Banana leathers as influenced by polysaccharide matrix and probiotic bacteria

IF 4.6 Q1 CHEMISTRY, APPLIED
Carolina Madazio Niro , Jackson Andson de Medeiros , Joana Dias Bresolin , Ana Paula Dionísio , Mateus Kawata Salgaço , Katia Sivieri , Henriette M.C. Azeredo
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引用次数: 2

Abstract

Concerns abouth diet-health relationships have led many people to include healthier snacks in their diets, including those with functional (including probiotic) properties. This study was focused on development of probiotic-loaded banana leathers. Two probiotic bacteria (the spore-forming Bacillus coagulans and the conventional non-spore-forming Lactobacillus acidophilus) and two polymeric matrices (digestible cassava starch and non-digestible bacterial cellulose - BC) have been used. The presence of probiotic bacteria (mainly L. acidophilus) reduced the tensile strength, elastic modulus and shear force of the leathers, while the BC-based leathers were stronger, stiffer and more resistant to shear stress than the starch-based ones. While a high probiotic viability was kept on fruit leathers loaded with B. coagulans during drying and room-temperature storage, those loaded with L. acidophilus suffered high viability losses upon drying, which was ascribed to osmotic stress. The nature of the biopolymeric matrix has not significantly influence the bacterial viability losses along processing and storage, or the final viable cell count released into the intestine (as assessed using an INFOGEST static in vitro simulated digestion model). The banana leathers loaded with B. coagulans were well accepted, irrespectively of being produced from BC or starch, although some negative comments on the texture and flavor of the BC-based ones have been more frequent than with the starch-based ones.

Abstract Image

多糖基质和益生菌对香蕉革革的影响
对饮食与健康关系的担忧导致许多人在饮食中加入更健康的零食,包括那些具有功能性(包括益生菌)特性的零食。本研究的重点是益生菌香蕉革的开发。使用了两种益生菌(形成孢子的凝结芽孢杆菌和传统的不形成孢子的嗜酸乳杆菌)和两种聚合基质(可消化的木薯淀粉和不可消化的细菌纤维素- BC)。益生菌(主要是嗜酸乳杆菌)的存在降低了皮革的拉伸强度、弹性模量和剪切力,而bc基皮革比淀粉基皮革更强、更硬、更耐剪切应力。在干燥和室温贮藏过程中,含有凝固芽孢杆菌的果皮保持了较高的益生菌活力,而含有嗜酸乳杆菌的果皮在干燥过程中由于渗透胁迫而失去了较高的益生菌活力。生物聚合物基质的性质对处理和储存过程中的细菌活力损失或最终释放到肠道中的活细胞计数没有显著影响(使用INFOGEST静态体外模拟消化模型进行评估)。含有B.凝固物的香蕉皮被广泛接受,无论是由BC还是淀粉生产,尽管对BC基香蕉皮的质地和味道的负面评论比淀粉基香蕉皮更频繁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.50
自引率
0.00%
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审稿时长
61 days
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