RESUMO
The objective of this study was to study the impact of pressing time on the microstructure of goat cheese and its relationship with sensory attributes. The microstructure of the artisanal cheeses was performed by scanning electron microscopy and image analysis. The validation of the microstructural complexity was carried out experimentally with sensory attributes. The pressing time influenced the microstructural parameters Feretmax, Geodiam, and τ and the cheese type influenced the parameters Feretmax, Geodiam, and Geoelong. The correlation values between microstructural complexity and sensory attributes were 0.85 and 0.84 for fresh cheeses and matured cheeses, respectively. The pressure times of 12 and 18 h resulted in cheese microstructures with the highest complexity in terms of Feretmax, Geodiam, Geoelong, and τ parameters. The obtained results are supported by the correlation values between microstructural complexity and sensory attributes.
Assuntos
Queijo , Manipulação de Alimentos , Cabras , Microscopia Eletrônica de Varredura , Paladar , Queijo/análise , Animais , Humanos , Fatores de Tempo , PressãoRESUMO
Resumen: Los métodos de extracción de fitoquímicos convencionales presentan bajos rendimientos o largos tiempos de proceso. El ultrasonido ofrece alternativas para incrementar el rendimiento en extractos vegetales. El objetivo de este trabajo fue evaluar el efecto de tres métodos de extracción en rendimiento, composición de compuestos fenólicos, actividad antioxidante y estabilidad de extractos de hojas de Plectranthus amboinicus (oreganón). Los métodos de extracción usados fueron: convencional con agitación (EC), asistida con baño de ultrasonidos (EABU) y asistida con sonda de ultrasonido (EASU). Se usó una proporción 1:10 (p/v) orégano:etanol a 35 ± 2 °C. Los rendimientos se calcularon como materia seca del extracto (% ms). Se usó un modelo de pseudo-segundo orden para ajustar las curvas de extracción experimentales de los tres métodos y obtener los parámetros cinéticos. Se determinaron compuestos fenólicos totales (CFT) y actividad antioxidante (AA) mediante los métodos de Folin-Ciocalteau y DPPH, respectivamente. Se evalúo la estabilidad del CFT y AA durante el almacenamiento. La EASU aumentó 33.93 % el rendimiento en los extractos con respecto a EC. La mayor concentración de CFT (P ≤ 0.05) se obtuvo mediante EABU (10.32 mg EAG/ms) y para AA mediante EC (19.43 mg ET/g ms). El modelo cinético de pseudo-segundo orden ajustó adecuadamente las cinéticas experimentales. La constante de velocidad (k) de CFT más alta fue de 0.016 g ms/mg EAG·min para la EASU, siendo esta técnica la que demostró una disminución significativa de AA con respecto al tiempo de extracción. Los CFT de los extractos obtenidos mediante EABU, EASU y EC (3.7 mg EAG/g ms, 4.4 mg EAG/g ms y 7.2 mg EAG/g ms, respectivamente), al igual que la AA se mantuvieron estables y sin cambios significativos (P ≥ 0.05) durante los 34 d de almacenamiento, mostrando nuevamente la ventaja de utilizar la técnica extractiva de ultrasonidos, en función del tiempo.
Abstract: Conventional phytochemicals extraction methods have shown low yields or very long processing times for obtaining. The ultrasound offers alternatives to increase the yields of plant extracts. The objective of this work was to evaluate the effect of three extraction methods on the yield, phenolic compound composition, antioxidant activity and stability of Plectranthus amboinicus (oregano) leaf extracts. The extraction methods used were: conventional heat-assisted extraction (CE), ultrasound water bath assisted (UBAE) and ultrasound probe assisted extraction (UPAE). A 1:10 (w/v) oregano:ethanol ratio was used at 35 ± 2 °C. Yields were calculated as extract dry matter (% ms). A pseudo-second-order model was used to fit the experimental extraction curves of the three methods and obtain the kinetic parameters. Total phenolic compounds (TPC) and antioxidant activity (AA) were determined by Folin-Ciocal-teau and DPPH methods, respectively. The stability of TPC and AA was evaluated during storage. UPAE increased 33.93 % yield in extracts concerning CE. The highest concentration of CFT (P ≤ 0.05) was obtained by UBAE (10.32 mg EAG/ms) and for AA by CE (19.43 mg ET/g ms). The pseudo-second-order kinetic model adequately fitted the experimental kinetics. The highest TPC rate constant (k) was 0.016 g ms/mg EAG·min, for UPAE, this technique being the one that demonstrated a significant decrease in AA with respect to extraction time. The TPC of the extracts obtained by UBAE, UPAE and CE (3.7 mg EAG/g dms, 4.4 mg EAG/g dms and 7.2 mg EAG/g ms, respectively), as well as the AA remained stable and without significant changes (P ≥ 0.05) during the 34 d of storage, again showing the advantage of using the ultrasound extractive technique, as a function of time.