'Exponential peeling' of ventilatory transients following inhalation of 5, 6 and 7% CO2.

The 'exponential peeling' technique has been applied to minute ventilation and tidal volume transients occurring after the abrupt removal of 7, 6 and 5% CO2 in inspired air. These transients, in many cases, were found to be composed of three exponential components, each contributing to the total ventilatory response and each having individual time responses. Gelfand and Lambertsen (1973) have attributed these components to the peripheral chemoreceptors as a group and to two central chemoreceptors. Statistical analysis to determine the constancy of the contribution of the three components over the range of CO2 values studied showed that, although the values for each at the different stimulus levels were not significantly different, the great subject-to-subject variation in the data precluded a firm conclusion about the constancy of the components. Because of a number of considerations it was concluded that exponential peeling of respiratory transients following abrupt removal of CO2 inhalation is not a satisfactory way to approach the problem of the numbers, relative contributions and time responses of the various receptor groups comprising the respiratory controller.