Abstract
The wild passion fruit species Passiflora setacea, Passiflora alata, and Passiflora tenuifila are native to the Brazilian biomass. The seed waste generated from the extraction of passion fruit juice contains functional polyunsaturated fatty acids and phenolic compounds. The aims of this study were to obtain lipids and natural antioxidants from passion fruit seeds. Passion seed oils were extracted using a lab-scale continuous press and their oxidative stability was evaluated using the Rancimat® method. Higher antioxidant extract capacity was observed when using an ethanol-water solution (70:30) at 45 ºC. In these cases, the total phenolic contents expressed as gallic acid equivalents from P. setacea, P. alata, and P. tenuifila cakes were approximately 1800, 600 and 900 mg·100g−1 of extract. Induction periods increased up to two-fold when adding these extracts to their respective seed oil. Therefore, passion fruit seed extract can contribute to increasing the oxidative stability of polyunsaturated oils.
Subject
Organic Chemistry,Food Science
Reference21 articles.
1. American Oil Chemists' Society. 2004. Official methods and recommended practices of the American Oil Chemists' Society. 4th ed. Champaign, USA: A.O.C.S.
2. Bernacci LC, Meletti LMM, Soares-Scott MD. 2003. Maracujá-doce: o autor, a obra e a data da publicação de Passiflora alata (Passifloraceae). Rev. Bras. Frutic. Jaboticabal 25 (2), 355-356, agosto 2003.
3. Cunha MAP, Barbosa LV, Junqueira NTV. 2002. Espécies de maracujazeiro. In: LIMA, A. A. (Ed.). Maracujá Produção: Aspectos Técnicos. Brasília: Embrapa Informação Tecnológica, 104p. (Frutas do Brasil; 15).
4. Damodaran S, Parkin KL. 2017. Fennema's food chemistry. CRC press.
5. Dhawan K, Dhawan S, Sharma A. 2004. Passiflora: A review update. J. Ethnopharmacol. 94 (1), 1-23.
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