Raw milk preservation by hyperbaric storage: Effect on microbial counts, protein structure and technological functionality

Food Res Int. 2022 Jun:156:111090. doi: 10.1016/j.foodres.2022.111090. Epub 2022 Mar 4.

Abstract

The possibility to apply hyperbaric storage (HS) at room temperature (20 °C) as a sustainable approach for preservation of raw skim milk was studied. Samples were stored at 200 and 150 MPa for up to 6 days. Optimal pressure for milk HS was found to be 150 MPa, since no clotting was detected for up to 6 days. 150 MPa-HS caused the irreversible inactivation of inoculated Escherichia coli (5.13 ± 0.33 logCFU mL-1) and Staphylococcus aureus (5.66 ± 0.93 logCFU mL-1) within 2 and 6 days, respectively. Inactivation of total and faecal coliforms (3.0 log reductions) below the detection limit was achieved after just 2 days, whereas lactic acid bacteria and coagulase-positive Staphylococci were inactivated after 6 days. Pressurized storage also caused an increase in proteose peptones and the release of submicelles from casein micelles. Micelles progressively aggregated with pressure-unfolded β-Lactoglobulin. These phenomena led to milk presenting up to 4-fold better foaming capacity, probably due to β-Lactoglobulin unfolding or higher proteose peptones content. This work demonstrated the capability of HS to guarantee milk preservation during storage, and brought attention on the opportunity to consider the technology for milk pasteurization and functionality improvement.

Keywords: Foaming properties; Hyperbaric storage; Microbial inactivation; Non-thermal pasteurization; Protein interaction; Raw milk.

MeSH terms

  • Animals
  • Lactoglobulins / analysis
  • Micelles*
  • Milk* / chemistry
  • Peptones / analysis
  • Technology

Substances

  • Lactoglobulins
  • Micelles
  • Peptones