High pressure processing (HPP) is an alternative to the traditional thermal treatment. The physicochemical composition, instrumental color and bioactive compounds (carotenoid and phenolic compounds) were evaluated in two pumpkin purées after processing (HPP: 400-600 MPa and thermal treatment) and after storage. One sample of purée was taken in the industry after the first sieve and before the thermal blanching, and the other was taken after deaeration and before pasteurization. HPP of pumpkin purée presented some advantages compared to the thermal treatment such as lower color modifications after processing and during storage, and higher nutritional value (some carotenoid and polyphenol contents were higher in HPP). The application of initial pretreatments reduces the original color intensity of the purées, and thus diminishes the differences of HPP and the thermal treatment in this aspect. However, the application of pretreatments is a necessary step for the stabilization of pumpkin purées during storage.
PRACTICAL APPLICATIONSHydrostatic high pressure is a real alternative to thermal processing in determinate food products. Every year, new high pressure-processed products are in the market. However, only a few studies have evaluated the application of this technology in an industrial line of vegetable processing, which present some particularities (thermal pretreatments and additives are usually added). This paper presents valuable information for the application of high pressure processing at industrial level.
The effect of Holder pasteurisation (HoP) (62.5°C for 30 min) or high-pressure treatments (400 or 600 MPa for 3 or 6 min) on the volatile compound profile of human breast milk was evaluated, in order to compare both preservation technologies. A total of 46 different volatile compounds was found in milk samples. The most abundant compounds detected were aliphatic hydrocarbons. In general, the effect of some high-pressure treatments on the volatile profile of human milk was less intense than that caused by HoP. The treatments at 400 and 600 MPa for 3 min maintained the volatile compounds at similar levels to those found in control milk samples. However, the application of 600 MPa for 6 min changed the original volatile compounds of human milk, even more than HoP. Since, HPP at 400 or 600 MPa for 3 min preserved the original volatile compounds of human milk, this novel process may be an alternative to thermal pasteurisation.
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