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Changes occurring in stabilized ultra-high-temperature-treated whole milk during storage

Published online by Cambridge University Press:  22 August 2018

Fernando César dos Santos ,
Fabiano Érisson da Cunha ,
Érika de Pádua Alves ,
Flávia de Almeida Bergonse Pereira ,
Elsa Helena Walter de Santana  and
Bruno Garcia Botaro
Fernando César dos Santos
Affiliation:
Dairy Science and Technology Graduate Programme, University North of Paraná (UNOPAR), Londrina, 86041-100, Brazil
Fabiano Érisson da Cunha
Affiliation:
Department of Quality Assurance and Food Safety, CONFEPAR Cooperative Inc., Londrina, 86066-000, Brazil
Érika de Pádua Alves
Affiliation:
Dairy Science and Technology Graduate Programme, University North of Paraná (UNOPAR), Londrina, 86041-100, Brazil Department of Quality Assurance and Food Safety, CONFEPAR Cooperative Inc., Londrina, 86066-000, Brazil
Flávia de Almeida Bergonse Pereira
Affiliation:
Dairy Science and Technology Graduate Programme, University North of Paraná (UNOPAR), Londrina, 86041-100, Brazil
Elsa Helena Walter de Santana
Affiliation:
Dairy Science and Technology Graduate Programme, University North of Paraná (UNOPAR), Londrina, 86041-100, Brazil
Bruno Garcia Botaro*
Affiliation:
Dairy Science and Technology Graduate Programme, University North of Paraná (UNOPAR), Londrina, 86041-100, Brazil Department of Quality Assurance and Food Safety, CONFEPAR Cooperative Inc., Londrina, 86066-000, Brazil
*
*For correspondence; e-mail: botaro.bruno@gmail.com
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Abstract

This Research Communication describes the relationship between casein, free fatty acids (FFAs) and the storage period of ultra-high temperature-treated (UHT) whole milk observed for a period of 120 d of labelled shelf-life. Moreover, we aim to estimate the daily rate of casein degradation in UHT whole milk, and the total length of time estimated for its full degradation. With this aim, ten sets of samples were evaluated from batches of UHT milk manufactured by a dairy processing plant in Parana State, Brazil on 10 different days. Each set was comprised of one liter of raw milk and 12 units of 1 litre cartons of UHT milk, and represented one batch of production. Total mesophilic (TMC), psychrotrophic (TPC), and somatic cell counts (SCC) of raw milk were assessed. UHT milk was assessed for fat (%), sialic acid (mg/l), casein (%), and FFA contents. TMC ranged from 3·5 × 106 to 3·1 × 107 CFU/ml; TPC, from 106 UFC/ml and higher; and SCC, from 18 × 104 SC/ml to 4·83 × 105 CS/ml. Casein (r = −0·991; R2 = 0·9822) and FFA (r = 0·962; R2 = 0·9245) contents, and storage time of UHT milk were correlated (P < 0·05). The rate of casein hydrolysis was estimated as 0·021 g/100 g UHT whole milk/day. A complete breakdown of casein was estimated to occur by the 560th day post-manufacture. Although age gelation was not observed in our study, the report herein corroborates the understanding that the microbiological quality and SCC of raw milk are important components involving the integrity of casein and lipids of UHT milk during shelf-life.

Keywords

Age gelationraw milk qualityheat treated milk
Type
Research Article
Information
Journal of Dairy Research , Volume 85 , Issue 4 , November 2018 , pp. 449 - 452
Copyright
Copyright © Hannah Dairy Research Foundation 2018 

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Footnotes

Current address: Livestock Systems Research Department, Animal & Grassland Research and Innovation Centre Teagasc, Moorepark, Fermoy, Co. Cork, P61C 996, Ireland.

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