The shape of things to come: importance of design in nanotechnology for drug delivery. - Wikidata - thesis-toulmin - TriplyDB

The shape of things to come: importance of design in nanotechnology for drug delivery.

The shape of things to come: importance of design in nanotechnology for drug delivery.

http://www.wikidata.org/entity/Q36128678

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The Use of Synthetic Carriers in Malaria Vaccine Design Photodynamic nanomedicine in the treatment of solid tumors: perspectives and challenges Particle margination and its implications on intravenous anticancer drug delivery Vascular targeting of nanocarriers: perplexing aspects of the seemingly straightforward paradigm Drug delivery systems, CNS protection, and the blood brain barrier Numerical simulation of particle transport and deposition in the pulmonary vasculature A biological perspective toward the interaction of theranostic nanoparticles with the bloodstream - what needs to be considered?Systems approaches to design of targeted therapeutic delivery.Aptamers: new arrows to target dendritic cells.Modeling Nanoparticle Targeting to a Vascular Surface in Shear Flow Through Diffusive Particle Dynamics.Modified Nanoemulsions with Iron Oxide for Magnetic Resonance Imaging Cubical Shape Enhances the Interaction of Layer-by-Layer Polymeric Particles with Breast Cancer Cells Non-affinity factors modulating vascular targeting of nano- and microcarriers Coupled Particulate and Continuum Model for Nanoparticle Targeted Delivery.Computational modeling of magnetic nanoparticle targeting to stent surface under high gradient field.Antigen-specific T cell Redirectors: a nanoparticle based approach for redirecting T cells.Functional morphometric analysis in cellular behaviors: shape and size matter.Intracellular delivery of polymeric nanocarriers: a matter of size, shape, charge, elasticity and surface composition.Engineering antiphagocytic biomimetic drug carriers.Nanotechnology-based drug delivery systems for targeting, imaging and diagnosis of neurodegenerative diseases.Nanotechnology in the treatment of inflammatory bowel diseases.Nanoparticles in drug delivery: mechanism of action, formulation and clinical application towards reduction in drug-associated nephrotoxicity.Marine viruses: the beneficial side of a threat.Investigating the role of shape on the biological impact of gold nanoparticles in vitro.Magnetic nanoparticles for precision oncology: theranostic magnetic iron oxide nanoparticles for image-guided and targeted cancer therapy.The influence of size, shape and vessel geometry on nanoparticle distribution Nanoparticles in Medicine: Selected Observations and Experimental Caveats The spherical nanoparticle-encapsulated chlorhexidine enhances anti-biofilm efficiency through an effective releasing mode and close microbial interactions.Cell and nanoparticle transport in tumour microvasculature: the role of size, shape and surface functionality of nanoparticles.Neuroprotective effects of three different sizes nanochelating based nano complexes in MPP(+) induced neurotoxicity.Magnetic Sensing Potential of Fe3O4 Nanocubes Exceeds That of Fe3O4 Nanospheres.Formation of Polymeric Nanocubes by Self-Assembly and Crystallization of Dithiolane-Containing Triblock Copolymers.Mesoporous ZnO nanocapsules for the induction of enhanced antigen-specific immunological responses.Microparticle shape effects on margination, near-wall dynamics and adhesion in a three-dimensional simulation of red blood cell suspension.Antibody-coated nanoparticles are promising molecular probes for microscopic analysis of cell behavior.Morphology-Variable Aggregates Prepared from Cholesterol-Containing Amphiphilic Glycopolymers: Their Protein Recognition/Adsorption and Drug Delivery Applications.Tunable particles alter macrophage uptake based on combinatorial effects of physical properties.Multivalent Binding of a Ligand-Coated Particle: Role of Shape, Size, and Ligand Heterogeneity.Self-assembled filomicelles prepared from polylactide-poly(ethylene glycol) diblock copolymers for sustained delivery of cycloprotoberberine derivatives.Manipulating nanoparticle transport within blood flow through external forces: an exemplar of mechanics in nanomedicine.

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P2860

The shape of things to come: importance of design in nanotechnology for drug delivery.

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Therapeutic delivery

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The shape of things to come: importance of design in nanotechnology for drug delivery.

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Antony Thomas

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Daniel Ou-Yang

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Jifu Tan

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Vladimir R Muzykantov

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Yaling Liu

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P2860

Beyond molecules: self-assembly of mesoscopic and macroscopic components

The Mechanism of HIV-1 Core Assembly: Insights from Three-Dimensional Reconstructions of Authentic Virions

Determining the size and shape dependence of gold nanoparticle uptake into mammalian cells

Role of target geometry in phagocytosis.

Polymer particles that switch shape in response to a stimulus.

Using mechanobiological mimicry of red blood cells to extend circulation times of hydrogel microparticles

Modeling particle shape-dependent dynamics in nanomedicine

Targeted cytosolic delivery of cell-impermeable compounds by nanoparticle-mediated, light-triggered endosome disruption.

Targeted polymeric micelles for delivery of poorly soluble drugs.

Cancer cell imaging and photothermal therapy in the near-infrared region by using gold nanorods.

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