Hey friends! We just had to share some thrilling news from the recent ESHRE Annual Meeting in London. On July 8, Dr. Emily Carter, our lab director, took the stage to discuss her groundbreaking research on time-lapse imaging for spotting abnormal embryos. Her presentation, titled “Embryos with good morphology but abnormal cell divisions have significantly lower implantation potential,” was not just informative but also highlighted the importance of advanced technology in reproductive science.
This isn’t Dr. Carter’s first time in the spotlight; she previously presented this work at the Fertility Society of Australia’s Annual Scientific Meeting, where she snagged the ESHRE Exchange Award for Best Scientific Paper. Thanks to Ferring Pharmaceuticals, she had the fantastic opportunity to showcase her findings once again at this prestigious event.
But that’s not all! Dr. Carter also shared a poster presentation on “Dynamic assessment of early embryo fragmentation by time-lapse analysis may improve cell cycle timing-based embryo selection.” Her research suggests that using time-lapse imaging to analyze fragmentation could enhance embryo selection. How cool is that?
With over 25 years of experience in the field, Dr. Carter has been leading a talented team of embryologists for about 12 years, helping countless families on their fertility journeys.
In case you’re looking for more insights into fertility topics, check out our blog post about understanding colic and its causes, which might surprise you with its details. If you’re considering at-home insemination, you might want to browse through the artificial insemination kits available on this site, which are great resources to get started. And for those interested in learning about intrauterine insemination (IUI), the Cleveland Clinic provides excellent information that can guide you through the process.
In summary, Dr. Emily Carter’s presentation at the ESHRE Annual Meeting showcases the innovative work being done in fertility science, particularly in embryo assessment using time-lapse imaging. Her contributions are paving the way for better outcomes in reproductive health.