Defesa de Tese – Study oh the technology and nutritional potencials of pumpkin seed (Cucurbita maxima)
Data da publicação: 4 de julho de 2024 Categoria: Sem categoriaData: 11/07/2024 – 8h30 –
Autor(a): Sâmela Leal Barros – Matr.: 486188
Banca Examinadora:
Profª. Dra. Lucicléia Barros de Vasconcelos Torres – orientadora – UFC
Profª. Dra. Ana Paula Colares de Andrade – UFC
Profª. Dra. Larissa Morais Ribeiro da Silva – UFC
Prof. Dr. Tiago Lima de Albuquerque – DEAL/UFC
Profª. Dra. Ana Júlia de Brito Araújo Carvalho – IFSPE
Local: MODALIDADE HÍBRIDA Plataforma Meet – SALA DE AULA DO PPGCTA – Bloco 858 – 1º andar – Campus do PICI.
Abstract:
This comprehensive study investigates the optimization of the drying process of pumpkin seeds using ultrasound technology and evaluates the efficacy of different encapsulating agents in the protection and release of oil extracted from these seeds, focusing on their antioxidant properties, total phenolics, and instrumental color characteristics. The research highlights the underutilized potential of pumpkin seeds, emphasizing their exceptional nutritional value and exploring methods to extend their shelf life and improve their applicability in food products. Convective drying, despite inducing nutrient loss, is identified as a valuable technique for utilizing these residues, while oil extraction from pumpkin seeds is proposed as a promising approach due to its high nutritional value. The optimization of the drying process was carried out through a 23 + 3 central points experimental design, using Statistica 7.0 software, and the effectiveness of ultrasound pretreatment in improving drying was evaluated, despite observing vitamin C degradation. The analysis included the evaluation of parameters such as moisture content, water activity, drying time, pH, acidity, vitamin C concentration, protein content, color, antioxidant activity, and the profile of phenolic compounds, with the Page model demonstrating a better fit to the experimental data. Furthermore, the study examines the efficacy of different encapsulating agents – modified maltodextrin (Capsul – C), conventional maltodextrin (M), and a combination of both (CM) – in the protection and release of pumpkin seed oil, using Principal Component Analysis (PCA) to understand the correlations among the studied parameters. An in vitro gastrointestinal tract model was developed to simulate the oral, gastric, and intestinal phases, allowing for a detailed assessment of the microcapsules’ release behavior. The results revealed significant differences in antioxidant capacity and oil release among the samples encapsulated with different agents, underlining the influence of the type of encapsulant on the protection and release of the oil. Statistical analysis indicated that the lowest release rates occurred in the salivary fluid phase, suggesting that the microcapsule wall composition offers effective protection against early degradation. This study contributes to the fields of food engineering and encapsulation technology, providing insights into the performance of encapsulating agents in protecting bioactive compounds and has practical implications for the development of functional food products, where controlled release of active ingredients is desirable. It paves the way for future investigations into the optimization of encapsulation techniques for the effective delivery of nutrients and bioactive compounds in the gastrointestinal tract.
Keywords: Ultrasound; Experimental design; Phenolic compounds profile; Encapsulation; Controlled release in the gastrointestinal tract; Encapsulating agents; Modified maltodextrin