This recent article by Lavaud et al. uses high-frequency ultrasound and spectroscopic photoacoustic imaging (PAI), along with commercially available contrast agents to non-invasively examine metastatic liver lesions.
This study by Grune et al. compares LV functional analysis completed using a novel automated 2D-border detection algorithm (referred to as Auto2DE) versus conventional manual 2D echo assessment (2DE).
In this study, Ramasawmy et al.1 sought to compare 9 Tesla (T) MRI, Benchtop (1T) MRI, Vevo US and BLI in the ability to monitor and detect tumor growth in a xenograft colorectal metastasis model in the mouse liver.
This study by Heinen et al. compares cardiac functional data in a myocardial infarct model acquired by B-Mode in parasternal long axis (PSLAX) versus Simpson method, versus MRI.
This study by Grune et al. compares ventricular volumes by new 4D ultrasound imaging to 1D and 2D ultrasound as well as to volumes by cardiac MRI.
This study by Adelsperger et al. uses Vevo ultrasound imaging to generate predictive models for the formation and growth of abdominal aortic aneurysms (AAA).
This study by Yosra Toumia et al. advances the knowledge of the behavior of a hybrid system consisting of pristine graphene anchored polyvinyl alcohol microbubbles (G/PVA MB), and is a proof concept for their efficiency as contrast agents in photoacoustic as well as ultrasound imaging.
This study by Greco et al. highlights the benefits of using Ultra High Frequency Ultrasound-guided injection versus surgery to generate an orthotopic mouse model of thyroid cancer.
This recent article by Damen, et al. showcases the use of 4-dimensional ultrasound (4DUS) imaging for cardiac function evaluations, and compared the results to two standard techniques: short-axis M-mode (SAX MM) and cine magnetic resonance imaging (MRI).
This recent article titled by Lavaud et al., uses high-frequency ultrasound and spectroscopic photoacoustic imaging as a multimodal non-invasive examination tool for the assessment of melanoma brain tumors in an orthotropic mouse model.