Characterization of plant-based meat alternatives blended with anthocyanins, chlorophyll, and various edible natural pigments

Abstract

ABSTRACT The objective of this study was to characterize the physicochemical, proximal, textural, and visual properties of plant-based meat (PBM) patties blended with natural pigments such as anthocyanin from black beans, Fe-chlorophyll from spinach, and edible red and purple pigments. A comparison was made between these plant-based pigments and the pigments derived from animal-based sources (control). The values of the color coordinates of the developed patties were broadly distributed (L* [lightness], a* [redness], and b* [yellowness] of raw PBMs: 34–53, 2–25, and 4–27; steamed: 29–42, 4–21, and 5–25; and cooked: 28–43, 5–19, and 9–21, respectively). The proximate chemical analysis revealed no (P > .05) significant difference between the PBMs and the control in terms of moisture (63.28–61.25), crude protein (20.98–19.17) crude fat (3.19–2.92) and ash content (3.80–1.71). Nevertheless, significant differences (P < .05) were observed in textural attributes among all samples (S1-S16) in terms of hardness, chewiness, and gumminess. For instance, hardness (6.39–3.72), chewiness (9.27–4.13), and gumminess (3.04–1.60). Conversely, springiness showed considerable variations (P < .05) in a majority of PBM samples except for S1 (dilute red) (3.06) and S4 (paprika) (3.06) than control (3.31). For DPPH radical scavenging activity of patties samples incorporated with, the S10 (Red Cabbage) (19.95), S13 (Grape skin Color) (24.35), S15 (Anthocyanin) (33.12), and S16 (Fe-pheophytin) (18.69) of PBMs had significantly higher activity (P < .05) than the control (5.14). To sum up, the inclusion of natural pigments in PBM resulted in improved overall properties without any deleterious effects.