RT @1Biotensegrity: spirals are everywhere in the body, but certain vortices can be quite dangerous! https://t.co/9nxqiqVlpq
La beauté de la science : une imagerie non invasive de la vascularisation cérébrale jusqu’à l’échelle microscopique. Publication dans Nature Biomedical Engineering : https://t.co/o0O4DnCsrE #Science #imaging #ultrasound https://t.co/O6JV9Fxaxw
RT @1Biotensegrity: spirals are everywhere in the body, but certain vortices can be quite dangerous!
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
spirals are everywhere in the body, but certain vortices can be quite dangerous!
RT @PhysMedParis: More than 200k views for this tweet illustrating the potential of transcranial Ultrasound localization microscopy in huma…
RT @PhysMedParis: More than 200k views for this tweet illustrating the potential of transcranial Ultrasound localization microscopy in huma…
RT @PhysMedParis: More than 200k views for this tweet illustrating the potential of transcranial Ultrasound localization microscopy in huma…
RT @PhysMedParis: More than 200k views for this tweet illustrating the potential of transcranial Ultrasound localization microscopy in huma…
More than 200k views for this tweet illustrating the potential of transcranial Ultrasound localization microscopy in humans ! A research @PhysMedParis @inserm @espci_paris @psl_univ @insis_cnrs for more info read https://t.co/TzXnFdyLGh https://t.co/Rajfy
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
So exciting ‼️
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
Transcranial ultrafast ultrasound localization microscopy of brain vasculature in patients | Nature Biomedical Engineering https://t.co/kbRxrIiVku
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
Fascinating #Research Into Unchartered Depths Of The 🧠#Brain‼ #Microscopy #microscopic #cerebrovascular #disease #disorder #discover #stroke #aneurysm #neurodegenerative #alzheimers #ultrasound #health #future #science #restore #explore #innovations #resu
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @TanterM: The human brain vasculature revealed at microscopic resolution using Transcranial Ultrasound Localization Microscopy ! Just p…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
@AlexofSomeSorts thought you’d like this!
Wow, functionally characterised blood-flow dynamics at a resolution of up to 25 μm In the human brain.
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
Blood cells in the human brain mapped at the microscopic scale will help doctors study a variety of difficult to understand diseases. @dwatchnews
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
Deep transcranial adaptive ultrasound localization microscopy of the human brain vascularization
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vasculature in the adult human brain at microscopic resolution and the quantification of haemodynamic parameters. https://t.co/FKQy9xY
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
Beautiful imaging and important work.
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
RT @ajitjohnson_n: Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. T…
Researchers built ultrasound localization microscopy to map the human brain vasculature down to the microscopic scale. This will help to better understand cerebrovascular diseases such as stroke, aneurysm, and neurodegenerative disorders like Alzheimer's.
Beautiful science: non invasive imaging of brain blood flow to the microscopic scale! Publication in Nature Biomedical Engineering : https://t.co/Q1SuKYNatL #Science #imaging #ultrasound #bloodflow #newimagingtechnology #transcranialultrasound
RT @Larhumato: On n'imagine pas à quel point les progrès en cours en échographie vont révolutionner l'imagerie cérébrale, et ceci grâce aux…
RT @natBME: Transcranial ultrafast ultrasound localization microscopy of brain vasculature in patients https://t.co/0LG748VyIS https://t.c…
RT @TanterM: Many thanks to @natBME and @Rosy_Favicchio for publishing our work on ultrasonic brain angiography at microscopic resolution.…
RT @Larhumato: On n'imagine pas à quel point les progrès en cours en échographie vont révolutionner l'imagerie cérébrale, et ceci grâce aux…
RT @TanterM: Many thanks to @natBME and @Rosy_Favicchio for publishing our work on ultrasonic brain angiography at microscopic resolution.…
RT @TanterM: The human brain vasculature revealed at microscopic resolution using Transcranial Ultrasound Localization Microscopy ! Just p…
RT @natBME: Transcranial ultrafast ultrasound localization microscopy of brain vasculature in patients https://t.co/0LG748VyIS https://t.c…
RT @TanterM: Many thanks to @natBME and @Rosy_Favicchio for publishing our work on ultrasonic brain angiography at microscopic resolution.…
RT @Larhumato: On n'imagine pas à quel point les progrès en cours en échographie vont révolutionner l'imagerie cérébrale, et ceci grâce aux…
RT @natBME: Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vascul…
RT @Larhumato: On n'imagine pas à quel point les progrès en cours en échographie vont révolutionner l'imagerie cérébrale, et ceci grâce aux…
New Wave Ultrasound! Congratulations to @CharlieDemene, Justine Robin, @AlexandreDizeux, Baptiste Heiles, @TanterM and colleagues for this beautiful work!
RT @NeuroGeneva: A revolution in the #ultrasound #brainimaging ! Fabienne Perren from @Hopitaux_unige just got her work published in @natBM…
RT @natBME: The March cover illustrates the imaging of vasculature deep in the human brain at microscopic resolution via ultrasfast ultraso…
RT @natBME: The March cover illustrates the imaging of vasculature deep in the human brain at microscopic resolution via ultrasfast ultraso…
RT @natBME: The March cover illustrates the imaging of vasculature deep in the human brain at microscopic resolution via ultrasfast ultraso…
Ultrafast ultrasound localization microscopy of intravenously injected microbubbles enables transcranial imaging of deep vasculature in the adult human brain at microscopic resolution and the quantification of haemodynamic parameters. https://t.co/d22Xrgp
RT @NeuroGeneva: A revolution in the #ultrasound #brainimaging ! Fabienne Perren from @Hopitaux_unige just got her work published in @natBM…