Instability of Pressure-Treated Reconstituted Skim Milk to Acidification

When high-pressure (HP)-treated reconstituted skim milks (200–600 MPa/5–30 min) were acidified with glucono-δ-lactone, the elastic modulus (G′) displayed atypical behaviour with pH, increasing as the pH decreased between 6.0 and 5.3, indicating that a weak gel had formed as soon as the pH of the milk decreased. The formation of a weak gel at pH 6.0 to 5.3 indicates that HP milks are more unstable to acidification than untreated or heated milks; this effect has not been previously reported. Untreated and heated (90 °C/30 min) milks did not show an increase in G′ until the pH was below 4.9 and 5.3, respectively. Frequency sweeps confirmed that the HP-treated milks formed weak gels at pH much higher than where typical acid gelation of milk occurs. Microstructural and particle size analyses indicated that the HP-treated milks started aggregating as soon as the pH declined whereas the heated milks did not aggregate until the pH was below 5.5. Heat treatment of milk either before or after HP treatment completely eliminated the weak gelation as these samples did not form gels until the pH decreased below pH 5.3. It is apparent that the restructured colloidal particles formed when milk is HP treated are unstable to acidification, and it is proposed that the redistributed κ-casein cannot stabilize these particles when the milk is acidified. The role of denatured whey proteins in the weak gelation phenomenon is unclear.