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International Journal of Nanomedicine Volume 6, 2011 - Issue
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Original Research

Enhanced reduction in cell viability by hyperthermia induced by magnetic nanoparticles

Héctor L Rodríguez-LuccioniDepartment of Chemical Engineering, University of Puerto Rico, Mayagüez 00681, Puerto Rico
,
Magda Latorre-EstevesDepartment of Chemical Engineering, University of Puerto Rico, Mayagüez 00681, Puerto Rico
,
Janet Méndez-VegaDepartment of Chemical Engineering, University of Puerto Rico, Mayagüez 00681, Puerto Rico
,
Orlando SotoDepartment of Chemical Engineering, University of Puerto Rico, Mayagüez 00681, Puerto Rico
,
Ana R RodríguezDepartment of Chemical Engineering, University of Puerto Rico, Mayagüez 00681, Puerto Rico
,
Carlos RinaldiDepartment of Chemical Engineering, University of Puerto Rico, Mayagüez 00681, Puerto Rico
&
Madeline Torres-LugoDepartment of Chemical Engineering, University of Puerto Rico, Mayagüez 00681, Puerto RicoCorrespondence[email protected]
 show all
Pages 373-380 | Published online: 15 Feb 2011

References

  • KrishnanKMBiomedical nanomagnetics: a spin through possibilities in imaging, diagnostics, and therapyIEEE Trans Magn20104672523255820930943
  • LatorreMRinaldiCApplications of magnetic nanoparticles in medicine: magnetic fluid hyperthermiaP R Health Sci J200928322723819715115
  • JainPLeeKEl-SayedIEl-SayedMCalculated absorption and scattering properties of gold nanoparticles of different size, shape, and composition: applications in biological imaging and biomedicineJ Phys Chem B2006110147238724816599493
  • MerrittWMLinYGSpannuthWAEffect of interleukin-8 gene silencing with liposome-encapsulated small interfering RNA on ovarian cancer cell growthJ Nat Cancer Inst2008100535937218314475
  • BriggerIDubernetCCouvreurPNanoparticles in cancer therapy and diagnosisAdv Drug Deliv Rev200254563165112204596
  • FerrariMCancer nanotechnology: opportunities and challengesNat Rev Cancer20055316117115738981
  • GuptaAGuptaMSynthesis and surface engineering of iron oxide nanoparticles for biomedical applicationsBiomaterials200526183995402115626447
  • RosensweigRHeating magnetic fluid with alternating magnetic fieldJ Magn Magn Mater20022521–3370374
  • WadaSYueLTazawaKFurutaINagaeHTakemoriSNew local hyperthermia using dextran magnetite complex (DM) for oral cavity: experimental study in normal hamster tongueOral Dis20017319219511495196
  • JordanAScholzRMaier-HauffKThe effect of thermotherapy using magnetic nanoparticles on rat malignant gliomaJ Neurooncol2006578171416314937
  • KawaiNFutakuchiMYoshidaTEffect of heat therapy using magnetic nanoparticles conjugated with cationic liposomes on prostate tumor in boneProstate200868778479218302228
  • HilgerIHiergeistRHergtRWinnefeldKSchubertHKaiserWAThermal ablation of tumors using magnetic nanoparticles: an in vivo feasibility studyInvest Radiol2002371058058612352168
  • Maier-HauffKRotheRScholzRIntracranial thermotherapy using magnetic nanoparticles combined with external beam radiotherapy: results of a feasibility study on patients with glioblastoma multiformeJ Neurooncol2007811536016773216
  • JohannsenMGneveckowUEckeltLClinical hyperthermia of prostate cancer using magnetic nanoparticles: presentation of a new interstitial techniqueInt J Hyperthermia200521763764716304715
  • JohannsenMGneveckowUThiesenBThermotherapy of prostate cancer using magnetic nanoparticles: feasibility, imaging, and three-dimensional temperature distributionEur Urol20075261653166117125906
  • ThiesenBJordanAClinical applications of magnetic nanoparticles for hyperthermiaInt J Hyperthermia200824646747418608593
  • JordanAWustPScholzRCellular uptake of magnetic fluid particles and their effects on human adenocarcinoma cells exposed to AC magnetic fields in vitroInt J Hyperthermia19961267057228950152
  • JordanAScholzRWustPEndocytosis of dextran and silancoated magnetite nanoparticles and the effect of intracellular hyperthermia on human mammary carcinoma cells in vitroJ Magn Magn Mater1999194185196
  • SunXRXingLGLingCCBiological rationales and clinical applications of temperature controlled hyperthermia – implications for multimodal cancer treatmentsCurr Med Chem201017273045305720629627
  • HurwitzMDThe effect of mild temperature hyperthermia on tumor hypoxia and blood perfusion: relevance for radiotherapy, vascular targeting and imagingInt J Hyper2010263224231
  • RabinYIs intracellular hyperthermia superior to extracellular hyperthermia in the thermal sense?Int J Hyper2002183194202
  • LefebureSBuboisECabuilVNeveuSMassartRMonodisperse magnetic nanoparticles: preparation and dispersion in water and oilsJ Mater Res1998131029752981
  • FortinJPWilhelmCServaisJMenagerCBacriJCGazeauFSize-sorted anionic iron oxide nanomagnets as colloidal mediators for magnetic hyperthermiaJ Am Chem Soc20071292628263517266310
  • CreixellMHerreraAPLatorre-EstevesMAyalaVTorres-LugoMRinaldiCEffect of graft method on the stability and cytotoxicity of carboxymethyl dextran coated magnetic nanoparticlesJ Mater Chem20102085398547
  • DeweyWCArrhenius relationships from the molecule and cell to the clinicInt J Hyper2009251320
  • MilesWCGoffJDHuffstetlerPPSynthesis and colloidal properties of polyether–magnetite complexes in water and phosphate-buffered salineLangmuir2009252802813
  • RylanderMNFengYBassJDillerKRThermally induced injury and heat shock protein expression in cells and tissuesAnn NY Acad Sci20051066122224216533928

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