Functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatment

Functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatment

Nanotechnology has been extensively utilized in the design and development of powerful strategies for drug delivery and cancer theranostic. Nanoplatforms as a drug delivery system have many advantages such as in vivo imaging, combined drug delivery, extended circulation time, and systemic controlled...

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Main Authors: Lei Li, Junqing Wang, Hangru Kong, Yun Zeng, Gang Liu
Format: Article
Language:English
Published: Taylor & Francis Group 2018-12-01
Series:Science and Technology of Advanced Materials
Subjects:
Functional nanoparticles
drug delivery
theranostics
stimuli-responsive
Online Access:http://dx.doi.org/10.1080/14686996.2018.1528850
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spelling doaj-15d56b15e65d40099dfd9ed1376577e92020-11-24T21:40:14ZengTaylor & Francis GroupScience and Technology of Advanced Materials1468-69961878-55142018-12-0119177179010.1080/14686996.2018.15288501528850Functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatmentLei Li0Junqing Wang1Hangru Kong2Yun Zeng3Gang Liu4Xiamen UniversityXiamen UniversityXiamen UniversityXiamen Medical CollegeXiamen UniversityNanotechnology has been extensively utilized in the design and development of powerful strategies for drug delivery and cancer theranostic. Nanoplatforms as a drug delivery system have many advantages such as in vivo imaging, combined drug delivery, extended circulation time, and systemic controlled release. The functional biomimetic drug delivery could be realized by incorporating stimuli-responsive (pH, temperature, redox potential, etc.) properties into the nanocarrier system, allowing them to bypass biological barriers and arrive at the targeted area. In this review, we discuss the role of internal stimuli-responsive nanocarrier system for imaging and drug delivery in cancer therapy. The development of internal stimuli-responsive nanoparticles is highlighted for precision drug delivery applications, with a particular focus on in vivo imaging, drug release performance, and therapeutic benefits.http://dx.doi.org/10.1080/14686996.2018.1528850Functional nanoparticlesdrug deliverytheranosticsstimuli-responsive
collection DOAJ
language English
format Article
sources DOAJ
author Lei Li
Junqing Wang
Hangru Kong
Yun Zeng
Gang Liu
spellingShingle Lei Li
Junqing Wang
Hangru Kong
Yun Zeng
Gang Liu
Functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatment
Science and Technology of Advanced Materials
Functional nanoparticles
drug delivery
theranostics
stimuli-responsive
author_facet Lei Li
Junqing Wang
Hangru Kong
Yun Zeng
Gang Liu
author_sort Lei Li
title Functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatment
title_short Functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatment
title_full Functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatment
title_fullStr Functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatment
title_full_unstemmed Functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatment
title_sort functional biomimetic nanoparticles for drug delivery and theranostic applications in cancer treatment
publisher Taylor & Francis Group
series Science and Technology of Advanced Materials
issn 1468-6996
1878-5514
publishDate 2018-12-01
description Nanotechnology has been extensively utilized in the design and development of powerful strategies for drug delivery and cancer theranostic. Nanoplatforms as a drug delivery system have many advantages such as in vivo imaging, combined drug delivery, extended circulation time, and systemic controlled release. The functional biomimetic drug delivery could be realized by incorporating stimuli-responsive (pH, temperature, redox potential, etc.) properties into the nanocarrier system, allowing them to bypass biological barriers and arrive at the targeted area. In this review, we discuss the role of internal stimuli-responsive nanocarrier system for imaging and drug delivery in cancer therapy. The development of internal stimuli-responsive nanoparticles is highlighted for precision drug delivery applications, with a particular focus on in vivo imaging, drug release performance, and therapeutic benefits.
topic Functional nanoparticles
drug delivery
theranostics
stimuli-responsive
url http://dx.doi.org/10.1080/14686996.2018.1528850
work_keys_str_mv AT leili functionalbiomimeticnanoparticlesfordrugdeliveryandtheranosticapplicationsincancertreatment
AT junqingwang functionalbiomimeticnanoparticlesfordrugdeliveryandtheranosticapplicationsincancertreatment
AT hangrukong functionalbiomimeticnanoparticlesfordrugdeliveryandtheranosticapplicationsincancertreatment
AT yunzeng functionalbiomimeticnanoparticlesfordrugdeliveryandtheranosticapplicationsincancertreatment
AT gangliu functionalbiomimeticnanoparticlesfordrugdeliveryandtheranosticapplicationsincancertreatment
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