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`76 M.O. Pulkkinen et al. Methods Fourteen first trimester and one second trimester fetuses (mean gestational age 8.8 + 1.6 (SD) weeks) were studied. The study was approved by Ethics Committee and the patients gave informed consent. Measurement of crown-rump length (CRL) and biparietal diameter were made to confirm the duration of pregnancy (Table 1). The fetal heart rate (FHR) was measured by the ultrasonic Time Motion (TM) method just before and 72 h after a 400 mg oral dose of mifepristone. In ten cases the FHR was checked 1 h after an 0.05 mg IM dose of sulprostone, a prostaglandin E2 -derivate. Uterine activity was recorded with a Millar catheter microtransducer and the signal was amplified by an HP-amplifier 8805C. Prostaglandin sensitivity was studied by injecting 0.05 mg of sulprostone except in the first 2 cases, when the dose was 0.5 and 0.25 mg respectively. Plasma levels of P, E2 and cortisol were measured by direct RIAs. Plasma levels of mifepristone were measured by Roussel-Uclaf. Results In the 72 h after the administration of mifepristone two out of 15 fetuses died and one aborted (at 33 h). The average FHR in the 12 fetuses alive at 72 h had increased slightly (Table 1, P < 0.05). The first two patients, who were respectively given 0.5 and 0.25 mg sulprostone after 72 h, aborted in a very short time and no FHR or intra-uterine pressure (IUP) recordings were made. Five more fetuses died within the 2 h after the mother had been given 0.05 mg of sulprostone IM. The remaining 5 fetuses had low to normal FHR (Table 1). The amplitude of uterine contractions increased after mifepristone, but the resting uterine pressure remained unchanged. The frequency of contractions decreased (Table 2). 0.05 mg sulprostone at first produced a tonic uterine con- traction and after that high amplitude contractions leading to clinical abortion within two h (see Fig. 1). 72 h after a single oral dose of 400 mg mifepristone the plasma level of P was unchanged (Table 3), E2 was slightly elevated (P < 0.01), and cortisol highly elevated (P < 0.001). At 72 h the RU 38486 concentration was 1640 + 424 ng. ml -1 (n = 6). In the one patient studied, the plasma level of mifepristone fell from 3096 at 72 h to 352 ng. ml -1 at 168 h (comparable to plasma bHCG-change, from 2500 U. 1. -1 to 680 U. 1-1, respectively). Table 1. Mifepristone and fetal heart rate (FHR) Fetal size CRP, mm 14 fetuses, first trimester FHR FHR FHR before RU 72 h after RU 1 h after PG Mean Range S.E. 24 169 (14) 174 a (11) 165 (5) 11-32 160-182 157-185/196 140-181 2 2 3 7 2 cases FHR = 0 5 cases FHR = 0 1 case variable ad 196 1 case aborted at 33 h 1 fetus, second trimester 69 144 153 CRL = crown-rump length, ram; RU 486 = 400 mg single dose at 0 h; PG = 0.05 mg snlprostone IM; FHR = beats/min, a p < 0.05
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`Fetal and Uterine Response to RU486 Table 2. Uterine activity after mifepristone 400 mg single dose, first trimester pregnancy 77 At 0 h At 72 h 30 rain after PG AP 4_+2 72_+6 43+13 RP 15 + 3 t2 + 2 46 + 7 F 36 + 3 15 + 3 29 _+ 8 Mean + S,E. n = 12 o AP = active pressure (amplitude), mmHg; RP = resting pressure (tonus), mmHg; F = No of contractions in 15 min; PG = 50 ~g sulprostone IM Fig. 1. Intrauterine pressure after a 400 mg oral dose of mifepristone in a patient who was 8 weeks pregnant. Note negligible uterine activity before mifepristone, moderate activity during the 72 h period after the drug. A small, 50 ug dose of the prostaglandin sulprostone caused contracture already 3 rain after an IM dose. After 1 h, resting "tone" had returned to normal, but the amplitude of contractions was high at over 100 mmHg with only 8 contractions in 15 min and clinical evidence of onset of the abortion process 400 mg RU 486 SINGLE DOSE mmHg At O h 100 ~,: ~!! ~i~iilii'~; ~' 100 At 72 h BASELINE 0 10 0 ~!~ ~@TT~:~,,~::I!I~;I~ At 72h i~i~ii:~i i ~ 50 ug ~ :,~ i~!i~ SUL P ROSTON E ~i]ti~ ~:[ At 73 h 10 0 ~ ~ ,, Ii~ " 0 minutes Discussion In spite of the fact that uterine activity was "physiological", 2 fetuses died during the 72 h after antiprogesterone therapy, and the average FHR increased slightly. A first trimester fetus might tolerate a physiological increase of activity
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`78 M.O. Pulkkinen et al. Table 3. Plasma progesterone (P), estradiol 17 b (E2) and cortisol after 400 rng of mifepristone P, nmol/1 E2, nmol/1 Cortisol, nmol/1 At 0h 63_+5 5_+1 345_+31 At 72 h 66 _ 5 8 _+ 1 a 624 + 66 b Mean + S.E.; n = 13; a p < 0.01; b p < 0.001 less well than a normal full-term fetus. In this study, a further "unphysiological" increase of uterine activity with prostaglandin (including temporary increase in resting pressure) caused fetal asphyxia, indicated by large changes in FHR and fetal death. The increase in the PG-sensitivity of the uterus seen in our study was also seen with luteectomy 5. If not all the progesterone effect is blocked, complete abortion can be prevented. Luteectomy studies make it clear that progesterone suppression is needed as well as removal of the corpus luteum if an abortion is to occur. Indeed complete abortion only occurs if plasma P levels fall below 5 ng ml 4. Therefore, additional PG application is sometimes necessary after mifepristone. The plasma steroid profile, i. e. unchanged P, increased E2 and cortisol, are in agreement with the findings of earlier studies 3, and the same is true of the concentrations of RU 38 486 7. Unlike with luteectomy, the abortion process initiated with mifepristone did not involve a fall in blood progesterone level. But uterine activity, caused by the blocking of progesterone receptors 2, was indistinguishable from that caused by luteectomy. Thus, in humans the antiprogesterone effect should not be judged by peripheral blood progesterone concentrations. References 1. Baulieu EE, Ulmann A, Philibert D (1987) Contragestion by antiprogestin RU 486: a review. Arch Gynecol Obstet 241:73-85 2. Bygdeman M, Swahn ML (1985) Progesterone receptor blockage effect on uterine contractility and early pregnancy. Contraception 32:45-51 3. Couzinet B, LeStrat N, Ulmann A, Baulieu E, Schaison G (1986) Termination of early pregnancy by the progesterone antagonist RU 486 (mifepristone). N Engl J Med 315:1565-1570 4. Csapo AI, Pulkkinen MO (1978) Indispensibility of the human corpus luteum in the maintenance of early pregnancy luteectomy evidence. Obstet Gynecol Surv 33:69-81 5. Csapo AI, Pulkkinen MO, Kaihola HL (1973) The effect of luteectomy-induced progesterone withdrawal on the oxytocin and prostaglandin response of the first trimester pregnant human uterus. Prostaglandins 4:421-429 6. Elger W, Bier S, Chwalisz K, Fohnrich M, Hasan SH, Henderson D, Neef G, Rohde R (1986) Studies on the mechanism of action of progesterone antagonists. J Steroid Biochem 25:835-845 7. Karvai S, Nieman LK, Brondon DD, Udelsman R, Loriaux DL, Chrousos GP (1987) Pharmaco- kinetic properties of the antiglucocorticoid and antiprogesterone steroid RU 486 in man. J Pharmacol Exp Ther 241:401-406 Received February 1, 1988/Accepted February 1, 1989
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