Add to ORKGThe amount and distribution of chemotherapeutic agents delivered to tumours can vary significantly due to tumour heterogeneity, even under focussed ultrasound (FUS) assisted drug delivery regimes. The ability to non-invasively localise cavitation nuclei of a similar size to therapeutic drugs, both within the vasculature and tumour tissue, may provide a useful marker of ultrasound-enhanced drug delivery and extravasation. Solid polymer based nanoscale cavitation nuclei, under FUS excitation, have previously been shown to extravasate into tissue-mimicking phantoms, and to increase drug delivery in murine tumour models in vivo. Here we show in a tissue-mimicking material that these nuclei, once extravasated under FUS excitation, are still acou...
Drug development for cancer is heading towards increased use of highly-targeted and complex biologic...
Passive acoustic mapping (PAM) is a versatile technique for monitoring of therapeutic ultrasound, in...
Thesis (Ph.D.)--University of Washington, 2014High intensity focused ultrasound (HIFU) is an emergin...
The amount and distribution of chemotherapeutic agents delivered to tumours can vary significantly d...
Advances in biomedical science have led to the development and clinical translation of novel potent ...
Drug delivery plays a crucial role in the chemotherapeutic treatment of cancerous solid tumours. A d...
Sources of nonlinear acoustic emissions, particularly those associated with cavitation activity, pla...
Stable and inertial cavitation have been shown to play a key role in several therapeutic ultrasound ...
Poor drug penetration through tumor tissue has emerged as a fundamental obstacle to cancer therapy. ...
Poor drug penetration through tumor tissue has emerged as a fundamental obstacle to cancer therapy. ...
Arrays of detectors placed co-axially with a therapeutic transducer make it possible to receive the ...
Ultrasound-induced cavitation has been proposed as a strategy to tackle the challenge of inadequate ...
Many useful therapeutic bio-effects can be generated using ultrasound-induced cavitation. However, c...
Passive acoustic mapping (PAM) is a novel method for monitoring ultrasound therapies by mapping sour...
Cavitation is a phenomenon present during many ultrasound therapies, including the thermal ablation ...
Drug development for cancer is heading towards increased use of highly-targeted and complex biologic...
Passive acoustic mapping (PAM) is a versatile technique for monitoring of therapeutic ultrasound, in...
Thesis (Ph.D.)--University of Washington, 2014High intensity focused ultrasound (HIFU) is an emergin...
The amount and distribution of chemotherapeutic agents delivered to tumours can vary significantly d...
Advances in biomedical science have led to the development and clinical translation of novel potent ...
Drug delivery plays a crucial role in the chemotherapeutic treatment of cancerous solid tumours. A d...
Sources of nonlinear acoustic emissions, particularly those associated with cavitation activity, pla...
Stable and inertial cavitation have been shown to play a key role in several therapeutic ultrasound ...
Poor drug penetration through tumor tissue has emerged as a fundamental obstacle to cancer therapy. ...
Poor drug penetration through tumor tissue has emerged as a fundamental obstacle to cancer therapy. ...
Arrays of detectors placed co-axially with a therapeutic transducer make it possible to receive the ...
Ultrasound-induced cavitation has been proposed as a strategy to tackle the challenge of inadequate ...
Many useful therapeutic bio-effects can be generated using ultrasound-induced cavitation. However, c...
Passive acoustic mapping (PAM) is a novel method for monitoring ultrasound therapies by mapping sour...
Cavitation is a phenomenon present during many ultrasound therapies, including the thermal ablation ...
Drug development for cancer is heading towards increased use of highly-targeted and complex biologic...
Passive acoustic mapping (PAM) is a versatile technique for monitoring of therapeutic ultrasound, in...
Thesis (Ph.D.)--University of Washington, 2014High intensity focused ultrasound (HIFU) is an emergin...