Fogaça, Fabíola H S. [UNESP]Trinca, Luzia Aparecida [UNESP]Bombo, Áurea JulianaSilvia Sant'Ana, Léa [UNESP]2014-05-272014-05-272013-06-01Journal of Food Quality, v. 36, n. 3, p. 209-216, 2013.0146-94281745-4557http://hdl.handle.net/11449/75551The by-products generated from industrial filleting of tilapia surimi can be used for the manufacture of surimi. The surimi production uses large amounts of water, which generates a wastewater rich in organic compounds (lipids, soluble proteins and blood). Optimizing the number of washing cycles will contribute to a more sustainable production. A mathematical model of mechanically recovered tilapia meat (Oreochromis niloticus) for the processing of surimi (minced fish washing cycles and tapioca starch addition) based on two quality parameters (texture and moisture) was constructed by applying the response surface methodology (RSM). Each factor had an important effect on the moisture and texture of surimi. This study found that the optimal formulation for producing the best surimi using the by-products of tilapia filleting in manufacturing fish burger were the addition of 10% tapioca starch and three minced fish washing cycles. A microstructural evaluation supported the findings of the mathematical model. Practical Applications: The use of mechanically recovered fish meat (MRFM) for the production of surimi enables the utilization of the by-products of filleting fish. However, the inferior quality of the surimi produced from MRFM in relation to that produced with fillets necessitates the addition of starch; secondly, surimi production consumes a large volume of water. RSM provides a valuable means for optimizing the number of washing cycles and starch amounts utilized in fish burger production. Tapioca starch, widely produced in Brazil, has desirable characteristics (surface sheen, smooth texture, neutral taste and clarity in solution) for use in MRFM-produced surimi. © 2013 Wiley Periodicals, Inc.209-216engInferior qualityMicrostructural evaluationOptimal formulationOreochromis niloticusQuality parametersResponse surface methodologySoluble proteinsSustainable productionManufactureMathematical modelsMoistureOptimizationRecoveryStarchSurface propertiesTexturesWashingFishManihot esculentaTilapiaArtigo10.1111/jfq.12019WOS:000319834700007Acesso restrito2-s2.0-848786135213720489366427955