Studying physiochemical changes in a new pasta product containing beef heart by vibrational spectroscopy

A new pasta product was developed by partially replacing durum wheat flour with beef heart to enhance its nutritional value. Physiochemical changes of the pasta were investigated by vibrational spectroscopy, namely Fourier transform infrared (FT-IR) and Raman spectroscopy. Relationships between pasta texture and the intensity of vibrational spectra were established. Lipid-protein complex formation, β-sheet arrangement, degree of polysaccharide polymerization, and cysteine thiol group were related to hardness and chewiness of pasta. The lipid portion and β-sheet structure were two significant parameters for explaining pasta adhesiveness, while pasta firmness might be related to β-sheet alignment and the polysaccharide network. Pasta cohesiveness might involve the α-helical structures and hydrogen bonding formation in the gluten network. However, no variable met the p < 0.1 significance level for inclusion into the model to explain pasta springiness. These results reveal that FT-IR and Raman spectroscopy could be employed to evaluate the physical chemistry of pasta and showed a potential use for quality assessment in pasta products.