FHR monitoring and microanalysis of fetal blood are mutually complementary procedures, and optimal knowledge of the fetal state is achieved by making use of both, the former for the preliminary screening of all cases at risk and the latter for the purpose of deciding on obstetric management where pathological changes are evident in the FHR. The major difficulty in obtaining a precise value for the fetal acid-base balance lies in the occurence of "falsely abnormal" cases, i.e. cases in which the fetal pH falls during labor but the clinical condition at birth is good (APGAR greater than or equal to 7). In our own series the incidence of such cases among fetuses at risk was 11.2% (Tab. I). In the majority of these cases the fetal acidosis is thought to be a result of increased metabolic acidosis in the mother (maternogenic fetal metabolic acidosis). The importance of the maternogenic fetal acidosis during labor lies in the fact that unless it is recognised, rapid extraction of the fetus will appear necessary on clinical grounds, although it is in fact unnecessary, since this form of acidosis has no adverse effect on the fetus. Various parameters have been proposed for the differential diagnosis of the maternogenic fetal acidosis. These include the feto-maternal difference in base deficit (F/M deltaBD), the materno-fetal differences in pHqu 40 (M/F deltapHqu 40) the materno-fetal difference actual pH (M/F actual deltapH), and the materno-fetal difference in base deficit of the extra-cellular fluid (M/F deltaBDHb5). A critical analysis of these parameters has been carried out on the results of microtests performed during a 5 year period (1968-1972) at the First Clinic of Obstetrics and Gynecology of Milan University. The cases comprised 59 regarded as normal (normal course of pregnancy, spontaneous commencement of labor at term, clear amniotic fluid, regular FHR, spontaneous birth, APGAR at 90 sec between 8 and 10, weight at birth greater than 2500 g), and 335 considered to be at risk (maternal disease, presence of meconium stained amniotic fluid and/or abnormal changes in FHR). In all of these cases the FHR was recorded by cardiotokography, and the tracings were interpreted according to HON. Microsamples of blood were taken from both mother and fetus during labor and the following determinations were carried out: actual pH, pHqu 40, Hb concentration, hemoglobin oxygen saturation, base deficit Hb5 (BDHb5). The maternofetal differences were then calculated. The same determinations were carried out on samples of maternal blood and of arterial and venous cord blood taken immediately after delivery. The clinical condition of the infant was evaluated by the APGAR score at 90 seconds after birth.