Multifractal analysis of meat-analog based coated fried foods texture profile

• Published in: Food Structure Vol. 39; p. 100363
• Main Authors: Bhuiyan, Md. Hafizur Rahman, Yeasmen, Nushrat, Ngadi, Michael O.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.01.2024
• Subjects: batters; brittleness; canola oil; evolution; Fracture; fried foods; Frying; hardness; microstructure; principal component analysis; Rényi spectra; Scaling; Singularity spectra; Texture; wheat; Scaling; Singularity spectra; Fracture; Rényi spectra; Texture; Frying
• ISSN: 2213-3291; 2213-3291
• DOI: 10.1016/j.foostr.2023.100363

Texture profile of meat-analog (MA) based fried food products is a complex structure, and rarely studied subject. MA-based fried products mechanical-texture-profile were considered as “fractal geometry” to characterize their textural properties by employing complex statistical approach namely multifractal analysis (MFA). Wheat and rice flour-based batter systems were used to coat the MA, and were fried (at 180 °C) for 2, 4, and 6 min in canola oil. Instrumental puncture test was employed to get mechanical-texture-profile of MA-based fried products and obtained profile was evaluated by MFA. Results revealed that batter-formulation and frying time (FT) impacts the evolution of textural attributes (hardness, brittleness, crispiness), moisture-fat profile and microstructural properties of MA-based coated fried product. The MFA outcomes (Singularity spectra & Rényi spectra) depicts that breakage structure (force distribution) of studied MA-based fried products are non-homogeneous and possesses multifractal scaling behavior. Higher heterogeneity of force distribution is observed in lower concentration of force at outer-crust region compared to inner-core region of coated MA. Heterogeneity of force distribution are positively correlated with FT. Batter-formulation showed substantial impact on texture-profile of MA-based coated fried products and consequently influenced the obtained multifractal parameters. Principal component analysis (PCA) reveals varying extent of correlation between moisture-fat, textural attribute, microporosity and selected multifractal parameters (Δα, Δfα, R-L, ΔD) of fried MA. Complex structural pattern of batter coated fried meat-analog (MA)s mechanical texture profile have been successfully and statistically characterized by employing multifractal analysis. This study unraveled the interdependencies among batter-formulation, frying process, mass-profile, microstructure, textural attributes and multifractal parameters. Findings of this study could be used to customize textural attributes of the low fat-containing fried foods. Overall, this work will serve as a ground for designing the production process of emerging MA-based batter-coated fried product. [Display omitted] •Batter formulation and frying time controls moisture-fat profile, textural traits and microstructure of meat-analog (MA) based fried foods.•Mechanical texture profile of fried MA-based coated products are Multifractal geometry.•Multifractal analysis (MFA) shows heterogeneous force distribution results hard, brittle and crispy texture in MA-based coated fried food.•Batter formulation and/or frying time can offer desired textural traits in MA-based coated fried food.