个人简历

2016－ 四川大学生物治疗国家重点实验室，华西医院放射科(双聘) 2015－2016 主任研究员(PI), 日本纳米药物创新中心(iCONM, 川崎) 2013－2015 日本学术振兴会(JSPS)外国人特别研究员(N Nishiyama 教授合作) 2009－2013 东京大学, 生物工程系，博士 (导师：K Kataoka 教授) 2005－2008 四川大学, 制药与生物工程系，硕士 (导师：褚良银 教授) 2001－2005 四川大学, 制药工程, 本科，保送研究生

研究领域

""1. 生物材料和药物新制剂 2. 纳米探针用于肿瘤等重大疾病的早期精准诊断 3. 新型靶向纳米药物用于肿瘤的精准放疗 4. 新型纳米药物用于肿瘤的基因治疗 5. 多功能纳米药物用于肿瘤的诊疗一体化和协同治疗""""

近期论文

[1] Mi P, Kokuryo D, Cabral H, Wu H, Terada Y, Saga T, Aoki I*, Nishiyama N*, Kataoka K*. A pH-activatable nanoparticle with signal amplification capabilities for non-invasive imaging of tumour malignancy. Nature Nanotechnology. 2016, 11(8), 724-730. [2] Mi P, Dewi N, Yanagie H, Kokuryo D, Suzuki M, Sakurai Y, Li Y, Aoki I, Ono K, Takahashi H, Cabral H, Nishiyama N*, Kataoka K*. Hybrid micelles incorporating gadolinium chelates for imaging-guided neutron capture tumor therapy. ACS Nano. 2015, 9 (6): 5913-5921. [3] Wang J#, Mi P#, Lin G#, Wang Y*, Liu G*, Chen X*. Imaging-guided delivery of RNAi for anticancer treatment. Advanced Drug Delivery Reviews. 2016, 104, 44-60. [4] Mi P*, Yanagie H, Dewi N, Yen H, Liu X, Suzuki M, Sakurai Y, Ono K, Takahashi H, Cabral H*, Kataoka K*, Nishiyama N*. Block copolymer-boron cluster conjugate for effective boron neutron capture therapy of solid tumors. Journal of Controlled Release. 2017, 254: 1-9. [5] Mi P*, Cabral H, Aoki I, Nishiyama N, Kataoka K*. A nanoparticle with pH-triggered contrast amplification ability for tumor malignancy imaging. Journal of Controlled Release. 2017, 259: e102. DOI: 10.1016/j.jconrel.2017.03.216 [6] Zeng Y, Wang L, Zhou Z, Wang X, Zhang Y, Wang J, Mi P*, Liu G*, Zhou L*, Gadolinium hybrid iron oxide nanocomposites for dual T1- and T2-weighted MR imaging of cell labeling. Biomaterials Science. 2017, 5: 50-56. [7] Yi Y, Lin G, Chen S, Liu J, Zhang H, Mi P*, Polyester Micelles for Drug Delivery and Cancer Theranostics: Current Achievements, Progresses and Future Perspectives. Materials Science & Engineering C. 2018, 83: 218-232. [8] Lin G, Chen S, Mi P*, Nanoparticles Targeting and Remodeling Tumor Microenvironment for Cancer Theranostics. Journal of Biomedical Nanotechnology. 2018, 14: 1189-1207. [9] Mi P, Wang F, Nishiyama N, Cabral H*. Molecular Cancer Imaging with Polymeric Nanoassemblies: From Tumor Detection to Theranostics. Macromolecular Bioscience. 2017, 17(1): 1600305. DOI: 10.1002/mabi.20bb1600305. [10] Mi P, Kokuryo D, Cabral H, Kumagai M, Nomoto T, Aoki I, Terada Y, Kishimura A, Nishiyama N*, Kataoka K*. Hydrothermally synthesized PEGylated calcium phosphate nanoparticles incorporating Gd-DTPA for contrast enhanced MRI diagnosis of solid tumors. Journal of Controlled Release. 2014, 174 (28): 63-71. [11] Mi P, Cabral H, Kokuryo D, Rafi M, Terada Y, Aoki I, Saga T, Takehiko I, Nishiyama N, Kataoka K*. Gd-DTPA-loaded polymer-metal complex micelles with high relaxivity for MR cancer imaging. Biomaterials. 2013, 34(2): 492-500. [12] Mi P, Yanagie H, Kokuryo D, Dewi N, Aoki I, Nishiyama N*, Kataoka K*. Block copolymer hybrid calcium phosphate micelles for cancer diagnosis and neutron capture therapy. Journal of Controlled Release. 2015, 213 (28): e88. DOI: 10.1016/j.jconrel.2015.05.146 [13] Mi P, Ju X, Xie R, Wu H, Ma J, Chu L*. A novel stimuli-responsive hydrogel for K+-induced controlled-release. Polymer. 2010, 51(7): 1648-1653. [14] Mi P, Chu L*, Ju X, Niu C.H. A smart polymer with ion-induced negative shift of the lower critical solution temperature for phase-transition. Macromolecular Rapid Communication. 2008, 29(1): 27-32. [15] Lin G#, Mi P#, Chu C, Zhang J, Liu G*. Inorganic Nanocarriers overcoming multidrug resistance for cancer theranostics. Advanced Science. 2016, 3(11): 1600134. [16] Barth R*, Mi P, Yang W. Boron delivery agents for neutron capture therapy of cancer. Cancer Communication (Chinese Journal of Cancer). 2018, 38: 35. DOI: 10.1186/s40880-018-0299-7, In Pressing [17] Lin G, Zhang Y, Zhu C, Chu C, Shi Y, Pang X, Ren E, Wu Y, Mi P, Xia H, Chen X, Liu G., Photo-excitable hybrid nanocomposites for image-guided Photo/TRAIL synergistic cancer therapy. Biomaterials, 2018, DOI: 10.1016/j.biomaterials.2018.05.036. In pressing [18] Luo L, Yang Y, Du T, Kang T, Xiong M, Cheng H, Liu Y, Wu Y, Li Y, Chen Yuwen, Zhang Q, Liu X, Wei X, Mi P, She Z, Gao G, Wei Y, Gou M. Targeted nanoparticle‐mediated gene therapy mimics oncolytic virus for effective melanoma treatment. Advanced Functional Materials, 2018, DOI: 10.1002/adfm.201800173. In pressing.