Search Menu
Photonics Media Photonics Buyers' Guide Photonics Spectra BioPhotonics EuroPhotonics Vision Spectra Photonics Showcase Photonics ProdSpec Photonics Handbook
More News

Imaging a Heart’s First Beat

Facebook Twitter LinkedIn Email Comments
HOUSTON, April 16, 2010 — Through high-resolution, non-invasive imaging, scientists are documenting the formation of the mammalian heart and are capturing video of the embryonic heart before it begins beating.

Kirill Larin, assistant professor of biomedical engineering in the Cullen College of Engineering at the University of Houston, in collaboration with scientists at Baylor College of Medicine, is providing perhaps the best live imagery taken of this vital organ.

Pictured is an interferometer used in the experimental system developed in Kirill Larin's lab. (Images: Mark Lacy)

"Everything we know about early development of the heart and formation of the vasculature system comes from in vitro studies of fixed tissue samples or studies of amphibian and fish embryos," Larin said. "With this technology, we are able to image life as it happens, see the heart beat in a mammal for the very first time."

Using optical-coherence tomography (OCT), a technique that relies on a depth-resolved analysis created by the reflection of an infrared laser beam off an object, Larin and his colleagues at Baylor’s Dickinson Lab are using the technique to study what leads to cardiovascular abnormalities.

Whereas ultrasound uses sound waves to create viewable, yet grainy, video images, OCT uses optical contrast and infrared broadband laser sources to help generate a real-time, high-resolution output.

"We are using OCT to image mouse and rat embryos, looking at video taken about seven days after conception, out of a 20-day typical mammalian pregnancy," Larin said. "This way, we are able to capture video of the embryonic heart before it begins beating, and a day later we can see the heart beginning to form in the shape of a tube and see whether or not the chambers are contracting. Then, we begin to see blood distribution and the heart rate."

Kirill Larin, an assistant professor of biomedical engineering at the University of Houston, works in his lab documenting the formation of the mammalian heart through a high-resolution, noninvasive imaging device, providing perhaps the best live imagery taken of the vital organ.

Over the course of several years, Larin has been refining his laser-based spectroscopic imaging system to provide high-resolution images of protein biomarkers in blood samples and to study tissue samples to explore factors contributing to disease states. He has been working to adapt this technology to capture video of mammalian heart chambers, since they more closely relate to that of the human.

With funding from a $1.7 million grant from the National Institutes of Health, Larin plans to modify the device not only to improve the resolution but also speed the imaging process to further the study of developmental processes in animals with known heart abnormalities. With these higher speeds and increased resolution, Larin says they will be able to observe the dynamics, what factors into the formation of the heart and what causes developmental problems.

Ultimately, he and his collaborators aim to discover how different gene mutations affect cardiovascular development and reduce the number of babies born with abnormities, as well as shed light on how to prevent and treat heart-related problems before birth.

For more information, visit:
Apr 2010
Referring to the bandwidth and spectrum location of the signal produced by television or radar scanning.
AmericasBaylor College of MedicineBiophotonicscardiovascularCullen College of EngineeringDickinson Laboratoryembryoheartheart abnormalitiesheart beatheart diseaseimaginginterferometersKirill LarinNational Institutes of HealthOCToptical coherence tomographyopticsprotein biomarkersResearch & Technologyspectroscopic imagingTexasTexas Medical CenterUniversity of HoustonVideolasers

back to top
Facebook Twitter Instagram LinkedIn YouTube RSS
©2020 Photonics Media, 100 West St., Pittsfield, MA, 01201 USA,

Photonics Media, Laurin Publishing
x We deliver – right to your inbox. Subscribe FREE to our newsletters.
We use cookies to improve user experience and analyze our website traffic as stated in our Privacy Policy. By using this website, you agree to the use of cookies unless you have disabled them.