Developmental
Studying mouse and rat embryos has never been easier
In Vivo Developmental and Pregnancy Research at any Gestational Time Point
From detecting pregnancy to measuring fetal and placental oxygenation and blood flow; the Vevo can do it all!
Vevo micro-ultrasound imaging platforms are ideally suited for developmental and pregnancy research in small animals. The size, structural details and function of the placenta and developing embryo can all be measured over multiple gestational time-points without having to sacrifice your animal.
Repeatable for longitudinal studies over gestation, rapid, and robust and with resolution down to 30 μm, studying mouse and rat embryos has never been easier.
- Detect and date pregnancy with confidence
- Measure size, blood flow and oxygen saturation in the placenta
- Visualize and measure umbilical blood flow
- Visualize and study fetal organ development
- Measure developing heart contractility and blood vessel flow
- Image-guided embryo injection
Mouse Implantation Site at Mid-Gestation
Spiral Arteries with Color Doppler in a Mid-Gestational Mouse Placenta
Mouse Umbilical Artery Flow at Mid-Gestation
Mouse embryo and placenta showing oxygenation, using photoacoustic imaging.
Ideal For Research on:
- Developmental toxicity and drug trials
- Fetal programming
- Pregnancy research and pregnancy complications
Displaying 41 - 45 of 182 results found
BOLD-MRI demonstrates acute placental and fetal organ hypoperfusion with fetal brain sparing in response to phenylephrine but not ephedrine
Joel Shapiro, Yehuda Ginosar, Yuval Gielchinsky, Uriel Elchalal, Zohar Bromberg, Nathalie Corchia-Nachmanson, Rinat Abramovitch
Placenta
.2020
;The alarmin interleukin-1α causes preterm birth through the NLRP3 inflammasome
K Motomura, R Romero, V Garcia-Flores, Y Leng, Y Xu, J Galaz, R Slutsky, D Levenson, N Gomez-Lopez
Molecular Human Reproduction
.2020
;Microenvironment stiffness requires decellularized cardiac extracellular matrix to promote heart regeneration in the neonatal mouse heart
Xinming Wang, Subhadip Senapati, Akinola Akinbote, Bhargavee Gnanasambandam, Paul S.H. Park, Samuel E. Senyo
Acta Biomaterialia
.2020
;Cell Fate Potential of NG2 Progenitors
Rebeca Sánchez-González, Ana Bribián, Laura López-Mascaraque
Scientific Reports
.2020
;Mutation of LRP1 in cardiac neural crest cells causes congenital heart defects by perturbing outflow lengthening
Jiuann-Huey I. Lin, Timothy N. Feinstein, Anupma Jha, Jacob T. McCleary, Juan Xu, Angelo B. Arrigo, Grace Rong, Lindsey M. Maclay, Taylor Ridge, XinXiu Xu, Cecilia W. Lo
Communications Biology
.2020
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