Effect of physicochemical properties on intranasal nanoparticle transit into murine olfactory epithelium. - Wikidata - awgldk - TriplyDB

Effect of physicochemical properties on intranasal nanoparticle transit into murine olfactory epithelium.

Effect of physicochemical properties on intranasal nanoparticle transit into murine olfactory epithelium.

http://www.wikidata.org/entity/Q48568227

about

Size-dependent deposition, translocation, and microglial activation of inhaled silver nanoparticles in the rodent nose and brain Translocation of particles deposited in the respiratory system: a systematic review and statistical analysis Recent advances in protein and Peptide drug delivery: a special emphasis on polymeric nanoparticles Formulations for Intranasal Delivery of Pharmacological Agents to Combat Brain Disease: A New Opportunity to Tackle GBM?Brain delivery of valproic acid via intranasal administration of nanostructured lipid carriers: in vivo pharmacodynamic studies using rat electroshock model.Inhalable curcumin: offering the potential for translation to imaging and treatment of Alzheimer's disease The nasal delivery of nanoencapsulated statins - an approach for brain delivery New developments in aerosol dosimetry.Nasal-nanotechnology: revolution for efficient therapeutics delivery.Optimization of artemether-loaded NLC for intranasal delivery using central composite design.Brain-targeted polymeric nanoparticles: in vivo evidence of different routes of administration in rodents.Nanomaterials in controlled drug release.Uptake and bio-reactivity of polystyrene nanoparticles is affected by surface modifications, ageing and LPS adsorption: in vitro studies on neural tissue cells.Pharmacokinetic evaluation of intranasally administered vinyl polymer-coated lorazepam microparticles in rabbits.Intranasal Administration of TAT-Conjugated Lipid Nanocarriers Loading GDNF for Parkinson's Disease.Evidence of nose-to-brain delivery of nanoemulsions: cargoes but not vehicles.Surface-Modified Nanocarriers for Nose-to-Brain Delivery: From Bioadhesion to Targeting.Protein Based Nanostructures for Drug Delivery.

P2860

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P2860

Effect of physicochemical properties on intranasal nanoparticle transit into murine olfactory epithelium.

http://www.wikidata.org/entity/Q48568227

description

2009 nî lūn-bûn

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2009年の論文

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2009年学术文章

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2009年学术文章

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2009年学术文章

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2009年学术文章

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2009年学术文章

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2009年学术文章

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2009年學術文章

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2009年學術文章

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name

Effect of physicochemical prop ...... o murine olfactory epithelium.

@en

Effect of physicochemical prop ...... o murine olfactory epithelium.

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type

label

Effect of physicochemical prop ...... o murine olfactory epithelium.

@en

Effect of physicochemical prop ...... o murine olfactory epithelium.

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prefLabel

Effect of physicochemical prop ...... o murine olfactory epithelium.

@en

Effect of physicochemical prop ...... o murine olfactory epithelium.

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Journal of Drug Targeting

P1476

Effect of physicochemical prop ...... o murine olfactory epithelium.

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P2093

Alpesh Mistry

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Jens Randel

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Jørgen Kjems

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Kenneth Alan Howard

http://www.w3.org/2001/XMLSchema#string

Lisbeth Illum

http://www.w3.org/2001/XMLSchema#string

Snjezana Stolnik

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Sys Zoffmann Glud

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P2860

Intranasal delivery bypasses the blood-brain barrier to target therapeutic agents to the central nervous system and treat neurodegenerative disease

Altering mucus rheology to"solidify" human mucus at the nanoscale

Translocation of Inhaled Ultrafine Particles to the Brain

Rapid transport of large polymeric nanoparticles in fresh undiluted human mucus.

The effect of a PEG versus a chitosan coating on the interaction of drug colloidal carriers with the ocular mucosa.

Transport of PLA-PEG particles across the nasal mucosa: effect of particle size and PEG coating density.

Time-dependent translocation and potential impairment on central nervous system by intranasally instilled TiO(2) nanoparticles.

Transport of drugs from the nasal cavity to the central nervous system.

Drug transfer through mucus.

Morphology of olfactory epithelium in humans and other vertebrates.

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543-552

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scholarly article

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10.1080/10611860903055470

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7

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17

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19530905

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