Sympathomimetic (Vasodilator)
PREGNANCY RECOMMENDATION: Limited Human Data—No Relevant Animal Data
BREASTFEEDING RECOMMENDATION: No Human Data—Probably Compatible
PREGNANCY SUMMARY
No reports linking the use of isoxsuprine with congenital defects have been located.
FETAL RISK SUMMARY
Isoxsuprine, a β-sympathomimetic, is indicated for vasodilation, but it has been used to prevent premature labor (1–6). Uterine inhibitory effects usually require high IV doses, which increase the risk for serious adverse effects (7,8). Maternal heart rate increases and blood pressure decreases are usually mild at lower doses (2,4,6). A decrease in the incidence of neonatal respiratory distress syndrome has been observed (9). However, in one study, neonatal respiratory depression was increased if cord serum levels exceeded 10 ng/mL (10). The depression was always associated with hypotension, so the mechanism of the defect may have been related to pulmonary hypoperfusion.
Neonatal toxicity is generally rare if cord levels of isoxsuprine are <2 ng/mL (corresponding to a drug-free interval of >5 hours), but levels >10 ng/mL (drug-free interval of 2 hours of less) were associated with severe neonatal problems (10). These problems include hypocalcemia, hypoglycemia, ileus, hypotension, and death (10–12). Hypotension and neonatal death occurred primarily in infants of 26–31 weeks’ gestation, especially if cord levels exceeded 10 ng/mL, and in infants whose mothers developed hypotension or tachycardia during isoxsuprine infusion (10,11). Neonatal ileus, up to 33% in some series, was not related to cord isoxsuprine concentrations, but hypotension and hypocalcemia were directly related, reaching 89% and 100%, respectively, when cord levels exceeded 10 ng/mL (10,12). Fetal tachycardia is a common side effect. As compared with controls, no increase in late or variable decelerations was seen (10). In contrast to the above, infusion of isoxsuprine 30 minutes before cesarean section under general anesthesia was not observed to produce adverse effects in the mother, fetus, or newborn (13). Cord concentrations were not measured.
Long-term evaluation of infants exposed to β-mimetics in utero has been reported but not specifically for isoxsuprine (14). No harmful effects in the infants resulting from this exposure were observed.
The Collaborative Perinatal Project monitored 50,282 mother–child pairs, 54 of whom were exposed to isoxsuprine during the 1st trimester (15, pp. 346–347). For use anytime during pregnancy, 858 exposures were recorded (15, p. 439). In neither case was evidence found for an association with malformations.
BREASTFEEDING SUMMARY
No reports describing the use of isoxsuprine during human lactation have been located.
References
1.Bishop EH, Woutersz TB. Isoxsuprine, a myometrial relaxant. A preliminary report. Obstet Gynecol 1961;17:442–6.
2.Hendricks CH, Cibils LA, Pose SV, Eskes TKAB. The pharmacological control of excessive uterine activity with isoxsuprine. Am J Obstet Gynecol 1961;82:1064–78.
3.Bishop EH, Woutersz TB. Arrest of premature labor. JAMA 1961;178:812–4.
4.Stander RW, Barden TP, Thompson JF, Pugh WR, Werts CE. Fetal cardiac effects of maternal isoxsuprine infusion. Am J Obstet Gynecol 1964;89:792–800.
5.Hendricks CH. The use of isoxsuprine for the arrest of premature labor. Clin Obstet Gynecol 1964;7:687–94.
6.Allen HH, Short H, Fraleigh DM. The use of isoxsuprine in the management of premature labor. Appl Ther 1965;7:544–7.
7.Anonymous. Drugs acting on the uterus. Br Med J 1964;1:1234–6.
8.Briscoe CC. Failure of oral isoxsuprine to prevent prematurity. Am J Obstet Gynecol 1966;95:885–6.
9.Kero P, Hirvonen T, Valimaki I. Perinatal isoxsuprine and respiratory distress syndrome. Lancet 1973;2:198.
10.Brazy JE, Little V, Grimm J, Pupkin M. Risk:benefit considerations for the use of isoxsuprine in the treatment of premature labor. Obstet Gynecol 1981;58:297–303.
11.Brazy JE, Pupkin MJ. Effects of maternal isoxsuprine administration on preterm infants. J Pediatr 1979;94:444–8.
12.Brazy JE, Little V, Grimm J. Isoxsuprine in the perinatal period. II. Relationships between neonatal symptoms, drug exposure, and drug concentration at the time of birth. J Pediatr 1981;98:146–51.
13.Jouppila R, Kauppila A, Tuimala R, Pakarinen A, Moilanen K. Maternal, fetal and neonatal effects of beta-adrenergic stimulation in connection with cesarean section. Acta Obstet Gynecol Scand 1980;59:489–93.
14.Freysz H, Willard D, Lehr A, Messer J, Boog G. A long term evaluation of infants who received a beta-mimetic drug while in utero. J Perinat Med 1977;5:94–9.
15.Heinonen OP, Slone D, Shapiro S. Birth Defects and Drugs in Pregnancy. Littleton, MA: Publishing Sciences Group, 1977.