Effects of pulse repetition frequency on bubble cloud characteristics and ablation in single-cycle histotripsy

Abstract: Histotripsy is a cavitation-based ultrasound ablation method in development for multiple clinical applications. This work investigates the effects of pulse repetition frequency (PRF) on bubble cloud characteristics and ablative capabilities for histotripsy using single-cycle pulsing methods. Bubble clouds produced by a 500 kHz histotripsy system at PRFs from 0.1-1000 Hz were visualized using high-speed optical imaging in 1% agarose tissue phantoms at peak negative pressures, p-, of 2-36 MPa. Results showed a d… Show more

“…With AC, more predictable cavitation was observed at 100 Hz, but significant peripheral cavitation was still seen at 500 Hz PRF. TBME-00252-2024.R1 expected given the comparatively lower p-) and took multiple histotripsy pulses to fully develop, mimicking recent findings which describe the behavior of histotripsy bubble clouds generated using single cycle pulses at PRFs ≥ 100 Hz [49]. In the referenced study, dense bubble clouds were generated by the tenth pulse at p-as low as 20 MPa for PRFs of 100 Hz and 1000 Hz [49].…”

Ultrasound-Guided Mechanical High-Intensity Focused Ultrasound (Histotripsy) Through an Acoustically Permeable Polyolefin-Based Cranioplasty Device

“…With AC, more predictable cavitation was observed at 100 Hz, but significant peripheral cavitation was still seen at 500 Hz PRF. TBME-00252-2024.R1 expected given the comparatively lower p-) and took multiple histotripsy pulses to fully develop, mimicking recent findings which describe the behavior of histotripsy bubble clouds generated using single cycle pulses at PRFs ≥ 100 Hz [49]. In the referenced study, dense bubble clouds were generated by the tenth pulse at p-as low as 20 MPa for PRFs of 100 Hz and 1000 Hz [49].…”

Ultrasound-Guided Mechanical High-Intensity Focused Ultrasound (Histotripsy) Through an Acoustically Permeable Polyolefin-Based Cranioplasty Device