蟋蟀粉的餐食(2.51毫克锌,n = 25)相比,富含天然锌标记家蟋蟀的玉米基餐食(2.61毫克锌,n = 28)中吸收锌量(AZ)的差异,而次要终点是锌的分数吸收差异。我们发现,整只蟋蟀餐食的AZ(几何平均数:0.36毫克;95%置信区间:0.30,0.43)比低富集玉米餐食(0.14毫克;0.11,0.16;P < 0.001)高2.6倍,而与低几丁质蟋蟀粉餐食无差异。两种蟋蟀餐食吸收的锌均高于高富集餐食。未报告严重不良副作用。我们得出结论,可食用家蟋蟀是易于吸收的锌的良好来源,增加其摄入量有助于缓解锌缺乏。该试验已在泛非临床试验注册中心注册,注册号为PACTR202104533831364。
