about
Semipermeable polymer vesicle (PICsome) self-assembled in aqueous medium from a pair of oppositely charged block copolymers: physiologically stable micro-/nanocontainers of water-soluble macromolecules.Intraperitoneal administration of a tumor-associated antigen SART3, CD40L, and GM-CSF gene-loaded polyplex micelle elicits a vaccine effect in mouse tumor modelsIn vivo messenger RNA introduction into the central nervous system using polyplex nanomicelle.Feasibility of a subcutaneously administered block/homo-mixed polyplex micelle as a carrier for DNA vaccination in a mouse tumor model.Polyplex micelle installing intracellular self-processing functionalities without free catiomers for safe and efficient systemic gene therapy through tumor vasculature targeting.Systemic delivery of messenger RNA for the treatment of pancreatic cancer using polyplex nanomicelles with a cholesterol moiety.Ternary polyplex micelles with PEG shells and intermediate barrier to complexed DNA cores for efficient systemic gene delivery.Bundled assembly of helical nanostructures in polymeric micelles loaded with platinum drugs enhancing therapeutic efficiency against pancreatic tumor.Optimized rod length of polyplex micelles for maximizing transfection efficiency and their performance in systemic gene therapy against stroma-rich pancreatic tumors.Three-layered polyplex micelle as a multifunctional nanocarrier platform for light-induced systemic gene transfer.Pancreatic cancer therapy by systemic administration of VEGF siRNA contained in calcium phosphate/charge-conversional polymer hybrid nanoparticles.Effective transgene expression without toxicity by intraperitoneal administration of PEG-detachable polyplex micelles in mice with peritoneal dissemination.Homo-catiomer integration into PEGylated polyplex micelle from block-catiomer for systemic anti-angiogenic gene therapy for fibrotic pancreatic tumors.Enhanced gene expression promoted by the quantized folding of pDNA within polyplex micelles.Polyplex micelles prepared from ω-cholesteryl PEG-polycation block copolymers for systemic gene delivery.Charge-conversional polyionic complex micelles-efficient nanocarriers for protein delivery into cytoplasm.Glycaemic control boosts glucosylated nanocarrier crossing the BBB into the brain.A synthetic block copolymer regulates S1 nuclease fragmentation of supercoiled plasmid DNA.Secondary-Structure-Driven Self-Assembly of Reactive Polypept(o)ides: Controlling Size, Shape, and Function of Core Cross-Linked Nanostructures.Polyplex Micelles with Phenylboronate/Gluconamide Cross-Linking in the Core Exerting Promoted Gene Transfection through Spatiotemporal Responsivity to Intracellular pH and ATP Concentration.Therapeutic Vesicular Nanoreactors with Tumor-Specific Activation and Self-Destruction for Synergistic Tumor Ablation.Block Copolymer Micellization as a Protection Strategy for DNA Origami.Poly(ethylene glycol) Crowding as Critical Factor To Determine pDNA Packaging Scheme into Polyplex Micelles for Enhanced Gene Expression.Effect of shear stress on structure and function of polyplex micelles from poly(ethylene glycol)-poly(l-lysine) block copolymers as systemic gene delivery carrier.Methods for the Self-integration of Megamolecular Biopolymers on the Drying Air-LC Interface.Encapsulation of myoglobin in PEGylated polyion complex vesicles made from a pair of oppositely charged block ionomers: a physiologically available oxygen carrier.Influence of RNA Strand Rigidity on Polyion Complex Formation with Block Catiomers.Enhanced target recognition of nanoparticles by cocktail PEGylation with chains of varying lengths.Rod-to-Globule Transition of pDNA/PEG-Poly(l-Lysine) Polyplex Micelles Induced by a Collapsed Balance Between DNA Rigidity and PEG Crowdedness.Toroidal Packaging of pDNA into Block Ionomer Micelles Exerting Promoted in Vivo Gene Expression.Targeted polymeric micelles for siRNA treatment of experimental cancer by intravenous injection.Enhanced in vivo Magnetic Resonance Imaging of Tumors by PEGylated Iron-Oxide-Gold Core-Shell Nanoparticles with Prolonged Blood Circulation Properties.Block Copolymer Micelles in Nanomedicine ApplicationsEffect of polymer structure on micelles formed between siRNA and cationic block copolymer comprising thiols and amidinesPolyplex Micelles with Double-Protective Compartments of Hydrophilic Shell and Thermoswitchable Palisade of Poly(oxazoline)-Based Block Copolymers for Promoted Gene TransfectionIn vivo rendezvous of small nucleic acid drugs with charge-matched block catiomers to target cancersNanoPARCEL: a method for controlling cellular behavior with external lightBioactive polymeric metallosomes self-assembled through block copolymer-metal complexationA tadpole-shaped gene carrier with distinct phase segregation in a ternary polymeric micelleTargeted gene delivery by polyplex micelles with crowded PEG palisade and cRGD moiety for systemic treatment of pancreatic tumors
P50
Q33241956-B646E97B-5735-4390-AF30-0CB72C5AF063Q33889445-6A8071C0-B477-4B62-9B1D-9570F7EDF0E0Q34589906-969D810C-84BF-4C41-81D1-E27D001302A1Q35589346-C31BD785-15D3-4371-B4DD-CB434E5590D8Q36190082-644BE821-65D2-4C71-8CEC-F6E8A3D3E0E0Q38803923-B4138B3E-41F5-4527-9A5E-781DA4A96E58Q38882367-4F30BA4A-9D5C-4943-8E52-D45B66B5782BQ38985137-9A71A756-2608-420F-8CF2-AE305C9C1EC2Q39005572-1774C3F1-9158-411B-985C-E73A5CE121C1Q39008913-4F722EBB-45C2-4D9A-80E2-5AB0357175C8Q39349487-0BA3AF6C-8A4B-49E7-ACFE-C4595D6D3599Q39368075-246E8321-2EB3-4202-93CC-7459E59BD4F5Q39374732-31562210-55D2-452F-932A-CC50E5F48A22Q39459268-CDA0966E-32AA-4BF3-A38D-1CF47EF4D4F9Q39646717-CAD66911-055D-4E5C-947C-FF2F8D7FA062Q39871541-BC7DE513-DBB9-4912-9B2B-9AF768ED2F5BQ42379631-BE3DBB69-8CD6-43BB-9645-A38EA9573AD1Q46478884-CE8CD0CB-8012-4AED-B3ED-C120ECE3495BQ47210949-B4D96AA6-DAAD-44C1-AD68-DBE92A004493Q47300266-C317020A-13D9-4DEC-9CAE-B404310569DEQ47643251-4326324E-3D1F-425C-A969-13FDFE964F6BQ48123572-5A89C93C-CA84-4A55-971C-C2D758C20ABBQ48141553-931396E7-CC22-4924-88CE-F1F8B2077B48Q48818389-27A8935E-F2CB-47D8-B911-5CDAD851564EQ50899966-39AF2688-61F1-4392-93B0-D2A9780EBA2BQ50956620-0054124C-A8D9-4BDC-9E41-270CE3237083Q51562391-7D41BE1C-B2BC-4082-9F59-C0FC28D0B6ACQ51609459-709DFC7C-8022-435A-BF34-A953FCDEF151Q51700784-21D8D32D-9A11-410A-B8D8-FF560E851094Q51827966-26A98275-D1FB-4574-8BDB-B7F0787C9D9DQ53169867-001394A4-2498-4C27-87A8-6E7A71E19743Q53248270-EFC92907-BEC0-4FB3-BA22-BB751C99DD52Q57174691-AECBA214-935E-4809-BA02-4A8BCDD37E3CQ57184939-D3068D38-85E3-41A2-94EA-7131B54C258CQ57362289-E744BC71-1BD5-4E0F-ACFF-5F66B93DE7D5Q64094904-BA3E2B2E-DFAF-4444-AEAD-BEF2D408A46CQ84575766-28B5760A-A5C6-47AB-A9CF-64D6D49E457DQ84627248-83BC753A-74E5-470B-BD1D-78CB80C93C18Q86822535-D25ABC68-B4B3-43FB-83B8-43A78F655894Q87121224-D690EF2A-F4EE-4BA7-B99C-CC96A1B1416D
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Kensuke Osada
@ast
Kensuke Osada
@en
Kensuke Osada
@es
Kensuke Osada
@nl
Kensuke Osada
@sl
type
label
Kensuke Osada
@ast
Kensuke Osada
@en
Kensuke Osada
@es
Kensuke Osada
@nl
Kensuke Osada
@sl
prefLabel
Kensuke Osada
@ast
Kensuke Osada
@en
Kensuke Osada
@es
Kensuke Osada
@nl
Kensuke Osada
@sl
P1053
V-3322-2017
P106
P1153
7101855885
P21
P31
P3829
P496
0000-0001-9557-6851
P569
2000-01-01T00:00:00Z