Add to ORKGLaser-induced optical breakdown (LIOB) is a nonlinear energy absorption process that can generate precise damage in biological tissues. With femtosecond laser pulses, disruption is highly localized with minimal thermal and mechanical effects to the surrounding region. Cavitation bubbles are produced as a result of LIOB, and these bubbles can be detected and monitored with high-frequency ultrasound. In this work, the controllable viability effects of LIOB bubbles in single cells were characterized. Using a high-frequency acoustic transducer synchronized with a 793 nm, 100 fs laser pulsed at 250 kHz, thermal effects in the vicinity of an LIOB event were directly assessed. Temperaturedependent pulse-echo displacements were calculated using ...
Graduation date: 2012In an effort to develop an optical-acoustical understanding of ultrasound contr...
In fluids, pressure-driven cavitation bubbles have a nonlinear response that can lead to extremely h...
This article presents the sterilization of bacteria using cavitation bubbles. Cavitation generated b...
Laser-induced optical breakdown (LIOB) is a nonlinear energy absorption process that can generate pr...
Femtosecond laser-induced optical breakdown (LIOB) enables nonlinear energy deposition on micron and...
Highly focused pulsed laser radiation (pulsed laser microbeams) provide the ability to deposit energ...
Objective: Understanding the basic mechanism of the cavitation bubble action on living cells as a cr...
International audiencePurpose: Ultrasound contrast agents consist of bubbles in the micrometer range...
Cells that are exposed to varying amounts of ultrasonic energy in the presence of ultrasound contras...
Time resolved imaging and fluorescent assays were used to examine the biological response of conflue...
Drug delivery systems (DDS) using ultrasound and microbubbles have been proposed to enhance drug eff...
Cells that are exposed to varying amounts of ultrasonic energy in the presence of ultrasound contras...
Time-resolved imaging, fluorescence microscopy, and hydrodynamic modeling were used to examine cell ...
Graduation date: 2012In an effort to develop an optical-acoustical understanding of ultrasound contr...
In fluids, pressure-driven cavitation bubbles have a nonlinear response that can lead to extremely h...
This article presents the sterilization of bacteria using cavitation bubbles. Cavitation generated b...
Laser-induced optical breakdown (LIOB) is a nonlinear energy absorption process that can generate pr...
Femtosecond laser-induced optical breakdown (LIOB) enables nonlinear energy deposition on micron and...
Highly focused pulsed laser radiation (pulsed laser microbeams) provide the ability to deposit energ...
Objective: Understanding the basic mechanism of the cavitation bubble action on living cells as a cr...
International audiencePurpose: Ultrasound contrast agents consist of bubbles in the micrometer range...
Cells that are exposed to varying amounts of ultrasonic energy in the presence of ultrasound contras...
Time resolved imaging and fluorescent assays were used to examine the biological response of conflue...
Drug delivery systems (DDS) using ultrasound and microbubbles have been proposed to enhance drug eff...
Cells that are exposed to varying amounts of ultrasonic energy in the presence of ultrasound contras...
Time-resolved imaging, fluorescence microscopy, and hydrodynamic modeling were used to examine cell ...
Graduation date: 2012In an effort to develop an optical-acoustical understanding of ultrasound contr...
In fluids, pressure-driven cavitation bubbles have a nonlinear response that can lead to extremely h...
This article presents the sterilization of bacteria using cavitation bubbles. Cavitation generated b...