Teores de minerais em polpas e cascas de frutos de cultivares de bananeira

O objetivo deste trabalho foi determinar a percentagem de matéria seca, o teor de minerais e a capacidade de fornecimento de minerais, com base na ingestão dietética de referência na polpa e na casca de frutos verdes e maduros de 15 cultivares de bananeira. Utilizaram-se quatro cachos por cultivar e seis frutos por unidade amostral. Foram coletadas amostras frescas da polpa e da casca, para digestões sulfúricas (0,2 g) e nitroperclóricas (0,5 g). Foram determinados: no extrato sulfúrico, o N total pelo método Kjeldahl; e, no extrato nitroperclórico, P, K, Ca, Mg, Cu, Mn, Fe, Zn e Se. O P foi determinado por colorimetria, e os demais nutrientes, por espectrofotometria de absorção atômica. O teor de minerais na polpa e na casca foi expresso com base na média dos dois estádios. Há diferenças entre cultivares de bananeira quanto à concentração de macro e micronutrientes na polpa e na casca, mas não entre frutos verdes e maduros. A cultivar Terrinha apresentou a maior percentagem de matéria seca na polpa, e as cultivares Marmelo e Maçã, na casca. Para N, P, Fe, Zn e Cu, a casca apresentou duas vezes o teor da polpa. O teor de K e Mn na casca foi de aproximadamente quatro vezes o da polpa. A polpa da cultivar Caipira (AAA) e a casca das cultivares Prata e Pacovan (AAB) apresentam os maiores teores de minerais

Extruded Unripe Plantain Flour as an Indigestible Carbohydrate-Rich Ingredient

There is a growing interest in the development of functional ingredients, including those with high indigestible carbohydrate content. Unripe plantain flour (UPF) is a source of indigestible carbohydrates, type II resistant starch (RS) in particular. A major drawback of UPF, however, is that its RS content decreases sharply after wet heat treatment. Here, we explore the possibility of preparing an extruded UPF-based functional ingredient that retains limited starch digestibility features and high dietary fiber content. Both an unripe plantain pulp flour (UPFP) and a whole (pulp and peel) unripe plantain flour (UPFW) were prepared, extruded under identical conditions and evaluated for their gelatinization degree, total starch (TS), resistant starch (RS), and total dietary fiber (TDF) content; functional properties, such as pasting profile, water retention capacity, and solubility, and oil absorption index were also analyzed. The extruded functional ingredient was added to a yogurt and the rheological characteristics and in vitro starch digestibility of the product were evaluated. The extruded UPFW showed a lower gelatinization degree than the extruded UPFP, which may be due to the higher non-starch polysaccharide content of the former. A high TDF content was recorded in both extrudates (12.4% in UPFP and 18.5% in UPFW), including a significant RS fraction. The water retention capacity and solubility indices were higher in the extruded flours, particularly in UPFW, while only marginal differences in oil retention capacity were observed among the products. The addition of UPFP or UPFW (1.5 g TDF, w/v) to a yogurt did not alter the viscosity of the product, an important characteristic for the consumer's approval. Moreover, the composite yogurt showed a relatively low starch digestion rate. Extrusion of UPFs may be an alternative for the production of functional ingredients with important DF contents

Effect of the preparation method on structural and in vitro digestibility properties of type II resistant starch-enriched wheat semolina pasta

The formulation of semolina pasta with reduced starch digestibility is of prime importance to deal with the adverse effects of the intake of rapidly digested carbohydrates on human health. This work focused on the effects of the production method (extrusion and lamination) and the addition of commercial Type 2 resistant starch (RS) on the molecular organization and in vitro starch digestibility of semolina pasta. Semolina was substituted with different levels of Type 2 RS for assessing the effect of this dietary fiber. The RS addition reduced the protein solubility and accessible thiols groups, with extruded pasta having higher protein solubility and lower accessible thiols than laminated pasta. Starch ordered structures increased with the RS addition. The increase of the RS in the pasta formulation resulted in a higher α-helix content and decreased β-sheet structures. In vitro starch digestibility was higher for extruded pasta, whilst the levels of RDS and SDS fractions decreased with the addition of RS. It was concluded that the preparation method in combination with RS addition has a determinant impact on the molecular organization and in vitro starch digestibility of semolina-based pasta, providing new insights on the possibilities of improving the health-beneficial features of this widely consumed product