In-human #ultrasound localization microscopy (#ULM) was implemented on a high frame-rate clinical ultrasound scanner using data acquired from a single breath-hold with free-hand scanning, showing great potential for future clinical translations.
In-human #ultrasound localization microscopy (#ULM) was implemented on a high frame-rate clinical ultrasound scanner using data acquired from a single breath-hold with free-hand scanning, showing great potential for future clinical translations.
@TanterM@MayoRadiology Thanks much Dr. Tanter!! I am delighted to work on this exceptional imaging technology that you and your teams are leading, and always inspired by your phenomenal work!
Subtle morphological and hemodynamic information in microvasculature in various tissues (liver, kidney, pancreatic and breast tumors) in vivo was shown in our recent PMB paper @MayoRadiology https://t.co/8Xy5iKoEcC
The human brain vasculature revealed at microscopic resolution using Transcranial Ultrasound Localization Microscopy !
Just published by @PhysMedParis in @natBME https://t.co/tzDBKdzYuE
https://t.co/8hl3tSV14o via @YouTube
Congrats to all of the new 2021 AIMBE Fellows! Welcome to the AIMBE community!! See our press release with the full list of 174 Fellows here: https://t.co/iv0EmOcldz
Mark your calendar for their induction ceremony on March 26!
A simple multi-aperture transmission method that @ChengwuH and I worked on showed effective suppression of incoherent clutter artifacts and noise simultaneously. This is a very useful tool for ultrafast ultrasound microvessel imaging in vivo on patients. https://t.co/FRf86uBrMO
Very nice work from U-Wai Lok on using #deconvolution to improve the spatial resolution of #ultrasound microvessel images. Some of these images are comparable to super-resolution, even without using contrast microbubbles! https://t.co/PoJb937Zbk
Microvascular imaging with high frequency ultrasound may differentiate benign from malignant tumors. Dr. Shigao Chen. Ultrasound Research Symposium @MayoClinic @mattcallstrom