医用微器件实现候选材料的生物相容性

2006 International Conference of the IEEE Engineering in Medicine and Biology Society Pub Date : 1900-01-01 DOI:10.1109/IEMBS.2006.260061

P. Pouponneau, L. Yahia, Y. Merhi, L. Epure, S. Martel

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引用次数: 17

摘要

通过磁共振成像(MRI)系统产生的磁梯度推进血管中的铁磁微载体，对于化疗或化疗栓塞等靶向干预具有特殊意义。因此，Fe-Co合金具有最高的磁化饱和度，单晶Ni-Mn-Ga粉末和Terfenol-D具有在磁场下的变形，从而评估了它们的生物相容性。这些材料的毒性是用MTT细胞活力试验评估的。试验结果表明，Fe-Co (Permendur和Vacoflux 17)合金在24小时内产生毒性，而Ni-Mn-Ga单晶粉末在48小时后产生毒性。Terfenol-D虽然降解率很高，但72小时后仍有90%的细胞存活率。这些结果表明，这些候选材料将被考虑用于血管中的非系留微载体或设备，这取决于在血管中花费的时间，需要进一步的处理才能适用于此类应用

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Biocompatibility of Candidate Materials for the Realization of Medical Microdevices

The propulsion of ferromagnetic micro-carriers in the blood vessels by magnetic gradients generated from a magnetic resonance imaging (MRI) system is of special interest for targeted interventions such as chemotherapy or chemo-embolization. As such, Fe-Co alloys for its highest magnetization saturation, and single crystal Ni-Mn-Ga powder and Terfenol-D for their deformation in magnetic field are evaluated for their biocompatibility. The toxicity of these materials is evaluated with MTT cell viability tests. The tests show that Fe-Co (Permendur and Vacoflux 17) alloys are toxic within 24 hours while the single crystal Ni-Mn-Ga powder becomes toxic after 48 hours. The Terfenol-D, despite its high degradation, has 90% cell viability after 72 hours. These results indicate that such candidate materials to be considered in untethered micro-carriers or devices in the blood vessels, would require, depending upon the time spent in the blood vessels, further processes to be viable for such applications

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2006 International Conference of the IEEE Engineering in Medicine and Biology Society

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