References
- BrownSBBrownEAWalkerIThe present and future role of photodynamic therapy in cancer treatmentLancet Oncol20045849750815288239
- Ferreira-StrixinoJDebefveEPhotodynamic therapy in cancer treatmentde FreitasPMSimõesALasers in Dentistry: Guide for Clinical PracticeHobokenJohn Wiley & Sons, Inc2015346350
- ClementSSobhanMDengWCamilleriEGoldysEMNanoparticle-mediated singlet oxygen generation from photosensitizersJ Photochem Photobiol A20173326671
- NymanESHynninenPHResearch advances in the use of tetrapyrrolic photosensitizers for photodynamic therapyJ Photochem Photobiol B2004731–212814732247
- WilsonBCPhotodynamic therapy for cancer: principlesCan J Gastroenterol Hepatol200216393396
- AllisonRRDownieGHCuencaRHuX-HChildsCJSibataCHPhotosensitizers in clinical PDTPhotodiagnosis Photodyn Ther20041274225048062
- ZenkevichESagunEKnyukshtoVPhotophysical and photochemical properties of potential porphyrin and chlorin photosensitizers for PDTJ Photochem Photobiol B199633171180
- NyokongTAhsenVPhotosensitizers in Medicine, Environment, and SecurityBerlinSpringer Science & Business Media2012
- OlivoMBhuvaneswariRLuckySSDendukuriNSoo-Ping ThongPTargeted therapy of cancer using photodynamic therapy in combination with multi-faceted anti-tumor modalitiesPharmaceuticals (Basel)2010351507152927713315
- Brannon-PeppasLBlanchetteJONanoparticle and targeted systems for cancer therapyAdv Drug Deliv Rev200456111649165915350294
- BeyerWSystems for light application and dosimetry in photodynamic therapyJ Photochem Photobiol B19963621531569002252
- PeerDKarpJMHongSFarokhzadOCMargalitRLangerRNano-carriers as an emerging platform for cancer therapyNat Nanotechnol200721275176018654426
- LiS-YChengHQiuW-XCancer cell membrane-coated biomimetic platform for tumor targeted photodynamic therapy and hypoxia-amplified bioreductive therapyBiomaterials201714214916128735175
- SunYHuHZhaoNMultifunctional polycationic photosensitizer conjugates with rich hydroxyl groups for versatile water-soluble photodynamic therapy nanoplatformsBiomaterials2017117779127939903
- ChatterjeeDKFongLSZhangYNanoparticles in photodynamic therapy: an emerging paradigmAdv Drug Deliv Rev200860151627163718930086
- IdrisNMGnanasammandhanMKZhangJHoPCMahendranRZhangYIn vivo photodynamic therapy using upconversion nanoparticles as remote-controlled nanotransducersNat Med201218101580158522983397
- ChengYMeyersJDBroomeA-MKenneyMEBasilionJPBurdaCDeep penetration of a PDT drug into tumors by noncovalent drug-gold nanoparticle conjugatesJ Am Chem Soc201113382583259121294543
- BalaIHariharanSKumarMRPLGA nanoparticles in drug delivery: the state of the artCrit Rev Ther Drug Carrier Syst200421538742215719481
- GregoriadisGSwainCWillsETavillADrug-carrier potential of liposomes in cancer chemotherapyLancet197417870131313164134296
- LüJ-MWangXMarin-MullerCCurrent advances in research and clinical applications of PLGA-based nanotechnologyExpert Rev Mol Diagn20099432534119435455
- AthanasiouKANiederauerGGAgrawalCMSterilization, toxicity, biocompatibility and clinical applications of polylactic acid/polyglycolic acid copolymersBiomaterials1996172931028624401
- GentilePChionoVCarmagnolaIHattonPVAn overview of poly (lactic-co-glycolic) acid (PLGA)-based biomaterials for bone tissue engineeringInt J Mol Sci20141533640365924590126
- CuYSaltzmanWMControlled surface modification with poly (ethylene) glycol enhances diffusion of PLGA nanoparticles in human cervical mucusMol Pharm200861173181
- SharonJBLSurface Modification of PLGA Biomaterials for Site-Directed Immobilization of Growth Factors [master’s thesis]LexingtonUniversity of Kentucky2005
- MatsumuraYMaedaHA new concept for macromolecular therapeutics in cancer chemotherapy: mechanism of tumoritropic accumulation of proteins and the antitumor agent smancsCancer Res19864612 Pt 1638763922946403
- AcharyaSSahooSKPLGA nanoparticles containing various anticancer agents and tumour delivery by EPR effectAdv Drug Deliv Rev201163317018320965219
- MaedaHBharateGDaruwallaJPolymeric drugs for efficient tumor-targeted drug delivery based on EPR-effectEur J Pharm Biopharm200971340941919070661
- ChengJTeplyBASherifiIFormulation of functionalized PLGA–PEG nanoparticles for in vivo targeted drug deliveryBiomaterials200728586987617055572
- MakadiaHKSiegelSJPoly lactic-co-glycolic acid (PLGA) as biodegradable controlled drug delivery carrierPolymers (Basel)2011331377139722577513
- Bivas-BenitaMRomeijnSJungingerHEBorchardGPLGA–PEI nanoparticles for gene delivery to pulmonary epitheliumEur J Pharm Biopharm20045811615207531
- PanyamJLabhasetwarVBiodegradable nanoparticles for drug and gene delivery to cells and tissueAdv Drug Deliv Rev200355332934712628320
- CastilloJJRindzeviciusTNovoaLVNon-covalent conjugates of single-walled carbon nanotubes and folic acid for interaction with cells over-expressing folate receptorsJ Mater Chem B2013114751481
- BhattacharyaRPatraCREarlAAttaching folic acid on gold nanoparticles using noncovalent interaction via different polyethylene glycol backbones and targeting of cancer cellsNanomedicine20073224238
- ZhangYZhouJYangCFolic acid-targeted disulfide-based cross-linking micelle for enhanced drug encapsulation stability and site-specific drug delivery against tumorsInt J Mol Med20161111191130
- ClementSDengWCamilleriEWilsonBCGoldysEMX-ray induced singlet oxygen generation by nanoparticle-photosensitizer conjugates for photodynamic therapy: determination of singlet oxygen quantum yieldSci Rep201661995426818819
- MisawaMTakahashiJGeneration of reactive oxygen species induced by gold nanoparticles under x-ray and UV IrradiationsNanomedicine20117560461421333754
- KotagiriNSudlowGPAkersWJAchilefuSBreaking the depth dependency of phototherapy with Cherenkov radiation and low-radiance-responsive nanophotosensitizersNat Nanotechnol201510437037925751304
- KamkaewAChengLGoelSCherenkov radiation induced photodynamic therapy using Chlorin e6-loaded hollow mesoporous silica nanoparticlesACS Appl Mater Interfaces2016840266302663727657487
- ChenHWangGDChuangY-JNanoscintillator-mediated X-ray inducible photodynamic therapy for in vivo cancer treatmentNano Lett20151542249225625756781
- MaLZouXChenWA new X-ray activated nanoparticle photosensitizer for cancer treatmentJ Biomed Nanotechnol20141081501150825016650
- Maurer-JonesMABantzKCLoveSAMarquisBJHaynesCLToxicity of therapeutic nanoparticlesNanomedicine20094221924119193187
- BrownDMKaiserPKMichelsMRanibizumab versus verteporfin for neovascular age-related macular degenerationN Engl J Med20063551432144417021319
- Verteporfin in Photodynamic Therapy Study GroupVerteporfin therapy of subfoveal choroidal neovascularization in age-related macular degeneration: two-year results of a randomized clinical trial including lesions with occult with no classic choroidal neovascularization – verteporfin in photodynamic therapy report 2Am J Ophthalmol2001131554156011336929
- ChenHAhnRVan den BosscheJThompsonDHO’HalloranTVFolate-mediated intracellular drug delivery increases the anticancer efficacy of nanoparticulate formulation of arsenic trioxideMol Cancer Ther2009871955196319567824
- SudimackJLeeRJTargeted drug delivery via the folate receptorAdv Drug Deliv Rev200041214716210699311
- GlaserAKZhangRDavisSCGladstoneDJPogueBWTime-gated Cherenkov emission spectroscopy from linear accelerator irradiation of tissue phantomsOpt Lett20123771193119522466192
- RagàsXJiménez-BanzoASánchez-GarcíaDBatlloriXNonellSSinglet oxygen photosensitisation by the fluorescent probe Singlet Oxygen Sensor Green®Chem Commun200929202922
- GollmerAArnbjergJBlaikieFHSinglet Oxygen Sensor Green®: photochemical behavior in solution and in a mammalian cellPhotochem Photobiol201187367167921272007
- DengWKautzkaZChenWGoldysEMPLGA nanocomposites loaded with verteporfin and gold nanoparticles for enhanced photodynamic therapy of cancer cellsRSC Adv20166112393112402
- LiuYLiKPanJLiuBFengS-SFolic acid conjugated nanoparticles of mixed lipid monolayer shell and biodegradable polymer core for targeted delivery of DocetaxelBiomaterials201031233033819783040
- PatelRHWadajkarASPatelNLKavuriVCNguyenKTLiuHMultifunctionality of indocyanine green-loaded biodegradable nanoparticles for enhanced optical imaging and hyperthermia intervention of cancerJ Biomed Opt201217404600322559681
- DeRosaMCCrutchleyRJPhotosensitized singlet oxygen and its applicationsCoord Chem Rev2002233351371
- ClementSChenWAnwerAGGoldysEMVerteprofin conjugated to gold nanoparticles for fluorescent cellular bioimaging and X-ray mediated photodynamic therapyMicrochim Acta2017184617651771
- FoninAVSulatskayaAIKuznetsovaIMTuroverovKKFluorescence of dyes in solutions with high absorbance. Inner filter effect correctionPLoS One201497e10387825072376
- BolotovskiiBMVavilov–Cherenkov radiation: its discovery and applicationPhys Uspekhi20095210991110
- MurphyMPHow mitochondria produce reactive oxygen speciesBiochem J2009417111319061483
- GengJLiKDingDLipid-PEG-folate encapsulated nanoparticles with aggregation induced emission characteristics: cellular uptake mechanism and two-photon fluorescence imagingSmall20128233655366322893564
- TrachoothamDAlexandreJHuangPTargeting cancer cells by ROS-mediated mechanisms: a radical therapeutic approach?Nat Rev Drug Discov20098757959119478820
- HoyeATDavorenJEWipfPFinkMPKaganVETargeting mitochondriaAcc Chem Res2008411879718193822
- YuZSunQPanWLiNTangBA near-infrared triggered nano-photosensitizer inducing domino effect on mitochondrial reactive oxygen species burst for cancer therapyACS Nano2015911110641107426456218
- YueCYangYZhangCROS-responsive mitochondria-targeting blended nanoparticles: chemo-and photodynamic synergistic therapy for lung cancer with on-demand drug release upon irradiation with a single light sourceTheranostics2016613235227877240
- YuanYLiuJLiuBConjugated-polyelectrolyte-based polyprodrug: targeted and image-guided photodynamic and chemotherapy with on-demand drug release upon irradiation with a single light sourceAngew Chem Int Ed Engl201453287163716824861823
- DunnKWKamockaMMMcDonaldJHA practical guide to evaluating colocalization in biological microscopyAm J Physiol Cell Physiol20113004C723C74221209361
- AdlerJParmrydIQuantifying colocalization by correlation: the Pearson correlation coefficient is superior to the Mander’s overlap coefficientCytometry A201077873374220653013
- CelliJPSolbanNLiangAPereiraSPHasanTVerteporfin-based photodynamic therapy overcomes gemcitabine insensitivity in a panel of pancreatic cancer cell linesLasers Surg Med201143756557422057484
- RunnelsJChenNOrtelBKatoDHasanTBPD-MA-mediated photosensitization in vitro and in vivo: cellular adhesion and beta1 integrin expression in ovarian cancer cellsBr J Cancer199980794695310362101
- BaskarRDaiJWenlongNYeoRYeohK-WBiological response of cancer cells to radiation treatmentFront Mol Biosci201412425988165
- SancheLInteraction of low energy electrons with DNA: applications to cancer radiation therapyRadiat Phys Chem20161283643
- LuksieneZLabeikyteDJuodkaBMoanJMechanism of radiosensi-tization by porphyrinsJ Environ Pathol Toxicol Oncol2006251–229330616566725
- SchafferMSchafferPMJoriGRadiation therapy combined with photofrin or 5-ALA: effect on Lewis sarcoma tumor lines implanted in mice. Preliminary resultsTumori200288540741012487560