Add to ORKGHere we present optical tweezers as a micromanipulation tool for the study of ultrasound contrast agent (UCA) microbubbles. Optical trapping and the resulting manipulation of individual and multiple microbubbles enables the study of their dynamics with controlled boundary conditions. The bubble response to ultrasound is recorded optically using the ultra high-speed Brandaris 128 camera. In our experiments, the amplitude of bubble oscillations was found to be strongly influenced by the vicinity of the sample chamber wall. Experiments with two trapped bubbles also showed a considerable influence of the neighboring bubble on the amplitude of oscillations of the other one.</p
A new optical characterization of the behavior of single ultrasound contrast bubbles is presented. T...
A new optical characterization of the behavior of single ultrasound contrast bubbles is presented. T...
Introduction of a temporally periodic pressure field within a fluid can induce forced oscillations t...
Optical tweezers enable non-destructive, contact-free manipulation of ultrasound contrast agent (UCA...
The authors report optical observations of the change in the dynamics of one and the same ultrasound...
Microbubble contrast agents were originally developed to enhance echogenicity in diagnostic sonograp...
Ultrasound contrast agents are traditionally used in ultrasound-assisted organ perfusion imaging. Re...
We present time-resolved optical measurements of the coupled dynamics of two UCA microbubbles in ult...
The mutual interaction between two oscillating encapsulated microbubbles was investigated using a no...
The mutual interaction between two oscillating encapsulated microbubbles was investigated using a no...
Cavitation, which involves the formation and dynamic evolution of bubbles, is a ubiquitous phenomeno...
The occurrence of nonspherical oscillations (or surface modes) of coated-microbubbles, used as ultra...
We present a new optical characterization of the behavior of single ultrasound contrast bubbles. The...
The occurrence of nonspherical oscillations (or surface modes) of coated microbubbles, used as ultra...
In this study we present a combined optical sizing and acoustical characterization technique for the...
A new optical characterization of the behavior of single ultrasound contrast bubbles is presented. T...
A new optical characterization of the behavior of single ultrasound contrast bubbles is presented. T...
Introduction of a temporally periodic pressure field within a fluid can induce forced oscillations t...
Optical tweezers enable non-destructive, contact-free manipulation of ultrasound contrast agent (UCA...
The authors report optical observations of the change in the dynamics of one and the same ultrasound...
Microbubble contrast agents were originally developed to enhance echogenicity in diagnostic sonograp...
Ultrasound contrast agents are traditionally used in ultrasound-assisted organ perfusion imaging. Re...
We present time-resolved optical measurements of the coupled dynamics of two UCA microbubbles in ult...
The mutual interaction between two oscillating encapsulated microbubbles was investigated using a no...
The mutual interaction between two oscillating encapsulated microbubbles was investigated using a no...
Cavitation, which involves the formation and dynamic evolution of bubbles, is a ubiquitous phenomeno...
The occurrence of nonspherical oscillations (or surface modes) of coated-microbubbles, used as ultra...
We present a new optical characterization of the behavior of single ultrasound contrast bubbles. The...
The occurrence of nonspherical oscillations (or surface modes) of coated microbubbles, used as ultra...
In this study we present a combined optical sizing and acoustical characterization technique for the...
A new optical characterization of the behavior of single ultrasound contrast bubbles is presented. T...
A new optical characterization of the behavior of single ultrasound contrast bubbles is presented. T...
Introduction of a temporally periodic pressure field within a fluid can induce forced oscillations t...