High speed imaging has application in a wide area of industry and scientific research. In medical research, high speed imaging has the potential to reveal insight into mechanisms of action of various therapeutic interventions. Examples include ultrasound assisted thrombolysis, drug delivery, and gene therapy. Visual observation of the ultrasound, microbubble, and biological cell interaction may help the understanding of the dynamic behavior of microbubbles and may eventually lead to better design of such delivery systems. We present the development of a high speed bright field and fluorescence imaging system that incorporates external mechanical waves such as ultrasound. Through collaborative design and contract manufacturing, a high speed ...
Lipid-stabilised, ultrasound-activated microbubbles are used as contrast agents in medical ultrasoun...
High-speed imaging is in popular demand for a broad range of experiments in fluids. It allows for a ...
Gas-filled lipid microbubbles are emerging as a next generation ‘theranostic’ tool in the medical ar...
For several years, ultrasound contrast agents are being investigated for their therapeutic capacity....
Ultrasound contrast-mediated medical imaging and therapy both rely on the dynamics of micron- and na...
Given the poor optical contrast of bright field imaging, fluorescence imaging is required to image u...
Controlling microbubble-mediated drug delivery requires the underlying biological and physical mecha...
Microbubbles utilize high-frequency oscillations under ultrasound stimulation to induce a range of t...
Ultrasound mediated molecular delivery (sonoporation) is a highly attractive route for cancer- and g...
Ultrasound mediated molecular delivery (sonoporation) is a highly attractive route for cancer- and g...
We report the development of photoacoustic microscopy capable of video-rate high-resolution in-vivo ...
A high-speed in situ microscopic observation system developed for basic studies on mechanisms of son...
International audiencePurpose: Ultrasound contrast agents consist of bubbles in the micrometer range...
The overarching goal of this research is to develop a novel photoacoustic microscopy: PAM) technolog...
Photoacoustic imaging is a promising biomedical imaging technology that can provide the biological i...
Lipid-stabilised, ultrasound-activated microbubbles are used as contrast agents in medical ultrasoun...
High-speed imaging is in popular demand for a broad range of experiments in fluids. It allows for a ...
Gas-filled lipid microbubbles are emerging as a next generation ‘theranostic’ tool in the medical ar...
For several years, ultrasound contrast agents are being investigated for their therapeutic capacity....
Ultrasound contrast-mediated medical imaging and therapy both rely on the dynamics of micron- and na...
Given the poor optical contrast of bright field imaging, fluorescence imaging is required to image u...
Controlling microbubble-mediated drug delivery requires the underlying biological and physical mecha...
Microbubbles utilize high-frequency oscillations under ultrasound stimulation to induce a range of t...
Ultrasound mediated molecular delivery (sonoporation) is a highly attractive route for cancer- and g...
Ultrasound mediated molecular delivery (sonoporation) is a highly attractive route for cancer- and g...
We report the development of photoacoustic microscopy capable of video-rate high-resolution in-vivo ...
A high-speed in situ microscopic observation system developed for basic studies on mechanisms of son...
International audiencePurpose: Ultrasound contrast agents consist of bubbles in the micrometer range...
The overarching goal of this research is to develop a novel photoacoustic microscopy: PAM) technolog...
Photoacoustic imaging is a promising biomedical imaging technology that can provide the biological i...
Lipid-stabilised, ultrasound-activated microbubbles are used as contrast agents in medical ultrasoun...
High-speed imaging is in popular demand for a broad range of experiments in fluids. It allows for a ...
Gas-filled lipid microbubbles are emerging as a next generation ‘theranostic’ tool in the medical ar...