Effects of polyethylene glycol on the surface of nanoparticles for targeted drug delivery

The rapid development of drug nanocarriers has benefited from the surface hydrophilic polymers of particles, which has improved the pharmacokinetics of the drugs. Polyethylene glycol (PEG) is a kind of polymeric material with unique hydrophilicity and electrical neutrality. PEG coating is a crucial...

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Published inNanoscale Vol. 13; no. 24; pp. 1748 - 1764
Main Authors Shi, Liwang, Zhang, Jinqiu, Zhao, Man, Tang, Shukun, Cheng, Xu, Zhang, Wenyuan, Li, Wenhua, Liu, Xiaoying, Peng, Haisheng, Wang, Qun
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 28.06.2021
Subjects
Chemical properties
Density
Drug carriers
Nanoparticles
Polyethylene glycol
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Abstract The rapid development of drug nanocarriers has benefited from the surface hydrophilic polymers of particles, which has improved the pharmacokinetics of the drugs. Polyethylene glycol (PEG) is a kind of polymeric material with unique hydrophilicity and electrical neutrality. PEG coating is a crucial factor to improve the biophysical and chemical properties of nanoparticles and is widely studied. Protein adherence and macrophage removal are effectively relieved due to the existence of PEG on the particles. This review discusses the PEGylation methods of nanoparticles and related techniques that have been used to detect the PEG coverage density and thickness on the surface of the nanoparticles in recent years. The molecular weight (MW) and coverage density of the PEG coating on the surface of nanoparticles are then described to explain the effects on the biophysical and chemical properties of nanoparticles. The Effects of Surface Polyethylene Glycol on Nanoparticles' Fate. a. Mechanical properties. b. Stability. c. Drug encapsulation. d. Plasma proteins adsorption. e. Mucus penetration. f. Active targeting. g. Cellular internalization. h. Circulation time. i. Blood clearance.
AbstractList The rapid development of drug nanocarriers has benefited from the surface hydrophilic polymers of particles, which has improved the pharmacokinetics of the drugs. Polyethylene glycol (PEG) is a kind of polymeric material with unique hydrophilicity and electrical neutrality. PEG coating is a crucial factor to improve the biophysical and chemical properties of nanoparticles and is widely studied. Protein adherence and macrophage removal are effectively relieved due to the existence of PEG on the particles. This review discusses the PEGylation methods of nanoparticles and related techniques that have been used to detect the PEG coverage density and thickness on the surface of the nanoparticles in recent years. The molecular weight (MW) and coverage density of the PEG coating on the surface of nanoparticles are then described to explain the effects on the biophysical and chemical properties of nanoparticles.
The rapid development of drug nanocarriers has benefited from the surface hydrophilic polymers of particles, which has improved the pharmacokinetics of the drugs. Polyethylene glycol (PEG) is a kind of polymeric material with unique hydrophilicity and electrical neutrality. PEG coating is a crucial factor to improve the biophysical and chemical properties of nanoparticles and is widely studied. Protein adherence and macrophage removal are effectively relieved due to the existence of PEG on the particles. This review discusses the PEGylation methods of nanoparticles and related techniques that have been used to detect the PEG coverage density and thickness on the surface of the nanoparticles in recent years. The molecular weight (MW) and coverage density of the PEG coating on the surface of nanoparticles are then described to explain the effects on the biophysical and chemical properties of nanoparticles.The rapid development of drug nanocarriers has benefited from the surface hydrophilic polymers of particles, which has improved the pharmacokinetics of the drugs. Polyethylene glycol (PEG) is a kind of polymeric material with unique hydrophilicity and electrical neutrality. PEG coating is a crucial factor to improve the biophysical and chemical properties of nanoparticles and is widely studied. Protein adherence and macrophage removal are effectively relieved due to the existence of PEG on the particles. This review discusses the PEGylation methods of nanoparticles and related techniques that have been used to detect the PEG coverage density and thickness on the surface of the nanoparticles in recent years. The molecular weight (MW) and coverage density of the PEG coating on the surface of nanoparticles are then described to explain the effects on the biophysical and chemical properties of nanoparticles.
The rapid development of drug nanocarriers has benefited from the surface hydrophilic polymers of particles, which has improved the pharmacokinetics of the drugs. Polyethylene glycol (PEG) is a kind of polymeric material with unique hydrophilicity and electrical neutrality. PEG coating is a crucial factor to improve the biophysical and chemical properties of nanoparticles and is widely studied. Protein adherence and macrophage removal are effectively relieved due to the existence of PEG on the particles. This review discusses the PEGylation methods of nanoparticles and related techniques that have been used to detect the PEG coverage density and thickness on the surface of the nanoparticles in recent years. The molecular weight (MW) and coverage density of the PEG coating on the surface of nanoparticles are then described to explain the effects on the biophysical and chemical properties of nanoparticles. The Effects of Surface Polyethylene Glycol on Nanoparticles' Fate. a. Mechanical properties. b. Stability. c. Drug encapsulation. d. Plasma proteins adsorption. e. Mucus penetration. f. Active targeting. g. Cellular internalization. h. Circulation time. i. Blood clearance.
Author Shi, Liwang
Zhao, Man
Peng, Haisheng
Zhang, Wenyuan
Liu, Xiaoying
Wang, Qun
Cheng, Xu
Li, Wenhua
Tang, Shukun
Zhang, Jinqiu
AuthorAffiliation Department of Pharmaceutics
Daqing Campus of Harbin Medical University
Department of Chemical and Biological Engineering
Iowa State University
Department of Foreign language
Daqing Normal University
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– name: Iowa State University
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– name: Daqing Normal University
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Snippet The rapid development of drug nanocarriers has benefited from the surface hydrophilic polymers of particles, which has improved the pharmacokinetics of the...
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SubjectTerms Chemical properties
Density
Drug carriers
Nanoparticles
Polyethylene glycol
Title Effects of polyethylene glycol on the surface of nanoparticles for targeted drug delivery
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