Photoacoustic analysis of some milk products in ultraviolet and visible light.

The research reported here demonstrates the possibility of using photoacoustic spectroscopy for milk product analysis. Milk products including yogurt, cheese, and market milk were analyzed in the ultraviolet visible range. A strong absorption peak was present at 280 nm for all the products. Relationship was linear between relative protein concentration of skim milk and the photoacoustic signal at 280 nm (r2 greater than .99). Powdered milks, prepared from skim milk that had been subjected to different heat treatments before drying, were analyzed, and a second absorption peak at 335 nm was noted for milks subjected to high heat treatment prior to the drying process. This second absorption peak appears associated with Maillard reaction products. Analysis of stored UHT heat-treated milk and infant formulas showed a similar peak at 335 nm. The results suggest that the Maillard reaction is initiated during UHT treatment of milk, and associated pigments develop only during storage. The presence of the 335-nm band in the photoacoustic spectra of infant formulas is considered as the result of heat sterilization. It is anticipated that as photoacoustic spectroscopy becomes more common, its usefulness in the milk industry, in particular, and in food science, in general, will increase.

[1]  S. Hotchandani,et al.  PHOTO ACOUSTIC SPECTRA OF PHYCOBILIPROTEINS and CHLOROPHYLLIN IN ISOTROPIC and ANISOTROPIC POLYVINYL ALCOHOL FILMS , 1985 .

[2]  R. Leblanc,et al.  Photoacoustic spectroscopy of Anacystis nidulans. I. Effect of sample thickness on the photoacoustic signal. , 1983, Archives of biochemistry and biophysics.

[3]  Pieter Walstra,et al.  Dairy chemistry and physics , 1984 .

[4]  G. C. Cheeseman,et al.  Developments in dairy chemistry—1: Edited by P. F. Fox. Applied Science Publishers Ltd, London, 1982. 409 pp. Price: £44.00 , 1983 .

[5]  L. P. Hansen,et al.  BLOCKAGE OF PROTEIN ENZYMATIC DIGESTION (CARBOXYPEPTIDASE-B) BY HEAT-INDUCED SUGAR-LYSINE REACTIONS , 1979 .

[6]  M. Feather,et al.  The Maillard reaction in foods and nutrition , 1983 .

[7]  H. W. Chan Biophysical methods in food research , 1984 .

[8]  R. Leblanc,et al.  ENERGY STORAGE IN THE PRIMARY PHOTOREACTION OF BOVINE RHODOPSIN. A PHOTOACOUSTIC STUDY , 1985, Photochemistry and photobiology.

[9]  Byron Horton Webb,et al.  Fundamentals of dairy chemistry , 1974 .

[10]  R. Leblanc,et al.  Depth-resolved chromophore analysis of bovine retina and pigment epithelium by photoacoustic spectroscopy. , 1986, Applied optics.

[11]  G. Kirkbright,et al.  Determination of moisture in single-cell protein utilising photoacoustic spectroscopy in the near-infrared region , 1980 .

[12]  D. Harmatz,et al.  Near-infrared photoacoustic spectroscopy of proteins. , 1984, Analytical biochemistry.

[13]  P. Griffiths,et al.  Photoacoustics and Photoacoustic Spectroscopy , 1981 .

[14]  Allen Gersho,et al.  Theory of the photoacoustic effect with solids , 1975 .