Presented by Jonathan Lavaud, PhD, Postdoctoral Researcher at Optimal Institute for Advanced Bioscience, Grenoble, France. In vivo molecular imaging is a decisive tool in understanding the pathophysiological mechanisms involved in cancer development, …

This recent study by Rutledge et al . compares 4D ultrasound (4D-US) with conventional M-mode and B-mode ultrasound for the assessment of LV function in a myocardial infarct model. Article Summary: Commonly used M-mode and B-mode echo measurements make …

In this recent study by Bachawal et al ., authors used the multimodal imaging capabilities of the Vevo imaging system to evaluate the aggressiveness of ductal carcinoma in situ (DCIS) through B7-H3 targeted ultrasound and photoacoustic molecular imaging. …

The Vevo F2 Imaging System is compatible with a greater range of transducers than ever before: from 71 to 1 MHz! With this new expanded range, users now have the flexibility to image a broad spectrum of animals from small to large using the same imaging …

Scanned using a UHF29x transducer on the Vevo F2. … … Rat Fatty Liver …

Scanned using a UHF29x transducer on the Vevo F2. … … Rat Kidney Adrenal Gland …

In vivo 3D rendered high-resolution ultrasound image of an E14 embryo and its associated placenta (on left). … … E14 mouse embryo …

In vivo 3D rendered co-registered high-resolution ultrasound (greyscale) and photoacoustic (red) image of an E14 embryo and its associated placenta (on left). The photoacoustic signal was acquired at 750nm and represents signal from mostly deoxygenated …

In vivo 3D rendered co-registered high-resolution ultrasound (greyscale) and photoacoustic (red, white and blue) image of an E14 embryo and its associated placenta (on left). The photoacoustic signal represents a parametric map of oxygen saturation with …