慢性胎儿胎盘栓塞诱导的生长受限胎羊的胎儿心率模式
Fetal heart rate patterns in growth-restricted fetal sheep induced by chronic fetal placental embolization.
作者信息
Murotsuki J, Bocking A D, Gagnon R
机构信息
Department of Obstetrics and Gynaecology, University of Western Ontario, St. Joseph's Health Centre, Lawson Research Institute, London, Ontario, Canada.
出版信息
Am J Obstet Gynecol. 1997 Feb;176(2):282-90. doi: 10.1016/s0002-9378(97)70486-1.
OBJECTIVE
Our purpose was to test the hypothesis that chronic placental insufficiency and intrauterine growth restriction in fetal sheep causes a decrease in the number of fetal heart rate accelerations and fetal heart rate variability.
STUDY DESIGN
Chronically catheterized fetal sheep were embolized (n = 6) daily with 15 to 50 microns latex microspheres for 21 days between 0.74 and 0.88 of gestation into the abdominal aorta, until fetal arterial oxygen content was decreased by 40% to 50% of the preembolization value. Control animals (n = 6) received saline solution only. Signals from chest electrodes were analyzed on-line with the Sonicaid System 8000 in 2-hour epochs every 6 hours starting at 8 AM over the first 48 hours of hypoxemia and for 2 hours between 8 and 10 AM every other day from day 3 to day 21 of hypoxemia. Umbilical artery Doppler-derived resistance index and fetal plasma catecholamine concentrations were also measured.
RESULTS
Embolized fetuses had asymmetric intrauterine growth restriction and became chronically hypoxemic (p < 0.001) with a progressive increase in the umbilical artery resistance index (p < 0.001). During the first 48 hours of hypoxemia the number of accelerations and decelerations and both short- and long-term fetal heart rate variability increased initially, followed by a return to control levels by 20 hours after the onset of embolization. After 21 days of hypoxemia the number of accelerations was significantly reduced by 30% compared with controls (p < 0.05). Both short- and long-term fetal heart rate variability in control fetuses gradually increased with advancing gestational age (p < 0.001 and p < 0.01, respectively), whereas in embolized fetuses the fetal heart rate variability remained unchanged and was 20% lower than that of controls on day 21 (both p < 0.01).
CONCLUSION
Intrauterine growth restriction and long-term hypoxemia in fetal sheep are associated with a decrease in short- and long-term fetal heart rate variability, possibly because of a delay in the normal maturational changes of the autonomic control of fetal heart rate.
目的
我们的目的是验证以下假设,即胎羊慢性胎盘功能不全和宫内生长受限会导致胎心率加速次数和胎心率变异性降低。
研究设计
在妊娠0.74至0.88之间,对长期插管的胎羊(n = 6)每天经腹主动脉注入15至50微米的乳胶微球,持续21天,直至胎儿动脉氧含量降至栓塞前值的40%至50%。对照动物(n = 6)仅接受生理盐水。在低氧血症的前48小时,从上午8点开始,每6小时以2小时为一个时段,使用Sonicaid System 8000对胸部电极信号进行在线分析;在低氧血症第3天至第21天,每隔一天上午8点至10点进行2小时分析。同时测量脐动脉多普勒衍生阻力指数和胎儿血浆儿茶酚胺浓度。
结果
栓塞胎儿出现不对称性宫内生长受限,并长期处于低氧血症状态(p < 0.001),脐动脉阻力指数逐渐升高(p < 0.001)。在低氧血症的前48小时,加速和减速次数以及短期和长期胎心率变异性最初增加,随后在栓塞开始后20小时恢复到对照水平。低氧血症21天后,加速次数与对照组相比显著减少30%(p < 0.05)。对照胎儿的短期和长期胎心率变异性均随胎龄增加而逐渐增加(分别为p < 0.001和p < 0.01),而栓塞胎儿的胎心率变异性保持不变,在第21天比对照组低20%(p均< 0.01)。
结论
胎羊宫内生长受限和长期低氧血症与短期和长期胎心率变异性降低有关,可能是由于胎儿心率自主控制的正常成熟变化延迟所致。
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