Quantitative assessment of placental perfusion by contrast-enhanced ultrasound in macaques and human subjects

Background The uteroplacental vascular supply is a critical determinant of placental function and fetal growth. Current methods for the in vivo assessment of placental blood flow are limited. Objective We demonstrate the feasibility of the use of contrast-enhanced ultrasound imaging to visualize and...

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Bibliographic Details
Published in:American journal of obstetrics and gynecology 2016-03, Vol.214 (3), p.369.e1-369.e8
Main Authors: Roberts, Victoria H.J., PhD, Lo, Jamie O., MD, Salati, Jennifer A., MD, Lewandowski, Katherine S., BA, Lindner, Jonathan R., MD, Morgan, Terry K., MD, PhD, Frias, Antonio E., MD
Format: Article
Language:English
Subjects:
Algorithms
Animals
Caspase 3 - metabolism
Chorionic Villi - blood supply
Chorionic Villi - diagnostic imaging
Chorionic Villi - ultrastructure
Contrast Media - adverse effects
contrast-enhanced ultrasound imaging
Female
HSP70 Heat-Shock Proteins - metabolism
Humans
Japanese macaque
Kinetics
Macaca
Microbubbles - adverse effects
Obstetrics and Gynecology
placenta
Placental Circulation
placental perfusion
Pregnancy
Pregnancy Trimester, First - physiology
Pregnancy Trimester, Second - physiology
Pregnancy Trimester, Third - physiology
Signal Processing, Computer-Assisted
Trophoblasts - ultrastructure
Tyrosine - analogs & derivatives
Tyrosine - metabolism
Ultrasonography
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Summary:Background The uteroplacental vascular supply is a critical determinant of placental function and fetal growth. Current methods for the in vivo assessment of placental blood flow are limited. Objective We demonstrate the feasibility of the use of contrast-enhanced ultrasound imaging to visualize and quantify perfusion kinetics in the intervillous space of the primate placenta. Study Design Pregnant Japanese macaques were studied at mid second trimester and in the early third trimester. Markers of injury were assessed in placenta samples from animals with or without contrast-enhanced ultrasound exposure (n = 6/group). Human subjects were recruited immediately before scheduled first-trimester pregnancy termination. All studies were performed with maternal intravenous infusion of lipid-shelled octofluoropropane microbubbles with image acquisition with a multipulse contrast-specific algorithm with destruction-replenishment analysis of signal intensity for assessment of perfusion. Results In macaques, the rate of perfusion in the intervillous space was increased with advancing gestation. No evidence of microvascular hemorrhage or acute inflammation was found in placental villous tissue and expression levels of caspase-3, nitrotyrosine and heat shock protein 70 as markers of apoptosis, nitrative, and oxidative stress, respectively, were unchanged by contrast-enhanced ultrasound exposure. In humans, placental perfusion was visualized at 11 weeks gestation, and preliminary data reveal regional differences in intervillous space perfusion within an individual placenta. By electron microscopy, we demonstrate no evidence of ultrastructure damage to the microvilli on the syncytiotrophoblast after first-trimester ultrasound studies. Conclusions Use of contrast-enhanced ultrasound did not result in placental structural damage and was able to identify intervillous space perfusion rate differences within a placenta. Contrast-enhanced ultrasound imaging may offer a safe clinical tool for the identification of pregnancies that are at risk for vascular insufficiency; early recognition may facilitate intervention and improved pregnancy outcomes.
ISSN:0002-9378
1097-6868
DOI:10.1016/j.ajog.2016.01.001