scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.ULTRASMEDBIO.2018.12.001 |
P698 | PubMed publication ID | 30638968 |
P2093 | author name string | Mark T Burgess | |
Tyrone M Porter | |||
P2860 | cites work | Can ultrasound enable efficient intracellular uptake of molecules? A retrospective literature review and analysis | Q27006059 |
High Efficiency Molecular Delivery with Sequential Low-Energy Sonoporation Bursts | Q27300980 | ||
Phase-transition thresholds and vaporization phenomena for ultrasound phase-change nanoemulsions assessed via high-speed optical microscopy. | Q27308582 | ||
An evaluation of the sonoporation potential of low-boiling point phase-change ultrasound contrast agents in vitro | Q30364987 | ||
Acoustic Cavitation-Mediated Delivery of Small Interfering Ribonucleic Acids with Phase-Shift Nano-Emulsions | Q30378008 | ||
Decafluorobutane as a phase-change contrast agent for low-energy extravascular ultrasonic imaging | Q30410631 | ||
Enhanced intracellular delivery of a model drug using microbubbles produced by a microfluidic device | Q30412245 | ||
Efficient intracellular delivery of molecules with high cell viability using nanosecond-pulsed laser-activated carbon nanoparticles | Q30418514 | ||
Spatiotemporally controlled single cell sonoporation | Q30455582 | ||
Design of ultrasonically-activatable nanoparticles using low boiling point perfluorocarbons. | Q30455782 | ||
Controlled permeation of cell membrane by single bubble acoustic cavitation | Q30459198 | ||
Observations of the collapses and rebounds of millimeter-sized lithotripsy bubbles | Q30461811 | ||
Comparison between maximum radial expansion of ultrasound contrast agents and experimental postexcitation signal results | Q30471783 | ||
Determination of postexcitation thresholds for single ultrasound contrast agent microbubbles using double passive cavitation detection | Q30475303 | ||
The role of inertial cavitation in acoustic droplet vaporization | Q30475596 | ||
The size of sonoporation pores on the cell membrane | Q30479431 | ||
Sonoporation by single-shot pulsed ultrasound with microbubbles adjacent to cells | Q30481034 | ||
Sonoporation from jetting cavitation bubbles | Q30499618 | ||
Ultrasonic contrast agent shell rupture detected by inertial cavitation and rebound signals | Q30500618 | ||
An Experimental and Theoretical Analysis of Ultrasound-Induced Permeabilization of Cell Membranes | Q30503526 | ||
Thermal activation of superheated lipid-coated perfluorocarbon drops | Q33464711 | ||
Phase change events of volatile liquid perfluorocarbon contrast agents produce unique acoustic signatures. | Q33898006 | ||
Oxygen carriers ("blood substitutes")--raison d'etre, chemistry, and some physiology | Q34466085 | ||
On the thermodynamics and kinetics of superheated fluorocarbon phase-change agents | Q36116598 | ||
Understanding ultrasound induced sonoporation: definitions and underlying mechanisms | Q38165638 | ||
Intracellular growth of nanoscale perfluorocarbon droplets for enhanced ultrasound-induced phase-change conversion | Q39291570 | ||
Measurement and correlation of acoustic cavitation with cellular bioeffects | Q40257212 | ||
Biologically and Acoustically Compatible Chamber for Studying Ultrasound-Mediated Delivery of Therapeutic Compounds | Q42145286 | ||
An in vitro study of a phase-shift nanoemulsion: a potential nucleation agent for bubble-enhanced HIFU tumor ablation | Q42871359 | ||
In vitrocharacterization of perfluorocarbon droplets for focused ultrasound therapy | Q42943310 | ||
Characterization of submicron phase-change perfluorocarbon droplets for extravascular ultrasound imaging of cancer. | Q45383550 | ||
Fluorocarbon nanodrops as acoustic temperature probes | Q46671202 | ||
Using the cavitation collapse time to indicate the extent of histotripsy-induced tissue fractionation. | Q50051659 | ||
Effects of Ultrasound Frequency on Nanodroplet-Mediated Histotripsy | Q50241602 | ||
Quantitative relations of acoustic inertial cavitation with sonoporation and cell viability. | Q51093890 | ||
Vibrating microbubbles poking individual cells: drug transfer into cells via sonoporation. | Q51242178 | ||
A dual passive cavitation detector for localized detection of lithotripsy-induced cavitation in vitro. | Q52080465 | ||
Sonoporation of adherent cells under regulated ultrasound cavitation conditions. | Q53602212 | ||
VIII. On the pressure developed in a liquid during the collapse of a spherical cavity | Q56838762 | ||
Rapid evaporation at the superheat limit | Q59715432 | ||
Gauging the likelihood of cavitation from short-pulse, low-duty cycle diagnostic ultrasound | Q70194849 | ||
Acoustic droplet vaporization for therapeutic and diagnostic applications | Q73128945 | ||
An improved theory for the prediction of microcavitation thresholds | Q80731697 | ||
Ultrafast dynamics of the acoustic vaporization of phase-change microdroplets | Q87221031 | ||
P433 | issue | 3 | |
P921 | main subject | bioacoustics | Q864191 |
P1104 | number of pages | 13 | |
P304 | page(s) | 846-858 | |
P577 | publication date | 2019-01-11 | |
P1433 | published in | Ultrasound in Medicine and Biology | Q2260380 |
P1476 | title | Control of Acoustic Cavitation for Efficient Sonoporation with Phase-Shift Nanoemulsions | |
P478 | volume | 45 |
Q99419129 | Opto-acoustic synergistic irradiation for vaporization of natural melanin-cored nanodroplets at safe energy levels and efficient sono-chemo-photothermal cancer therapy |
Q91570052 | Standing wave-assisted acoustic droplet vaporization for single and dual payload release in acoustically-responsive scaffolds |
Q90277042 | Ultrasound-Responsive Cavitation Nuclei for Therapy and Drug Delivery |
Search more.