Evaluation of the impact of hydrogen-rich water on the quality attribute notes of butter.

The effects of washing raw butter with hydrogen-rich water (HRW), prepared with hydrogen (H2) and/or magnesium (Mg), on butter quality were investigated in this research paper. During the washing process, titratable acidity (TA) decreased by 12% for all washed samples. During the storage period, TA increased by 28% and 93% (control), 14% and 58% (H2), and 10% and 66% (Mg) for the 60th and 90th days, respectively. Peroxide value (mEq O2/kg) increased to 2.76 and 8.83 (control), 1.92 and 7.25 (H2), and 2.02 and 8.12 (Mg) for the 60th and 90th days. HRW samples showed the lowest acid degree value (ADV) and the highest color notes (L*, C*, and h). The HRW treatment of raw butter has shown improving effects on the product without any harmful residuals in the final product or the environment.

Hydrogen-rich water can reduce the formation of biogenic amines in butter.

The formation of biogenic amines in food products forms a serious challenge for food producers and a hazard for consumers. Butter was washed by hydrogen-rich water (HRW) prepared using two methods, i.e. hydrogen-bubbled water (H2 water) and magnesium-incorporated water (Mg water). After 90 days of storage, the lowest formation levels of biogenic amines were shown for butter samples washed with HRW (H2 water and Mg water), while the highest levels were identified for the butter samples washed with normal water. Washing raw butter with HRW led to a significant decrease in tryptamine, 2-phenylethylamine, spermidine, and spermine formation. The lowest histamine level was shown for butter samples washed with H2 and Mg, while the highest level was found for butter washed with normal water. Washing butter with HRW revealed no inhibiting effect on yogurt bacteria during storage. The proposed method involves molecular hydrogen which is non-toxic for humans and the environment.