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Biomimetic particles as therapeutics

Highlights • Engineering particle material, size, and shape enables enhanced biomimicry. • Particles with paracrine delivery of soluble mediators mimic secretory cells. • Artificial cell membranes mimic the surface chemistry of cells and viruses. • Particles can be coated with naturally derived cell... Full description

Journal Title: Trends in biotechnology (Regular ed.) 2015, Vol.33 (9), p.514-524
Main Author: Meyer, Randall A
Other Authors: Sunshine, Joel C , Green, Jordan J
Format: Electronic Article Electronic Article
Language: English
Subjects:
Animals
Antigens
Article
Atoms & subatomic particles
biomaterial
biomimetic
Biomimetic Materials - chemistry
Biomimetic Materials - therapeutic use
Biomimetics
Cancer
Design
drug delivery
Drug delivery systems
Homeopathy
Humans
Internal Medicine
Lipids
Lymphocytes
Materia medica and therapeutics
Melanoma
Membranes
Mice
micro
micro/nanoparticle
nanoparticle
Nanoparticles - chemistry
Nanoparticles - therapeutic use
Nanoparticles - ultrastructure
Nanotechnology
Particle size
Physical properties
Proteins
T cell receptors
Therapeutics
Viral infections
Viruses
Quelle: Alma/SFX Local Collection
Publisher: England: Elsevier Ltd
ID: ISSN: 0167-7799
Link: https://www.ncbi.nlm.nih.gov/pubmed/26277289
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title: Biomimetic particles as therapeutics
format: Article
creator:
  • Meyer, Randall A
  • Sunshine, Joel C
  • Green, Jordan J
subjects:
  • Animals
  • Antigens
  • Article
  • Atoms & subatomic particles
  • biomaterial
  • biomimetic
  • Biomimetic Materials - chemistry
  • Biomimetic Materials - therapeutic use
  • Biomimetics
  • Cancer
  • Design
  • drug delivery
  • Drug delivery systems
  • Homeopathy
  • Humans
  • Internal Medicine
  • Lipids
  • Lymphocytes
  • Materia medica and therapeutics
  • Melanoma
  • Membranes
  • Mice
  • micro
  • micro/nanoparticle
  • nanoparticle
  • Nanoparticles - chemistry
  • Nanoparticles - therapeutic use
  • Nanoparticles - ultrastructure
  • Nanotechnology
  • Particle size
  • Physical properties
  • Proteins
  • T cell receptors
  • Therapeutics
  • Viral infections
  • Viruses
ispartof: Trends in biotechnology (Regular ed.), 2015, Vol.33 (9), p.514-524
description: Highlights • Engineering particle material, size, and shape enables enhanced biomimicry. • Particles with paracrine delivery of soluble mediators mimic secretory cells. • Artificial cell membranes mimic the surface chemistry of cells and viruses. • Particles can be coated with naturally derived cell membranes for cell mimicry.
language: eng
source: Alma/SFX Local Collection
identifier: ISSN: 0167-7799
fulltext: fulltext
issn:
  • 0167-7799
  • 1879-3096
url: Link


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descriptionHighlights • Engineering particle material, size, and shape enables enhanced biomimicry. • Particles with paracrine delivery of soluble mediators mimic secretory cells. • Artificial cell membranes mimic the surface chemistry of cells and viruses. • Particles can be coated with naturally derived cell membranes for cell mimicry.
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subjectAnimals ; Antigens ; Article ; Atoms & subatomic particles ; biomaterial ; biomimetic ; Biomimetic Materials - chemistry ; Biomimetic Materials - therapeutic use ; Biomimetics ; Cancer ; Design ; drug delivery ; Drug delivery systems ; Homeopathy ; Humans ; Internal Medicine ; Lipids ; Lymphocytes ; Materia medica and therapeutics ; Melanoma ; Membranes ; Mice ; micro ; micro/nanoparticle ; nanoparticle ; Nanoparticles - chemistry ; Nanoparticles - therapeutic use ; Nanoparticles - ultrastructure ; Nanotechnology ; Particle size ; Physical properties ; Proteins ; T cell receptors ; Therapeutics ; Viral infections ; Viruses
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abstractHighlights • Engineering particle material, size, and shape enables enhanced biomimicry. • Particles with paracrine delivery of soluble mediators mimic secretory cells. • Artificial cell membranes mimic the surface chemistry of cells and viruses. • Particles can be coated with naturally derived cell membranes for cell mimicry.
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