Cardiology
Quantify cardiac function and structure non-invasively and in real-time!
Your Best Tool For Preclinical Cardiovascular Imaging
Rapid, Repeatable and Well-Established; Ultra High Frequency ultrasound, using the Vevo Imaging Systems, will have an incredible impact on cardiovascular research in your animal models.
Perform reliable echocardiograms for translational cardiovascular research in small animals in vivo with resolution down to 30 microns. Vevo ultrasound imaging platforms provide the best temporal and spatial resolution compared to MRI, conventional ultrasound and CT.
With the Vevo Imaging Systems you can:
- Perform cardiovascular phenotyping for cardiac structure and function
- Image the heart in 4D!
- Quantify diastolic dysfunction
- Evaluate cardiac strain (synchrony and deformation globally or regionally)
- Perform image-guided cardiac injections
- Monitor full animal physiology while imaging: body temperature, ECG and respiratory rate throughout the imaging session.
- Ideal for stress echo and cardiotoxicity studies.
- Assess myocardial oxygen saturation
Mouse left ventricle imaged with 4D Mode from a parasternal long axis view.
Left Ventricular measurements taken from a B-Mode parasternal long axis image.
Mitral flow visualized from an apical view of the mouse left ventricle to assess diastolic function.
B-Mode ultrasound with myocardial oxygen saturation acquired using photoacoustics (PA EKV Mode), from a parasternal long axis view of the mouse left ventricle.
Use Vevo Ultrasound to Image any Cardiac Disease Model, Including:
- Myocardial Infarction
- Cardiotoxicity
- Valvular Disease
- Cardiac Hypertrophy
- Cardiomyopathy
Displaying 21 - 25 of 2122 results found
Top Paper
Electromechanical vortex filaments during cardiac fibrillation
J. Christoph, M. Chebbok, C. Richter, J. Schröder-Schetelig, P. Bittihn, S. Stein, I. Uzelac, F. H. Fenton, G. Hasenfuß, R. F. Gilmour, S. Luther
Nature
.2018
;Top Paper
Cardiac and respiratory-gated volumetric murine ultrasound
Arvin H. Soepriatna, Frederick W. Damen, Pavlos P. Vlachos, Craig J. Goergen
The International Journal of Cardiovascular Imaging
.2017
;Top Paper
Naturally occurring p16 Ink4a -positive cells shorten healthy lifespan
Darren J Baker, Bennett G Childs, Matej Durik, Melinde E Wijers, Cynthia J Sieben, Jian Zhong, Rachel A Saltness, Karthik B Jeganathan, Grace Casaclang Verzosa, Abdulmohammad Pezeshki, Khashayarsha Khazaie, Jordan D Miller, Jan M Van Deursen
Nature
.2016
;Top Paper
Novel mouse model of left ventricular pressure overload and infarction causing predictable ventricular remodelling and progression to heart failure
Carla J. Weinheimer, Ling Lai, Daniel P. Kelly, Attila Kovacs
Clinical and Experimental Pharmacology and Physiology
.2015
;Preclinical development of a miR-132 inhibitor for heart failure treatment
Ariana Foinquinos, Sandor Batkai, Celina Genschel, Janika Viereck, Steffen Rump, Mariann Gyöngyösi, Denise Traxler, Martin Riesenhuber, Andreas Spannbauer, Dominika Lukovic, Natalie Weber, Katrin Zlabinger, Ena Hašimbegović, Johannes Winkler, Jan Fiedler, Seema Dangwal, Martin Fischer, Jeanne de la Roche, Daniel Wojciechowski, Theresia Kraft, Rita Garamvölgyi, Sonja Neitzel, Shambhabi Chatterjee, Xiaoke Yin, Christian Bär, Manuel Mayr, Ke Xiao, Thomas Thum
Nature Communications
.2020
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