Biography

Sirianni博士于2008年在耶鲁大学获得了生物医学工程博士学位,在此期间,她开发了从聚合物生物材料的药物输送模型。她在耶鲁大学医学院完成了诊断放射学博士后研究金,开发了新颖的成像技术,以跟踪中枢神经系统中聚合物的分布。她的博士学位和博士后作品得到了美国国立卫生研究院和桥接主题的跨学科培训赠款的支持,包括聚合药物输送,运输建模,神经生物学和成像。

Sirianni博士于2011年在Barrow Neurology Institute担任她的第一个教师职务,她的实验室专注于药物输送和组织工程,用于治疗中枢神经系统疾病。她于2018年加入UT的神经外科部。她的研究计划重点是工程药物载荷纳米颗粒,用于鞘内和脑室室内药物的儿科神经肿瘤学beplay苹果手机能用吗

Education

博士学位
Biomedical Engineering, Yale University, New Haven, Connecticut
Postdoctoral Fellowship
Diagnostic Radiology, Yale School of Medicine, New Haven, Connecticut

兴趣范围

beplay苹果手机能用吗研究兴趣

我的研beplay苹果手机能用吗究重点是用于治疗小儿脑肿瘤的新型治疗剂的发展和翻译。我们的方法着重于生物相容性和可生物降解的纳米颗粒中药物的封装,这些纳米颗粒是延长药物作用并靶向药物递送到特定组织部位的药物载体。过去,我们开发了许多新颖的方法,用于工程纳米颗粒组成和表面特性,以使中枢神经系统能够在成人脑癌和神经退行性变性中递送药物。最近,我们专注于开发这些系统,用于治疗儿童脑肿瘤的胸膜内和室内药物递送。这些方法旨在靶向瘦脑脑转移,浸润性疾病和手术切除后残留肿瘤。我们还开发了许多组织工程模型来研究中枢神经系统中肿瘤生长,治疗耐药性和转移的微环境调节。我在UT的研究计划的长期目标是将新型的纳米医学方法beplay苹果手机能用吗带入诊所,以改善受恶性脑肿瘤影响的儿童的结局。

Publications

Publication Information

Publications

1.户主KT,Diperna D,Sirianni RW。(2018)“操纵蒸发期pH值以改善PLA-PEG纳米颗粒中的Quisinostat载荷来处理颅内胶质母细胞瘤的处理”胶体和表面B:生物界面166:37-44

2. Heffernan JM, Sirianni RW. (2018) “Biomaterials for modeling microenvironmental regulation of glioblastoma stem cells” Frontiers in Materials 143:149-158

3. Prakapenka AV, Hiroi R, Quihuis AM, Carson C, Patel S, Berns-Leone C, Fox C, Sirianni RW, Bimonte-Nelson HA. (2018) “Contrasting effects of individual versus combined estrogen and progestogen regimens as working memory load increases in middle-aged ovariectomized rats: one plus one does not equal two.” Neurobiol Aging. 64:1-14

4. Moutal A,Villa L,Yeon S,Houseporder KT,Park KD,Sirianni RW,Khanna R.(2017)“ CRMP2磷酸化驱动胶质母细胞瘤细胞增殖”分子神经生物学55(5):4403-44416

5. Prakapenka AV, Bimonte-Nelson HA, Sirianni RW. “Engineering poly(lactic-co-glycolic acid) micro- and nano-carriers for controlled delivery of 17β-estradiol” Annals of Biomedical Engineering 45(7):1697-1709

6. Heffernan JM, McNamara JB, Borwege S, Vernon BL, Sanai N, Mehta S, Sirianni RW. (2017) “PNIPAAm-co-Jeffamine (PNJ) scaffolds as in vitro models for niche enrichment of glioblastoma stem-like cells” Biomaterials 143:149-158

7. Medina DX,Househounder KT,Ceton R,Kovalik T,Heffernan J,Shankar RV,Bowser RP,Wechsler-Reya RJ,Sirianni RW。(2017)“用于体内纳米颗粒命运的多光谱分析的PLGA的光条形码”。

8. Addington CP, Dharmawaj J, Heffernan JM, Sirianni RW, Stabenfeldt SE. (2016) “Hyaluronic acid-laminin hydrogels increase neural stem cell transplant retention and migratory response to SDF-1alpha” Matrix Biology 60-61:206-216 PMID: 27645115

9. Kobes JE, Daryaei I, Howison CM, Bontrager JG, Sirianni RW, Meuillet EJ, Pagel MD. (2016) “Improved treatment of pancreatic cancer with drug delivery nanoparticles loaded with a novel AKT/PDK1 inhibitor” Pancreas 45(8):1158-66 PMID: 26918875

10. Navaeis A, Truong D, Heffernan JM, Cutts J, Brafman D, Sirianni RW, Vernon BL, Nikkhah M. (2016) “PNIPAAm-based biohybrid injectable hydrogel for cardiac tissue engineering” Acta Biomaterialia 1(32):10-23 PMID: 26689467

11. Dutta D,Salifu M,Sirianni RW,Stabenfeldt SE。(2015年)“使用离心分数对蛋白质负载的纳米颗粒的释放曲线调节”生物材料研究杂志:A Part [Epub the Print] PMID:26517011beplay苹果手机能用吗

12. Cook RL, Householder KT, Chung EP, Prakapenka AV, DiPerna DM, Sirianni RW*. (2015) “A critical evaluation of drug delivery from ligand modified nanoparticles: confounding small molecule distribution and efficacy in the central nervous system” Journal of Controlled Release 220(Pt A):89-97. PMID: 26471392

13. Addington CP, Heffernan JM, Millar-Haskell CS, Sirianni RW, Stabenfeldt SE. (2015) “Enhancing neural stem cell response to SDF-1a gradients through hyaluronic acid-laminin hydrogels” Biomaterials 72:11-9. PMID: 26340314

14.霍夫曼JM, Overstreet DJ, Srinivasan年代,勒LD, Vernon BL, Sirianni RW. (2015) “Temperature responsive hydrogels enable transient three-dimensional tumor cultures via rapid cell recovery” Journal of Biomaterials Research: Part A 104(1):17-25. PMID: 26123863

15. Householder KT, DiPerna D, Chung EP, Wohlleb G, Dhruv H, Berens M, Sirianni RW. (2015) “Intravenous delivery of camptothecin-loaded PLGA nanoparticles for the treatment of intracranial glioma.” International Journal of Pharmaceutics. 479(2):374-380. PMID: 25562639

16. Heffernan JM,Overstreet DJ,Le LD,Vernon BL,Sirianni RW。(2014)“用于3D胶质母细胞瘤侵袭和增殖的3D分析的生物工程水凝胶”。生物医学工程年鉴43(8):1965-77。PMID:25515315

17. McCall RL,Cacaccio J,Wrabel E,Schwartz ME,Coleman TP,Sirianni RW。(2014)病原体启动的药物传递到中枢神经系统。组织屏障。2:4,E944449-14。PMID:25610755

18. McCall RL, Sirianni RW. (2013) PLGA nanoparticles formed by single- or double-emulsion with vitamin E-TPGS. Journal of Visualized Experiments. (82):51015. PMID: 24429733.

19. Sirianni RW,Zheng MQ,Patel TR,Schafbauer T,Zhou JB,Saltzman WM,Carson RE,Huang YY。(2014)具有生物素化的F-18假体的聚(乳酸 - 乙醇酸)(PLGA)纳米颗粒的放射性标记,并通过正电子发射断层扫描将其输送到大脑的成像。生物轭化学。25(12):2157-65。PMID:25322194

20. Zhou JB,Patel TR,Sirianni RW,Strohbehn G,Zheng MQ,Duong N,Schafbauer T,Huttner AJ,Huang Y,Carson RE,Zhang Y,Zhang Y,Sullivan DJ,Sullivan DJ,Piepmeier J,Saltzman WM。(2013)高度渗透性,载有药物的纳米载体改善了胶质母细胞瘤的治疗。美国国家科学院论文集。110(29):11751-6。PMID:23818631

21. Sirianni RW,Zheng MQ,Saltzman WM,Huang Y,Carson RE。(2013)通过正电子发射断层扫描通过完整的大脑传输的直接,定量和无创成像。分子成像和生物学。15(5):596-605。PMID:23624949

22. Sirianni RW,Olausson P,Chiu A,Taylor JR,Saltzman Wm。(2010)工程从聚合物植入物中释放BDNF的速率以影响动物行为。大脑研究。beplay苹果手机能用吗1321(c):40-50。PMID:20096671

23. Sirianni RW, Jang EH, Miller KM, Saltzman WM. (2009) Parameter estimation methodology in a model of hydrophobic drug release from a polymer coating. Journal of Controlled Release. 142(3): 474-482. PMID: 19958804

24. Sirianni RW, Kremer J, Guler I, Chen YL, Keeley F, Saltzman WM. (2008) The effect of extracellular matrix elements on the transport of paclitaxel through an arterial wall tissue mimic. Biomacromolecules. 9(10): 2792-2798. PMID: 18785771

25. Solis FJ, Weiss-Malik RA, Vernon BL. (2005) Local monomer activation model for phase behavior and calorimetric properties of LCST gel-forming polymers. Macromolecules. 38(10): 4456-4464. DOI: 10.1021/ma047895a

26. Weiss-Malik RA, Solis FP, Vernon BL. (2004) Independent control of lower critical solution temperature and swelling behavior with pH for poly (N-isopropylacrylamide-co-maleic acid). Journal of Applied Polymer Science. 94(5): 2110-2116. DOI: 10.1002/app.21000