Employing fluorescence spectroscopy and the membrane-embedded dye Laurdan we experimentally show broad order-disorder-transitions in membranes of various cell lines and red blood cell ghosts. A custom-made setup allows for the determination of fluorescence spectra and the determination of the generalized polarization (GP) as a measure for membrane order in the temperature range of -40°C to +90°C of µl-volumes of cell suspension. While artificial lipid membranes like phosphatidylcholine show sharp transitions as known from calorimetry measurements, living cells in a physiological temperature range do only show linear changes in generalized polarization. However, extending the temperature range shows the existence of broad transitions and their sensitivity to cholesterol content, pH and anaesthetic. Moreover, adaptation to culture conditions like decreased temperature and morphological changes like detachment of adherent cells or dendrite growth are accompanied by changes in membrane order as well. The observed GP changes are equivalent to temperature changes dT in the range of -12K < dT <+6K