Magnetic-Responsive Release Controlled by Hot Spot Effect. [artículo]
Por: Guisasola, Eduardo [Instituto de Investigación imas12]
| Baeza, Alejandro [Instituto de Investigación imas12] | Talelli, Marina [Instituto de Investigación imas12] | Arcos, Daniel [Instituto de Investigación imas12] | Vallet Regí, María [Instituto de Investigación imas12].
Colaborador(es): Instituto de Investigación imas12.
Tipo de material: 
ArtículoEditor: Langmuir : the ACS journal of surfaces and colloids, 2015Descripción: 31(46):12777-82.Recursos en línea: Solicitar documento Resumen: Magnetically triggered drug delivery nanodevices have attracted great attention in nanomedicine, as they can feature as smart carriers releasing their payload at clinician's will. The key principle of these devices is based on the properties of magnetic cores to generate thermal energy in the presence of an alternating magnetic field. Then, the temperature increase triggers the drug release. Despite this potential, the rapid heat dissipation in living tissues is a serious hindrance for their clinical application. It is hypothesized that magnetic cores could act as hot spots, this is, produce enough heat to trigger the release without the necessity to increase the global temperature. Herein, a nanocarrier has been designed to respond when the temperature reaches 43 °C. This material has been able to release its payload under an alternating magnetic field without the need of increasing the global temperature of the environment, proving the efficacy of the hot spot mechanism in magnetic-responsive drug delivery devices.
| Tipo de ítem | Ubicación actual | Signatura | Estado | Fecha de vencimiento |
|---|---|---|---|---|
Artículo
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PC17139 (Navegar estantería) | Disponible |
Navegando Hospital Universitario 12 de Octubre Estantes Cerrar el navegador de estanterías
Formato Vancouver:
Guisasola E, Baeza A, Talelli M, Arcos D, Moros M, de la Fuente JM et al. Magnetic-Responsive Release Controlled by Hot Spot Effect. Langmuir. 2015 Nov 24;31(46):12777-82.
PMID: 26536300
Contiene 31 referencias
Magnetically triggered drug delivery nanodevices have attracted great attention in nanomedicine, as they can feature as smart carriers releasing their payload at clinician's will. The key principle of these devices is based on the properties of magnetic cores to generate thermal energy in the presence of an alternating magnetic field. Then, the temperature increase triggers the drug release. Despite this potential, the rapid heat dissipation in living tissues is a serious hindrance for their clinical application. It is hypothesized that magnetic cores could act as hot spots, this is, produce enough heat to trigger the release without the necessity to increase the global temperature. Herein, a nanocarrier has been designed to respond when the temperature reaches 43 °C. This material has been able to release its payload under an alternating magnetic field without the need of increasing the global temperature of the environment, proving the efficacy of the hot spot mechanism in magnetic-responsive drug delivery devices.
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