Best Picture of Day!

Researchers have developed an implantable optical window and corresponding techniques to image a mouse placenta throughout an entire pregnancy.

Learn more in this week’s issue of Science Advances: scim.ag/6i3

Our fresh cover article in Science Advances on high resolution photoacoustic imaging of placenta development over the entire mouse pregnancy!

science.org/doi/10.1126/sc…

The placenta is a crucial organ during pregnancy, yet much about it remains a mystery. Junjie Yao and colleagues at Duke Biomedical Engineering have captured high-res images of the mouse placenta in real time, providing an unprecedented view of its development. Take a look: nibib.nih.gov/news-events/ne…

Our ultrasound printing work on Science. Big congrats to our collaborative team Y. Shrike Zhang

Through-tissue ultrasound 3D printing: NIH-funded researchers Junjie Yao and Y. Shrike Zhang have outlined a method in @Science to build biocompatible structures underneath multi-layered tissues. More here: go.nih.gov/llc4pG2

Duke Engineering @brighamresearch Harvard Medical School Duke University

In this study in mice, researchers led by Junjie Yao from Duke Engineering developed an ultra-fast photoacoustic microscopy imaging system to visualize functioning blood vessels across the entire brain.

Learn more here: nibib.nih.gov/news-events/ne…

I am excited to be part of Chan Zuckerberg Initiative’s #ImagingTheFuture week. Read how 8 scientists are #ImagingTheFuture with cutting-edge tech ⬇️ czi.co/3XKB5l8

It’s #ImagingTheFuture week at Chan Zuckerberg Initiative! We’re sharing how breakthroughs in imaging science can improve our understanding of biology and help cure, prevent, or manage all disease

Learn how scientists are #ImagingTheFuture with innovative tech: czi.co/3XKB5l8

We recently spoke with Junjie Yao from Duke Engineering about their recent study on the cover of Science Magazine, which used photoacoustic imaging to track the movement of red blood cells in the glassfrog.

Learn more here: nibib.nih.gov/news-events/ne…

@NINDSnews Sonke Johnsen

We observed how glassfrog turns “bloodless” when falling asleep!

Newly published on Science. science.org/doi/10.1126/sc… Still astonished by the whole body photoacoustic imaging of glassfrogs!

Tiny, translucent glassfrogs increase their transparency two- to threefold while sleeping by temporarily storing red blood cells in their liver, according to a new Science study.

Learn more in this week’s issue: scim.ag/WY

New faculty member Junjie Yao will build a photoacoustic tomography program at Duke University pratt.duke.edu/about/news/jun…

Researchers Washington University in St. Louis see cancer cells deep in tissue with novel #imaging technique ow.ly/UzK1Q

Flipping the switch to better see cancer cells at depths - Medical News Today buff.ly/1HEHMrt

Microscopy job opportunity at Harvard Medical School: nic.med.harvard.edu/job

Years' hard working. Thanks go to all the coauthors, editors and reviewers!!
nature.com/nmeth/journal/…

Fluorescent grasshopper in tomato plant - from nightsea
nightsea.com/does-it-fluore…

Great review! x.com/rita_strack/st…