연구동향 분석

Nano-enabled delivery systems across the blood-brain barrier

Hwang, Seung Rim Kim, Kwangmeyung 2014년

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인용/피인용
' Nano-enabled delivery systems across the blood-brain barrier' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • blood-brain barrier
  • central nervous system
  • nano-enableddelivery
  • nanotechnology
  • receptor-mediatedtranscytosis
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
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' Nano-enabled delivery systems across the blood-brain barrier' 의 참고문헌

  • Why is the global CNS pharmaceutical market so under-penetrated?
    Pardridge, W. M. Drug Discovery Today 7 : 5 ~ 7 - [2002]
  • Transporting therapeutics across the blood–brain barrier
    Abbott, N. J. Molecular Medicine Today 2 : 106 ~ 113 - [1996]
  • Transferrin receptor on endothelium of brain capillaries
    Jefferies, W. A. Nature 312 : 162 ~ 163 - [1984]
  • Transferrin coupled liposomes as drug delivery carriers for brain targeting of 5-florouracil
    Soni, V. Journal of Drug Targeting 13 : 245 ~ 250 - [2005]
  • Tight junctions of the blood–brain barrier : Development, composition and regulation
    Wolburg, H. Vascular Pharmacology 38 : 323 ~ 337 - [2002]
  • The use of submicron/nanoscale PLGA implants to deliver paclitaxel with enhanced pharmacokinetics and therapeutic efficacy in intracranial glioblastoma in mice
    Ranganath, S. H. Biomaterials 31 : 5199 ~ 5207 - [2010]
  • The targeted delivery of cancer drugs across the blood–brain barrier: Chemical modifications of drugs or drug-nanoparticles?
    Juillerat-Jeanneret, L. Drug Discovery Today 13 : 1099 ~ 1106 - [2008]
  • The targeted delivery of anticancer drugs to brain glioma by PEGylated oxidized multi-walled carbon nanotubes modified with angiopep-2
    Ren, J. Biomaterials 33 : 3324 ~ 3333 - [2012]
  • The potential for nanoparticle-based drug delivery to the brain : Overcoming the blood–brain barrier
    Barbu, E. Expert Opinion on Drug Delivery 6 : 553 ~ 565 - [2009]
  • The brain targeting mechanism of Angiopepconjugated poly(ethylene glycol)-co-poly(epsilon-caprolactone)nanoparticles
    Xin, H. Biomaterials 33 : 1673 ~ 1681 - [2012]
  • The brain targeting efficiency following nasally applied MPEG-PLA nanoparticles in rats
    Zhang, Q. Z. Journal of Drug Targeting 14 : 281 ~ 290 - [2006]
  • The blood–brain-barrier
    Joo, F. Nature 329 : 208 ~ - [1987]
  • The blood–brain barrier in neuroinflammatory diseases
    Devries, H. E. Pharmacological Reviews 49 : 143 ~ 155 - [1997]
  • The blood–brain barrier : An overview : Structure, regulation, and clinical implications
    Ballabh, P. Neurobiology of Disease 16 : 1 ~ 13 - [2004]
  • Substantial excretion of digoxin via the intestinal mucosa and prevention of long-term digoxin accumulation in the brain by the mdr1a P-glycoprotein
    Mayer, U. British Journal of Pharmacology 119 : 1038 ~ 1044 - [1996]
  • Structure-internalization relationship for adsorptivemediated endocytosis of basic peptides at the blood–brain barrier
    Tamai, I. The Journal of Pharmacology and Experimental Therapeutics 280 : 410 ~ 415 - [1997]
  • Structure of P-glycoprotein reveals a molecular basis for poly-specific drug binding
    Aller, S. G. Science 323 : 1718 ~ 1722 - [2009]
  • Structural and functional aspects of the blood–brain barrier. Progress in drug research. Fortschritte der Arzneimittelforschung
    Begley, D. J. Progres des Recherches Pharmaceutiques 61 : 39 ~ 78 - [2003]
  • Solid lipid nanoparticles for parenteral drug delivery
    Wissing, S. A. Advanced Drug Delivery Reviews 56 : 1257 ~ 1272 - [2004]
  • Site-directed decapsulation of bolaamphiphilic vesicles with enzymatic cleavable surface groups
    Popov, M. The Journal of Controlled Release 160 : 306 ~ 314 - [2012]
  • Significant transport of doxorubicin into the brain with polysorbate 80-coated nanoparticles
    Gulyaev, A. E. Pharmaceutical Research 16 : 1564 ~ 1569 - [1999]
  • Preparation and brain delivery property of biodegradable polymersomes conjugated with OX26
    Pang, Z. The Journal of Controlled Release 128 : 120 ~ 127 - [2008]
  • Potential use of tight junction modulators to reversibly open membranous barriers and improve drug delivery
    Deli, M. A. Biochimica et Biophysica Acta 1788 : 892 ~ 910 - [2009]
  • Poly(ethylene glycol)-coated hexadecylcyanoacrylate nanospheres display a combined effect for brain tumor targeting
    Brigger, I. Journal of Pharmacology and Experimental Therapeutics 303 : 928 ~ 936 - [2002]
  • Peptide-based vectors for blood–brain barrier targeting and delivery of drugs to the central nervous system
    Vlieghe, P. Therapeutic Delivery 1 : 489 ~ 494 [2010]
  • Pegylated liposomal doxorubicin-efficacy in patients with recurrent high-grade glioma
    Hau, P. Cancer 100 : 1199 ~ 1207 - [2004]
  • Passage of peptides through the blood–brain-barrier with colloidal polymer particles(nanoparticles)
    Kreuter, J. Brain Research 674 : 171 ~ 174 - [1995]
  • Nanotechnology approaches to crossing the blood–brain barrier and drug delivery to the CNS
    Silva, G. A. BMC Neuroscience 9 (Suppl 3) : S4 ~ - [2008]
  • Nanoparticulate systems for brain delivery of drugs
    Kreuter, J. Advanced Drug Delivery Reviews 47 : 65 ~ 81 - [2001]
  • Nanoparticle technology for drug delivery across the blood–brain barrier
    Lockman, P. R. Drug Development and Industrial Pharmacy 28 : 1 ~ 13 - [2002]
  • Nanomedicine : Towards development of patient-friendly drug-delivery systems for oncological applications
    Ranganathan, R. International Journal of Nanomedicine 7 : 1043 ~ 1060 - [2012]
  • Methylmethacrylate-sulfopropylmethacrylate nanoparticles with surface RMP-7 for targeting delivery of antiretroviral drugs across the blood–brain barrier
    Kuo, Y. C. Colloid Surface B 90 : 75 ~ 82 - [2012]
  • Long-term stabilization in patients with malignant glioma after treatment with liposomal doxorubicin
    Fabel, K. Cancer 92 : 1936 ~ 1942 - [2001]
  • Lactoferrin conjugated PEG-PLGA nanoparticles for brain delivery : Preparation, characterization and efficacy in Parkinson’s disease
    Hu, K. International Journal of Pharmaceutics 415 : 273 ~ 283 - [2011]
  • Kinetics of blood component adsorption on poly(D, L-lactic acid)nanoparticles : Evidence of complement C3 component involvement
    Allemann, E. Journal of Biomedical Materials Research 37 : 229 ~ 234 - [1997]
  • Intravenous cereport(RMP-7)modifies topographic uptake profile of carboplatin within rat glioma and brain surrounding tumor, elevates platinum levels, and enhances survival
    Bartus, R. T. The Journal of Pharmacology and Experimental Therapeutics 293 : 903 ~ 911 - [2000]
  • Intravenous cereport(RMP-7)enhances delivery of hydrophilic chemotherapeutics and increases survival in rats with metastatic tumors in the brain
    Emerich, D. F. Pharmaceutical Research 17 : 1212 ~ 1219 - [2000]
  • Intrathecal delivery of a polymeric nanocomposite hydrogel after spinal cord injury
    Baumann, M. D. Biomaterials 31 : 7631 ~ 7639 - [2010]
  • Increase of the duration of the anticonvulsive activity of a novel NMDA receptor antagonist using poly(butylcyanoacrylate)nanoparticles as a parenteral controlled release system
    Friese, A. European Journal of Pharmaceutics and Biopharmaceutics 49 : 103 ~ 109 - [2000]
  • In vivo, in vitro and in silico methods for small molecule transfer across the BBB
    Mensch, J. Journal of Pharmaceutical Sciences 98 : 4429 ~ 4468 - [2009]
  • Human blood–brain barrier leptin receptor. Binding and endocytosis in isolated human brain microvessels
    Golden, P. L. The Journal of Clinical Investigation 99 : 14 ~ 18 - [1997]
  • Glutathione : New candidate neuropeptide in the central nervous system
    Guo, N. Neuroscience 51 : 835 ~ 842 - [1992]
  • Glioblastoma cells release factors that disrupt blood–brain barrier features
    Schneider, S. W. Acta Neuropathologica 107 : 272 ~ 276 - [2004]
  • Getting into the brain approaches to enhance brain drug delivery
    Patel, M. M. Central Nervous System Drugs 23 : 35 ~ 58 - [2009]
  • GSH transport in human cerebrovascular endothelial cells and human astrocytes : Evidence for luminal localization of Na?-dependent GSH transport in HCEC
    Kannan, R. Brain Research 852 : 374 ~ 382 - [2000]
  • Fine structural localization of a blood–brain barrier to exogenous peroxidase
    Reese, T. S. The Journal of Cell Biology 34 : 207 ~ 217 - [1967]
  • Experimental reversal of P-glycoprotein-mediated multidrug resistance by pharmacological chemosensitisers
    Ford, J. M. European Journal of Cancer 32A : 991 ~ 1001 - [1996]
  • Emerging molecular mechanisms of brain tumour oedema
    Papadopoulos, M. C. British Journal of Neurosurgery 15 : 101 ~ 108 - [2001]
  • Electrical resistance across the blood–brain barrier in anaesthetized rats : A developmental study
    Butt, A. M. The Journal of Physiology 429 : 47 ~ 62 - [1990]
  • Drug transport to brain with targeted nanoparticles
    Olivier, J. C. The Journal of the American Society for Experimental Neuro Therapeutics 2 : 108 ~ 119 [2005]
  • Drug targeting to the brain
    Pardridge, W. M. Pharmaceutical Research 24 : 1733 ~ 1744 - [2007]
  • Drug metabolizing enzymes in cerebrovascular endothelial cells afford a metabolic protection to the brain
    El-Bacha, R.S. Cellular and Molecular Biology (Noisy-le-grand) 45 : 15 ~ 23 - [1999]
  • Delivery of therapeutic agents to the central nervous system : The problems and the possibilities
    Begley, D. J. Pharmacology Therapeut 104 : 29 ~ 45 - [2004]
  • Delivery of proteins to the brain by bolaamphiphilic nano-sized vesicles
    Dakwar, G. R. The Journal of Controlled Release 160 : 315 ~ 321 - [2012]
  • Delivery of loperamide across the blood–brain barrier with polysorbate 80-coated polybutylcyanoacrylate nanoparticles
    Alyautdin, R. N. Pharmaceutical Research 14 : 325 ~ 328 - [1997]
  • Co-delivery of pEGFPhTRAIL and paclitaxel to brain glioma mediated by an angiopep-conjugated liposome
    Sun, X. Biomaterials 33 : 916 ~ 924 - [2012]
  • Characterization, distribution, and protein kinase C-mediated regulation of [35S]glutathione binding sites in mouse and human spinal cord
    Lanius, R. A. Journal of Neurochemistry 63 : 155 ~ 160 - [1994]
  • Cationic vesicles from novel bolaamphiphilic compounds
    Popov, M. Journal of Liposome Research 20 : 147 ~ 159 - [2010]
  • Case study : To-BBB’s G-technology, getting the best from drug-delivery research with industry-academia partnerships
    Gaillard, P. J. Therapeutic Delivery 2 : 1391 ~ 1394 [2011]
  • CNS drug discovery : Challenges and solutions
    Palmer, A. M. Drug News and Perspectives 18 : 51 ~ 57 [2005]
  • CNS drug delivery systems : Novel approaches
    Pathan, S. A. Recent Patents on Drug Delivery and Formulation 3 : 71 ~ 89 [2009]
  • Brain targeting and toxicity study of odorranalectinconjugated nanoparticles following intranasal administration
    Wen, Z. Drug Delivery 18 : 555 ~ 561 - [2011]
  • Brain drug delivery of small molecules using immunoliposomes
    Huwyler, J. Wu, Dafang Proceedings of the National Academy of Sciences USA 93 : 14164 ~ 14169 - [1996]
  • Blood–brain barrier transport of therapeutics via receptor-mediation
    Jones, A. R. Pharmaceutical Research 24 : 1759 ~ 1771 - [2007]
  • Blood–brain barrier transcytosis of insulin in developing rabbits
    Duffy, K. R. Brain Research 420 : 32 ~ 38 - [1987]
  • Blood–brain barrier drug targeting : The future of brain drug development
    Pardridge, W. M. Molecular Interventions 3 : 90 ~ 105 [2003]
  • Biopharmaceutical drug targeting to the brain
    Pardridge, W. M. Journal of Drug Targeting 18 : 157 ~ 167 - [2010]
  • Biodegradable polymeric nanoparticles as drug delivery devices
    Soppimath, K. S. The Journal of Controlled Release 70 : 1 ~ 20 - [2001]
  • Astrocyteendothelial interactions at the blood–brain barrier
    Abbott, N. J. Nature Reviews Neuroscience 7 : 41 ~ 53 - [2006]
  • Approaches to transport therapeutic drugs across the blood–brain barrier to treat brain diseases
    Gabathuler, R. Neurobiology of Disease 37 : 48 ~ 57 - [2010]
  • Analgesic activity of the hexapeptide dalargin adsorbed on the surface of polysorbate 80-coated poly(butyl cyanoacrylate)nanoparticles
    Alyautdin, R. European Journal of Pharmaceutics and Biopharmaceutics 41 : 44 ~ 48 - [1995]
  • An electron microscopic study of the blood–brain barrier in the rat, employing silver nitrate as a vital stain
    Dempsey, E. W. The Journal of Biophysical and Biochemical Cytology 1 : 245 ~ 256 - [1955]