Publication | Open Access
Degradable Magnetic Composites for Minimally Invasive Interventions: Device Fabrication, Targeted Drug Delivery, and Cytotoxicity Tests
238
Citations
21
References
2015
Year
NanoparticlesEthylene GlycolEngineeringPolymer-based MagnetBiomedical EngineeringSuperparamagnetic NanoparticlesMagnetic MaterialsMagnetismNanomedicineBiohybrid SystemDrug Delivery SystemMicrofluidicsMaterials ScienceNanoroboticsTargeted Drug DeliveryMinimally Invasive InterventionsEscherichia Coli BacteriaBiofunctional MaterialMicrofabricationDrug Delivery SystemsBiomemsDegradable Magnetic CompositesBiomaterialsBiocompatible Material
Superparamagnetic nanoparticles and a functional, degradable polymer matrix based on poly(ethylene glycol) are combined to enable fully degradable magnetic microdevices for minimally invasive biomedical applications. A bioinspired helical microrobot platform mimicking Escherichia coli bacteria is fabricated and actuated using weak rotating magnetic fields. Locomotion based on corkscrew propulsion, targeted drug delivery, and low-degradation-product cytotoxicity are demonstrated.
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