Hongxu Lu scite author profile

Similarity in the composition, microstructure and biomechanical properties of the decellularized scaffolds and substrates to those of the native tissues and organs maximizes the promotion effect in the regeneration of both structural and functional tissues and organs. Simple tissues as well as complicated organs have been decellularized and decellularization methods have been optimized to completely remove the cellular components while keeping the ECM intact.

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Pore size effect of collagen scaffolds on cartilage regeneration

Zhang

et al. 2014

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Silicate bioceramics induce angiogenesis during bone regeneration

et al. 2012

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Cultured cell-derived extracellular matrix scaffolds for tissue engineering

et al. 2011

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Stimulatory effects of the ionic products from Ca–Mg–Si bioceramics on both osteogenesis and angiogenesis in vitro

et al. 2013

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Multicellular Tumor Spheroids (MCTS) as a 3D In Vitro Evaluation Tool of Nanoparticles

Stenzel

2018

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168

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Multicellular tumor spheroid models (MCTS) are often coined as 3D in vitro models that can mimic the microenvironment of tissues. MCTS have gained increasing interest in the nano-biotechnology field as they can provide easily accessible information on the performance of nanoparticles without using animal models. Considering that many countries have put restrictions on animals testing, which will only tighten in the future as seen by the recent developments in the Netherlands, 3D models will become an even more valuable tool. Here, an overview on MCTS is provided, focusing on their use in cancer research as most nanoparticles are tested in MCTS for treatment of primary tumors. Thereafter, various types of nanoparticles-from self-assembled block copolymers to inorganic nanoparticles, are discussed. A range of physicochemical parameters including the size, shape, surface chemistry, ligands attachment, stability, and stiffness are found to influence nanoparticles in MCTS. Some of these studies are complemented by animal studies confirming that lessons from MCTS can in part predict the behaviour in vivo. In summary, MCTS are suitable models to gain additional information on nanoparticles. While not being able to replace in vivo studies, they can bridge the gap between traditional 2D in vitro studies and in vivo models.

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Autologous extracellular matrix scaffolds for tissue engineering

et al. 2011

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Fructose-coated nanoparticles: a promising drug nanocarrier for triple-negative breast cancer therapy

Zhao

Babiuch

et al. 2014

Chem. Commun.

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Hongxu Lu

Decellularized matrices for tissue engineering

Pore size effect of collagen scaffolds on cartilage regeneration

Silicate bioceramics induce angiogenesis during bone regeneration

Cultured cell-derived extracellular matrix scaffolds for tissue engineering

Stimulatory effects of the ionic products from Ca–Mg–Si bioceramics on both osteogenesis and angiogenesis in vitro

Multicellular Tumor Spheroids (MCTS) as a 3D In Vitro Evaluation Tool of Nanoparticles

Autologous extracellular matrix scaffolds for tissue engineering

Fructose-coated nanoparticles: a promising drug nanocarrier for triple-negative breast cancer therapy

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