Cycled high hydrostatic pressure processing of whole and skimmed milk: effects on physicochemical properties

Research output: Contribution to journalJournal articlepeer-review

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Cycled high hydrostatic pressure processing of whole and skimmed milk : effects on physicochemical properties. / Yang, Shuailing; Liu, Guanchen; Munk, Daniel M. E.; Qin, Zihan; Petersen, Mikael A.; Cardoso, Daniel R.; Otte, Jeanette; Ahrné, Lilia.

In: Innovative Food Science and Emerging Technologies, Vol. 63, 102378, 2020.

Research output: Contribution to journalJournal articlepeer-review

Harvard

Yang, S, Liu, G, Munk, DME, Qin, Z, Petersen, MA, Cardoso, DR, Otte, J & Ahrné, L 2020, 'Cycled high hydrostatic pressure processing of whole and skimmed milk: effects on physicochemical properties', Innovative Food Science and Emerging Technologies, vol. 63, 102378. https://doi.org/10.1016/j.ifset.2020.102378

APA

Yang, S., Liu, G., Munk, D. M. E., Qin, Z., Petersen, M. A., Cardoso, D. R., Otte, J., & Ahrné, L. (2020). Cycled high hydrostatic pressure processing of whole and skimmed milk: effects on physicochemical properties. Innovative Food Science and Emerging Technologies, 63, [102378]. https://doi.org/10.1016/j.ifset.2020.102378

Vancouver

Yang S, Liu G, Munk DME, Qin Z, Petersen MA, Cardoso DR et al. Cycled high hydrostatic pressure processing of whole and skimmed milk: effects on physicochemical properties. Innovative Food Science and Emerging Technologies. 2020;63. 102378. https://doi.org/10.1016/j.ifset.2020.102378

Author

Yang, Shuailing ; Liu, Guanchen ; Munk, Daniel M. E. ; Qin, Zihan ; Petersen, Mikael A. ; Cardoso, Daniel R. ; Otte, Jeanette ; Ahrné, Lilia. / Cycled high hydrostatic pressure processing of whole and skimmed milk : effects on physicochemical properties. In: Innovative Food Science and Emerging Technologies. 2020 ; Vol. 63.

Bibtex

@article{4ab5080cc83e4765a512220a2d575334,
title = "Cycled high hydrostatic pressure processing of whole and skimmed milk: effects on physicochemical properties",
abstract = "In this study, we compare the effects of single- and double-cycle HP treatments at 600 MPa on inactivation of the natural microflora and physicochemical properties of whole and skimmed milk of high bacterial load. The results show that two-cycled HP (2 × 2.5 min) was more effective (P < 0.05) on microbial inactivation, and caused similar or slightly less changes (P > 0.05) in physicochemical properties of milk in comparison to single cycled HP (1 × 5 min). In addition to the expected milk protein structure changes, HP at 600 MPa caused only slight effects on milk fat and lactose. Minor decreases in levels of short chain fatty acids were observed with the cycled treatments, and the volatiles in general decreased after HP treatment, depending mostly on the pressure time but also on cycling in skimmed milk. The study confirmed the superior effect of two-cycle HP on microbial inactivation, and shows a slightly better preservation of the physical-chemical milk quality. Industrial relevance: Multi-cycling HP has been shown to be advantageous for microbial inactivation, but limited information is available regarding the effect on milk components in whole milk or skimmed milk. The present study compares the psychochemical properties of whole and skimmed milk processed by multi-cycling in comparison to single cycle HP treatment. Double cycled HP presented a superior effect on microbial inactivation and slightly better preservation of milk quality than one continuous HP.",
keywords = "Bovine milk, Fatty acids (FA), Microorganism inactivation, Nuclear magnetic resonance (NMR), Protein modification, Volatile compounds",
author = "Shuailing Yang and Guanchen Liu and Munk, {Daniel M. E.} and Zihan Qin and Petersen, {Mikael A.} and Cardoso, {Daniel R.} and Jeanette Otte and Lilia Ahrn{\'e}",
year = "2020",
doi = "10.1016/j.ifset.2020.102378",
language = "English",
volume = "63",
journal = "Innovative Food Science and Emerging Technologies",
issn = "1466-8564",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Cycled high hydrostatic pressure processing of whole and skimmed milk

T2 - effects on physicochemical properties

AU - Yang, Shuailing

AU - Liu, Guanchen

AU - Munk, Daniel M. E.

AU - Qin, Zihan

AU - Petersen, Mikael A.

AU - Cardoso, Daniel R.

AU - Otte, Jeanette

AU - Ahrné, Lilia

PY - 2020

Y1 - 2020

N2 - In this study, we compare the effects of single- and double-cycle HP treatments at 600 MPa on inactivation of the natural microflora and physicochemical properties of whole and skimmed milk of high bacterial load. The results show that two-cycled HP (2 × 2.5 min) was more effective (P < 0.05) on microbial inactivation, and caused similar or slightly less changes (P > 0.05) in physicochemical properties of milk in comparison to single cycled HP (1 × 5 min). In addition to the expected milk protein structure changes, HP at 600 MPa caused only slight effects on milk fat and lactose. Minor decreases in levels of short chain fatty acids were observed with the cycled treatments, and the volatiles in general decreased after HP treatment, depending mostly on the pressure time but also on cycling in skimmed milk. The study confirmed the superior effect of two-cycle HP on microbial inactivation, and shows a slightly better preservation of the physical-chemical milk quality. Industrial relevance: Multi-cycling HP has been shown to be advantageous for microbial inactivation, but limited information is available regarding the effect on milk components in whole milk or skimmed milk. The present study compares the psychochemical properties of whole and skimmed milk processed by multi-cycling in comparison to single cycle HP treatment. Double cycled HP presented a superior effect on microbial inactivation and slightly better preservation of milk quality than one continuous HP.

AB - In this study, we compare the effects of single- and double-cycle HP treatments at 600 MPa on inactivation of the natural microflora and physicochemical properties of whole and skimmed milk of high bacterial load. The results show that two-cycled HP (2 × 2.5 min) was more effective (P < 0.05) on microbial inactivation, and caused similar or slightly less changes (P > 0.05) in physicochemical properties of milk in comparison to single cycled HP (1 × 5 min). In addition to the expected milk protein structure changes, HP at 600 MPa caused only slight effects on milk fat and lactose. Minor decreases in levels of short chain fatty acids were observed with the cycled treatments, and the volatiles in general decreased after HP treatment, depending mostly on the pressure time but also on cycling in skimmed milk. The study confirmed the superior effect of two-cycle HP on microbial inactivation, and shows a slightly better preservation of the physical-chemical milk quality. Industrial relevance: Multi-cycling HP has been shown to be advantageous for microbial inactivation, but limited information is available regarding the effect on milk components in whole milk or skimmed milk. The present study compares the psychochemical properties of whole and skimmed milk processed by multi-cycling in comparison to single cycle HP treatment. Double cycled HP presented a superior effect on microbial inactivation and slightly better preservation of milk quality than one continuous HP.

KW - Bovine milk

KW - Fatty acids (FA)

KW - Microorganism inactivation

KW - Nuclear magnetic resonance (NMR)

KW - Protein modification

KW - Volatile compounds

U2 - 10.1016/j.ifset.2020.102378

DO - 10.1016/j.ifset.2020.102378

M3 - Journal article

AN - SCOPUS:85085241613

VL - 63

JO - Innovative Food Science and Emerging Technologies

JF - Innovative Food Science and Emerging Technologies

SN - 1466-8564

M1 - 102378

ER -

ID: 242653942