Objective To investigate the possibility of manufacturing dual-drug loaded isoniazid/rifampicin/poly L-lactic acid (PLLA) implant with donut-shaped structure via three-dimensional (3D) printing technique and study the drug release characteristic and biocompatibility of the implant in vitro.Methods PLLA was crushed into particles with diameters around 75-100 μm.Isoniazid and rifampicin bulk drugs were dissolved into the organic dissolvent respectively to be the binding liquid.The 3D printing machine fabricated the donut-shaped implant via binding the PLLA powder layer by layer.Dynamic socking method was used to study the in vitro release characteristics,and cell culture experiment was used to test the cytocompatibility of the implant.Results PLLA slow-release implants were made by using the PLLA powder as matrix and isoniazid/rifampicin organic solvent as binding liquid through 3D printing.The drugs in the implants distributed in nest under electron microscope.The concentrations of both drugs were still higher than the lowest effective bacteriostasis concentration after release for 32 days.Cytotoxicity and direct contact tests indicated that the implants had rare cytotoxicity and favorable biocompatibility. Conclusion The donut-shaped implants can be successfully fabricated using the 3D printing method,which offers a new method for the manufacturing of topical slow-release anti-tuberculosis drugs.
目的 探讨基于三维打印技术制备异烟肼/利福平/聚乳酸环形缓释制剂的可行性,并对打印的缓释剂的体外释放性能及生物相容性进行检测。方法将聚乳酸制成大小为75~100 μm的粉末,异烟肼和利福平药物分别溶解于有机溶剂中作为三维打印的黏结液,三维打印机通过层层黏结的原理,将聚乳酸逐层黏结成环形植入剂,用动态浸泡的方法研究该植入剂的体外释放特征,通过体外细胞培养实验检测植入剂的细胞相容性。结果 将异烟肼或利福平溶解于黏结液中,以聚乳酸为载药基质能够实现多载药缓释植入剂的三维打印;在电镜下药物成巢状分布于植入剂内。双载药环形植入剂在体外能够持续释放32 d以上,在体外释放32 d测得的异烟肼和利福平的浓度高于药物的最低有效抑菌浓度。细胞毒性实验以及体外直接接触实验表明该植入剂无细胞毒性,具有良好的生物相容性。结论 所配制的载药聚乳酸三维打印方法能够实现双载药植入剂的制备,为抗结核药物的局部缓释制剂的制备提供了新方法。.