Red blood cells and polyelectrolyte multilayer capsules: natural carriers versus polymer-based drug delivery vehicles.
about
Cell or cell membrane-based drug delivery systemsMacrophage depletion by free bisphosphonates and zoledronate-loaded red blood cellsTurning erythrocytes into functional micromotors.Towards theranostic multicompartment microcapsules: in-situ diagnostics and laser-induced treatment.25th anniversary article: Dynamic interfaces for responsive encapsulation systems.Erythrocytes-based synthetic delivery systems: transition from conventional to novel engineering strategies.Solid surface vs. liquid surface: nanoarchitectonics, molecular machines, and DNA origami.Erythrocytes in nanomedicine: an optimal blend of natural and synthetic materials.Multifunctional theranostic red blood cells for magnetic-field-enhanced in vivo combination therapy of cancer.Advances in Anticancer Protein Delivery Using Micro-/ Nanoparticles.In vitro and in vivo MRI visualization of nanocomposite biodegradable microcapsules with tunable contrast.Drug delivery carriers on the fringes: natural red blood cells versus synthetic multilayered capsules.Red blood cells decorated with functionalized core-shell magnetic nanoparticles: elucidation of the adsorption mechanism.Endocytic pH-triggered degradation of nanoengineered multilayer capsules.Co-Assembly of Heparin and Polypeptide Hybrid Nanoparticles for Biomimetic Delivery and Anti-Thrombus Therapy.Impact of high-frequency ultrasound on nanocomposite microcapsules: in silico and in situ visualization.Effect of Gaussian curvature modulus on the shape of deformed hollow spherical objects.“Smart” Surface Capsules for Delivery DevicesBioinspired nanoarchitectonics as emerging drug delivery systems
P2860
Q28080710-4CD492BE-72D2-40B3-8E7E-7A8FF006CBBCQ28540086-577AE91B-2364-4A23-A5E0-3906C13D9503Q30395398-5870D5D7-BCBE-48AD-A87F-153B94DC79F3Q34614043-90D806F7-2D3F-43B7-90EE-211F7B5E0A99Q38133778-F36B8655-58D1-435B-AB73-CED66E8F0C66Q38218799-47413B71-72F0-4CF0-B5C1-7F8131F6047CQ38662155-B59A8A4C-1CEC-4BF2-BB6C-6A3919C89682Q38811159-1436394A-A501-418F-BAF3-05BC6F0F5824Q38994042-C9B61972-59BE-45E2-A41B-A7ACDE73F871Q39092873-800B865C-0A71-4EDF-B7F1-D213465D305CQ39184295-83B61C5C-FED3-4475-9E1B-5644F9164E2AQ44035147-A4429BA7-9028-4356-A3BF-31479D8DE6BFQ45278439-DFC11657-A054-4BBB-8F31-C6A3B1926D21Q47572868-69EAE83C-E8A1-443E-A1A9-D5A9F0BBA46FQ50245883-7489CDB5-ECBF-42B9-9759-CC4218A60303Q51614980-2E4C2650-0F48-4578-95DA-8F2B6AD7851EQ53087540-7151B849-1C0C-4194-91AF-C4F05939010EQ57341622-4F715A41-EF54-408C-9DB2-A97CABE102DFQ59264434-476C0021-A19B-4A7D-9ADD-AC59DEB62A1D
P2860
Red blood cells and polyelectrolyte multilayer capsules: natural carriers versus polymer-based drug delivery vehicles.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Red blood cells and polyelectr ...... -based drug delivery vehicles.
@en
type
label
Red blood cells and polyelectr ...... -based drug delivery vehicles.
@en
prefLabel
Red blood cells and polyelectr ...... -based drug delivery vehicles.
@en
P2860
P1476
Red blood cells and polyelectr ...... -based drug delivery vehicles.
@en
P2093
Tatiana A Kolesnikova
P2860
P356
10.1517/17425247.2013.730516
P407
P577
2012-10-18T00:00:00Z