Since 1966 the domestic pig has served as the animal model in Malignant Hyperthermia (MH) research [1]. The use of genetically well-defined pigs rendered it possible to test the method for diagnosing MH-susceptibility of patients presented in the preceding paper. Thus, the effect of halothane on intracellular calcium movements was studied in Quin-2- and chlorotetracycline-loaded pig platelets. In 'Ca(2+)-free' suspensions the resting level of free cytosolic Ca2+ was about 60 nM. In contrast to the results with human platelets there were no significant differences between pig genotypes either in the absence or in the presence of external calcium. After addition of halothane, a mobilization of intracellular membrane-bound calcium can be observed. However, the calcium mobilization is not accompanied by a marked increase in fluorescence intensity of Quin-2-loaded platelets. Thus, in the absence of external calcium, halothane produces only a slight increase in free cytosolic Ca2+. Nevertheless, the calcium rises measured in platelets from affected animals were statistically significantly higher than those from normal subjects. However, in the presence of 1 mM external calcium, a rapid increase in free cytosolic calcium can be detected after halothane addition. This suggests that halothane causes a marked, dose-dependent increase in Ca2+ permeability of the plasma membrane. Compared to the control group, significantly enhanced calcium permeability was found, not only in homozygous positive pigs, but also in heterozygous animals.