Title: Self-assembling PVA-F127 thermosensitive nanocarriers with highly sensitive magnetically-triggered drug release for epilepsy therapy in vivo
Authors: Huang, Hsin-Yang
Hu, Shang-Hsiu
Chian, Chih-Shang
Chen, San-Yuan
Lai, Hsin-Yi
Chen, You-Yin
Department of Materials Science and Engineering
Issue Date: 2012
Abstract: Self-assembling, crosslinker-free, highly thermosensitive nanocarriers (TSNCs) were synthesized by the incorporation of iron oxide nanoparticles and hydrophobic drug molecules into a thermosensitive matrix composed of PEO-PPO-PEO (F127) triblock-copolymer and polyvinyl alcohol (PVA) using a mini-emulsion process. The addition of PVA significantly contributes to the stability of the thermosensitive PVA-F127 nanocarriers and reduces drug leakage because it provides hydrogen bonds to react with the PEO segments in the shell. The TSNCs exhibit a remarkable triggered size contraction and shrinkage as a result of opposing polymer thermal effects. These effects include thermal expansion of the PVA and thermal shrinkage of the F127 when the magnetic field induced a temperature change that reached 40 to 50 degrees C through heat generation of the magnetic nanoparticles. Depending on the PVA/F127 ratios, the TSNCs can act as a remotely triggered drug delivery platform with a tunable burst drug release profile through the structure deformation by an external magnetic field. Furthermore, the TSNCs also presented ultrasensitive magnetic resonance imaging (MRI), as demonstrated by a relatively high r(2)/r(1) ratio (430). A preliminary in vivo study using the Long-Evans rat model has demonstrated a significant reduction in the spike-wave discharge after the anti-epilepsy drug, ethosuximide (ETX), was burst released from the TSNCs. These results were compared to PVA nanocarriers under the same magnetic induction as the in vitro carriers. Using a well-controlled burst release, these nanocarriers may provide significant advantages as highly temperature-responsive nanocarriers for the treatment of acute diseases.
URI: http://hdl.handle.net/11536/16185
ISSN: 0959-9428
Volume: 22
Issue: 17
End Page: 8566
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