pH gradient difference around ischemic brain tissue can serve as a trigger for delivering polyethylene glycol-conjugated urokinase nanogels (English)
- New search for: Cui, Wei
- New search for: Cui, Wei
- New search for: Liu, Ran
- New search for: Jin, Haiqiang
- New search for: Lv, Pu
- New search for: Sun, Yuyao
- New search for: Men, Xi
- New search for: Yang, Saina
- New search for: Qu, Xiaozhong
- New search for: Yang, Zhenzhong
- New search for: Huang, Yining
In:
Journal of controlled release
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225
; 53-63
;
2016
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ISSN:
- Article (Journal) / Print
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Title:pH gradient difference around ischemic brain tissue can serve as a trigger for delivering polyethylene glycol-conjugated urokinase nanogels
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Contributors:Cui, Wei ( author ) / Liu, Ran / Jin, Haiqiang / Lv, Pu / Sun, Yuyao / Men, Xi / Yang, Saina / Qu, Xiaozhong / Yang, Zhenzhong / Huang, Yining
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Published in:Journal of controlled release ; 225 ; 53-63
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Publisher:
- New search for: Elsevier
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Place of publication:Amsterdam
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Publication date:2016
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ISSN:
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ZDBID:
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DOI:
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Type of media:Article (Journal)
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Type of material:Print
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Language:English
- New search for: 535/3810/4322
- New search for: 58.28 / 44.40 / 44.40 / 58.28
- Further information on Basic classification
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Keywords:
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Classification:
Local classification TIB: 535/3810/4322 BKL: 58.28 / 44.40 / 44.40 Pharmazie, Pharmazeutika / 58.28 Pharmazeutische Technologie -
Source:
Table of contents – Volume 225
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 1
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Exploring the use of nanocarrier systems to deliver the magical molecule; Curcumin and its derivativesMehanny, Mina et al. | 2016
- 31
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Controlled release of a microencapsulated arduous semi-hydrophobic active from coatings: Superhydrophilic polyelectrolyte shells as globally rate-determining barriersBergek, Jonatan et al. | 2016
- 40
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Formulations for microprojection/microneedle vaccine delivery: Structure, strength and release profilesRaphael, Anthony P et al. | 2016
- 53
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pH gradient difference around ischemic brain tissue can serve as a trigger for delivering polyethylene glycol-conjugated urokinase nanogelsCui, Wei et al. | 2016
- 64
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Self-sufficing H2O2-responsive nanocarriers through tumor-specific H2O2 production for synergistic oxidation-chemotherapyLi, Junjie et al. | 2016
- 75
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Facts and evidences on the lyophilization of polymeric nanoparticles for drug deliveryFonte, Pedro et al. | 2016
- 87
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Targeting of pegylated liposomal mitomycin-C prodrug to the folate receptor of cancer cells: Intracellular activation and enhanced cytotoxicityPatil, Yogita et al. | 2016
- 96
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Zinc finger-inspired nanohydrogels with glutathione/pH triggered degradation based on coordination substitution for highly efficient delivery of anti-cancer drugsZhang, Zihao et al. | 2016
- 109
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Slow release coating remedy for nitrogen loss from conventional urea: a reviewNaz, Muhammad Yasin et al. | 2016
- 121
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The potential of protein-nanomaterial interaction for advanced drug deliveryPeng, Qiang et al. | 2016
- 133
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Biodegradable poly(lactic-co-glycolic acid) microspheres loaded with S-nitroso-N-acetyl-D-penicillamine for controlled nitric oxide deliveryLautner, Gergely et al. | 2016
- 140
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Combining the single-walled carbon nanotubes with low voltage electrical stimulation to improve accumulation of nanomedicines in tumor for effective cancer therapyLee, Pei-Chi et al. | 2016
- 152
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Importance of dual delivery systems for bone tissue engineeringFarokhi, Mehdi et al. | 2016
- 170
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Hyaluronic acid ion-pairing nanoparticles for targeted tumor therapyLi, Wenhao et al. | 2016
- 183
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A lipid nanoparticle for the efficient delivery of siRNA to dendritic cellsWarashina, Shota et al. | 2016
- 192
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Induction of broad immunity by thermostabilised vaccines incorporated in dissolvable microneedles using novel fabrication methodsVrdoljak, Anto et al. | 2016
- 205
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Carbon nanotubes' surface chemistry determines their potency as vaccine nanocarriers in vitro and in vivoHassan, Hatem A F M et al. | 2016
- 217
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Translocation of LRP1 targeted carbon nanotubes of different diameters across the blood-brain barrier in vitro and in vivoKafa, Houmam et al. | 2016
- 230
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Immune responses to vaccines delivered by encapsulation into and/or adsorption onto cationic lipid-PLGA hybrid nanoparticlesLiu, Lanxia et al. | 2016
- 240
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Combination of drug-conjugated SWCNT nanocarriers for efficient therapy of cancer stem cells in a breast cancer animal modelAl Faraj, Achraf et al. | 2016
- 252
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Nanomaterial-dependent immunoregulation of dendritic cells and its effects on biological activities of contraceptive nanovaccinesXu, Pingping et al. | 2016
- 269
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Reformulating cyclosporine A (CsA): More than just a life cycle management strategyGuada, Melissa et al. | 2016
- 283
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Lauroyl-gemcitabine-loaded lipid nanocapsule hydrogel for the treatment of glioblastomaBastiancich, C et al. | 2016
- 294
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Micropore closure kinetics are delayed following microneedle insertion in elderly subjectsKelchen, Megan N et al. | 2016
- 301
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Doxorubicin-loaded nanoparticles consisted of cationic- and mannose-modified-albumins for dual-targeting in brain tumorsByeon, Hyeong Jun et al. | 2016
- 314
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Dissolving microneedle vaccine delivery systemsPark, Kinam et al. | 2016
- e1
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Graphical Abstracts Contents Listing| 2016
- I
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Calendar| 2016
- ii
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Editorial Board| 2016