参考文献
[1]Carter P,Narasimhan B,Wang Q.Biocompatible nanoparticles and vesicular systems in transdermal drug delivery for various skin diseases[J].Int J Pharm,2019,555:49-62.
[2]赵辨.中国临床皮肤病学[M].南京:江苏科学技术出版社,2009.
[3]Kennedy J,Larraneta E,McCrudden M T C,et al.In vivo studies investigating biodistribution of nanoparticle-encapsulated rhodamine B delivered via dissolving microneedles[J].J Control Release,2017,265:57-65.
[4]Ripolin A,Quinn J,Larraneta E,et al.Successful application of large microneedle patches by human volunteers[J].Int J Pharm,2017,521(1-2):92-101.
[5]Anselmo A C,Gokarn Y,Mitragotri S.Non-invasive delivery strategies for biologics[J].Nat Rev Drug Discov,2019,18:19-40.
[6]Singh P,Carrier A,Chen Y,et al.Polymeric microneedles for controlled transdermal drug delivery[J].J Control Release,2019,315:97-113.
[7]Sabri A H,Ogilvie J,Abdulhamid K,et al.Expanding the applications of microneedles in dermatology[J].Eur J Pharm Biopharm,2019,140:121-140.
[8]Chang H,Zheng M,Chew S W T,et al.Advances in the formulations of microneedles for manifold biomedical applications[J].Adv Mater Technol,2020,5(4):1900552.
[9]Lee K J,Jeong S S,Roh D H,et al.A practical guide to the development of microneedle systems—in clinical trials or on the market[J].Int J Pharm,2020,573:118778.
[10]Lee H,Song C,Baik S,et al.Device-assisted transdermal drug delivery[J].Adv Drug Deliv Rev,2018,127:35-45.
[11]Matriano J A,Cormier M,Johnson J,et al.Macroflux®microprojection array patch technology:a new and efficient approach for intracutaneous immunization[J].Pharm Res,2002,19(1):63-70.
[12]Ye Y,Yu J,Wen D,et al.Polymeric microneedles for transdermal protein delivery[J].Adv Drug Deliv Rev,2018,127:106-118.
[13]Zhu J,Dong L,Du H,et al.5-aminolevulinic acid-loaded hyaluronic acid dissolving microneedles for effective photodynamic therapy of superficial tumors with enhanced long-term stability[J].Adv Healthc Mater,2019,8(22):e1900896.
[14]Wang C,Ye Y,Hochu G M,et al.Enhanced cancer immunotherapy by microneedle patch-assisted delivery of anti-PD1 antibody[J].Nano Lett,2016,16(4):2334-2340.
[15]Ye Y,Wang J,Hu Q,et al.Synergistic transcutaneous immunotherapy enhances antitumor immune responses through delivery of checkpoint inhibitors[J].ACS Nano,2016,10(9):8956-8963.
[16]Zeng Q,Gammon J M,Tostanoski L H,et al.In vivo expansion of melanoma-specific T cells using microneedle arrays coated with immune-polyelectrolyte multilayers[J].ACS Biomater Sci Eng,2017,3(2):195-205.
[17]Dong L,Li Y,Li Z,et al.Au nanocage-strengthened dissolving microneedles for chemo-photothermal combined therapy of superficial skin tumors[J].ACS Appl Mater Interfaces,2018,10(11):9247-9256.
[18]Pan J,Ruan W,Qin M,et al.Intradermal delivery of STAT3 siRNA to treat melanoma via dissolving microneedles[J].Sci Rep,2018,8(1):1-11.
[19]Mao J,Wang H,Xie Y,et al.Transdermal delivery of rapamycin with poor watersolubility by dissolving polymeric microneedles for anti-angiogenesis[J].J Mater Chem B,2020,8(5):928-934.
[20]Du H,Liu P,Zhu J,et al.Hyaluronic acid-based dissolving microneedle patch loaded with methotrexate for improved treatment of psoriasis[J].ACS Appl Mater Interfaces,2019,11(46):43588-43598.
[21]Xie Y,Wang H,Mao J,et al.Enhanced in vitro efficacy for inhibiting hypertrophic scar by bleomycin-loaded dissolving hyaluronic acid microneedles[J].J Mater Chem B,2019,7(42):6604-6611.
[22]Gittard S D,Ovsianikov A,Akar H,et al.Two photon polymerization-micromolding of polyethylene glycol-gentamicin sulfate microneedles[J].Adv Eng Mater,2010,12(4):B77-B82.
[23]Park S Y,Lee H U,Lee Y C,et al.Wound healing potential of antibacterial microneedles loaded with green tea extracts[J].Mater Sci Eng C Mater Biol Appl,2014,42:757-762.
[24]Boehm R D,Daniels J,Stafslien S,et al.Polyglycolic acid microneedles modified with inkjet-deposited antifungal coatings[J].Biointerphases,2015,10(1):011004.
[25]Boehm R D,Miller P R,Schell W A,et al.Inkjet printing of amphotericin B onto biodegradable microneedles using piezoelectric inkjet printing[J].JOM,2013,65(4):525-533.(https://www.daowen.com)
[26]Sachan R,Jaipan P,Zhang J Y,et al.Printing amphotericin B on microneedles using matrix-assisted pulsed laser evaporation[J].Int J Bioprint,2017,3(2):4.
[27]Boehm R D,Miller P R,Daniels J,et al.Inkjet printing for pharmaceutical applications[J].Mater Today,2014,17(5):247-252.
[28]Boehm R D,Jaipan P,Skoog S A,et al.Inkjet deposition of itraconazole onto poly(glycolic acid)microneedle arrays[J].Biointerphases,2016,11(1):011008.
[29]Garcia L E G,MacGregor M N,Visalakshan R M,et al.Self-sterilizing antibacterial silver-loaded microneedles[J].Chem Commun,2019,55(2):171-174.
[30]Zhang Y,Feng P,Yu J,et al.ROS-responsive microneedle patch for acne vulgaris treatment[J].Adv Therap,2018,1(3):1800035.
[31]Chen M C,Lin Z W,Ling M H.Near-infrared light-activatable microneedle system for treating superficial tumors by combination of chemotherapy and photothermal therapy[J].ACS Nano,2016,10(1):93-101.
[32]Pamornpathomkul B,Ngawhirunpat T,Tekko I A,et al.Dissolving polymeric microneedle arrays for enhanced site-specific acyclovir delivery[J].Eur J Pharm Sci,2018,121:200-209.
[33]Jeon E Y,Lee J,Kim B J,et al.Bio-inspired swellable hydrogel-forming double-layered adhesive microneedle protein patch for regenerative internal/external surgical closure[J].Biomaterials,2019,222:119439.
[34]郭彬彬,周文虎,丁劲松.生物促渗剂在经皮给药系统中的应用研究进展[J].中国新药杂志,2018,27(3):314-321.
[35]Marwah H,Garg T,Goyal A K,et al.Permeation enhancer strategies in transdermal drug delivery[J].Drug Deliv,2016,23(2):564-578.
[36]Watkinson A C,Kearney M C,Quinn H L,et al.Future of the transdermal drug delivery market-have we barely touched the surface[J].Expert Opin Drug Deliv,2016,13(4):523-532.
[37]Alkilani A Z,McCrudden M T,Donnelly R F.Transdermal drug delivery:innovative pharmaceutical developments based on disruption of the barrier properties of the stratum corneum[J].Pharmaceutics,2015,7(4):438-470.
[38]Rzhevskiy A S,Singh T R R,Donnelly R F,et al.Microneedles as the technique of drug delivery enhancement in diverse organs and tissues[J].J Control Release,2018,270:184-202.
[39]Kováčik A,Kopečná M,Vávrová K.Permeation enhancers in transdermal drug delivery:benefits and limitations[J].Expert Opin Drug Deliv,2020,17(2):145-155.
[40]Ali A,Ahmed S.A review on chitosan and its nanocomposites in drug delivery[J].Int J Biol Macromol,2018,109:273-286.
[41]Ma G,Wu C.Microneedle,bio-microneedle and bio-inspired microneedle:a review[J].J Control Release,2017,251:11-23.
[42]Rai V K,Mishra N,Yadav K S,et al.Nanoemulsion as pharmaceutical carrier for dermal and transdermal drug delivery:formulation development,stability issues,basic considerations and applications[J].J Control Release,2018,270:203-225.
[43]Saghazadeh S,Rinoldi C,Schot M,et al.Drug delivery systems and materials for wound healing applications[J].Adv Drug Deliv Rev,2018,127:138-166.
[44]Sanjay S T,Zhou W,Dou M,et al.Recent advances of controlled drug delivery using microfluidic platforms[J].Adv Drug Deliv Rev,2018,128:3-28.
[45]Shende P,Sardesai M,Gaud R S.Micro to nanoneedles:a trend of modernized transepidermal drug delivery system[J].Artif Cells Nanomed Biotechnol,2018,46(1):19-25.
[46]Zhang Y,Feng P,Yu J,et al.ROS-responsive microneedle patch for acne vulgaris treatment[J].Adv Therap,2018,1(3):1800035.
[47]Zhu J,Tang X,Jia Y,et al.Applications and delivery mechanisms of hyaluronic acid used for topical/transdermal delivery—a review[J].Int J Pharm,2020,578:119127.
[48]Tak Y K,Pal S,Naoghare P K,et al.Shape-dependent skin penetration of silver nanoparticles:does it really matter?[J].Sci Rep,2015,5:16908.
(朱今巾)