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WIREs Nanomed Nanobiotechnol

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Wiley Interdisciplinary Reviews:
Nanomedicine and Nanobiotechnology

Volume 11 Issue 6 (November 2019)

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Cover Image

Cover Image, Volume 11, Issue 6

Liang Chen, Xiaojun Zhou, Chuanglong He

Published Online: Oct 11 2019

DOI: 10.1002/wnan.1597

The cover image is based on the Advanced Review Mesoporous silica nanoparticles for tissue‐engineering applications, by Liang Chen, Xiaojun Zhou, Chuanglong He. https://doi.org/10.1002/wnan.1573

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Opinion

The consolidation of nanomedicine

Raphael Zingg, Marius Fischer

Published Online: Jun 26 2019

DOI: 10.1002/wnan.1569

Despite being a broad field at the frontier of the life sciences, innovation in nanomedicine seems to have rather consolidated than expanded. Uncertainties in safety, regulatory and ethical requirements may have led innovators to engage in nanomedicine that relies on past innovation, eventually at the expense of fostering advances in novel fields.

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Overviews

Metal‐based phosphorus dendrimers as novel nanotherapeutic strategies to tackle cancers: A concise overview

Liang Chen, Serge Mignani, Anne‐Marie Caminade, Jean‐Pierre Majoral

Published Online: Aug 07 2019

DOI: 10.1002/wnan.1577

Different metallo‐based third generation dendrimers having anti‐proliferative activity. The coloration of the solution is related to the metal (Cu(II) and Au(III)) and the mix of the same metals.

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National Cancer Institute Alliance for nanotechnology in cancer—Catalyzing research and translation toward novel cancer diagnostics and therapeutics

Christopher M. Hartshorn, Luisa M. Russell, Piotr Grodzinski

Published Online: Jul 01 2019

DOI: 10.1002/wnan.1570

The National Cancer Institute's Alliance for Nanotechnology in Cancer has produced numerous technologies dedicated toward novel solutions to cancer. The images depict nanostructures used in novel cancer therapeutics and in vitro or in vivo diagnostics developed by Alliance‐funded research.

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Advanced Reviews

Immunoengineering in glioblastoma imaging and therapy

Steven Zanganeh, Petrina Georgala, Claudia Corbo, Leila Arabi, Jim Q. Ho, Najme Javdani, Mohammad R. Sepand, Kiara Cruickshank, Luis F. Campesato, Chien‐Huan Weng, Saeed Hemayat, Chrysafis Andreou, Ricardo Alvim, Gregor Hutter, Marjan Rafat, Morteza Mahmoudi

Published Online: Aug 12 2019

DOI: 10.1002/wnan.1575

Importance of the immune system in tumor promotion/rejection.

Abstract Full article on Wiley Online Library: HTML | PDF

Mesoporous silica nanoparticles for tissue‐engineering applications

Liang Chen, Xiaojun Zhou, Chuanglong He

Published Online: Jul 11 2019

DOI: 10.1002/wnan.1573

MSNs have received increasing attention for tissue‐engineering applications. Here, we will discuss the diversified functions of MSNs and the application of MSNs in tissue engineering, with a particular focus on bone tissue engineering.

Abstract Full article on Wiley Online Library: HTML | PDF

Focus Articles

Advances of nanotechnology in osteochondral regeneration

Cuijun Deng, Chang Xu, Quan Zhou, Yu Cheng

Published Online: Jul 22 2019

DOI: 10.1002/wnan.1576

Nanoparticle‐based strategies enhance therapeutic outcome. Nanoparticles can be divided into degradable and nondegradable nanoparticles. The degradable nanoparticles include chondroitin sulfate, collagen, PLGA, PLA, polycaprolactone, and HA, while the nondegradable nanoparticles consist of mesoporous silicon dioxide, gold nanoparticles, quantum dots, SPIOs, and lipids. Drugs, growth factors, and genetic material‐loaded nanoparticles can promote the regeneration of osteochondral tissue at sites of pathology and fracture.

Abstract Full article on Wiley Online Library: HTML | PDF

Electroconductive hydrogels for biomedical applications

Han Lu, Ning Zhang, Mingming Ma

Published Online: Jun 26 2019

DOI: 10.1002/wnan.1568

Electroconductive hydrogel‐based biomedical applications: cell culture, tissue engineering, controlled release, biosensors, and implantable bioelectronics.

Abstract Full article on Wiley Online Library: HTML | PDF

Use of magnetic fields and nanoparticles to trigger drug release and improve tumor targeting

Jessica F. Liu, Bian Jang, David Issadore, Andrew Tsourkas

Published Online: Jun 26 2019

DOI: 10.1002/wnan.1571

Magnetic fields can be used in combination with magnetic nanoparticles to trigger drug release from thermally sensitive nanocarriers or increase drug accumulation at a target site via magnetic drug targeting.

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