A new design intended to relate high pressure treatment to yeast cell mass transfer.

A new optical device has been developed to allow the observation of microorganisms during a high pressure treatment up to 700 MPa. To measure cell volume variation during the high pressure application, an image analysis system was connected with the light microscope. With this device, growth of Saccharomyces cerevisiae was studied at moderate pressure (10 MPa) through the observation of individual cell budding. Cell volume variations were also measured on the yeast Saccharomycopsis fibuligera on fixed cells as well on a population sample and a shrinkage in average cell volume was observed consequently to a pressure increase of 250 MPa. The observed compression rate (25%) under pressure and the partial irreversibility of cell compression (10%) after return to atmospheric pressure lead to the conclusion that a mass transfer between cell and cultivation medium occurred. The causes of this transfer could be explained by a modification of membrane properties, i.e., disruption or increase in permeability.