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Samantha Mattioli
Researcher at University of Perugia
Publications - 22
Citations - 1948
Samantha Mattioli is an academic researcher from University of Perugia. The author has contributed to research in topics: Stem cell & PLGA. The author has an hindex of 15, co-authored 22 publications receiving 1697 citations.
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Biodegradable polymer matrix nanocomposites for tissue engineering: A review
Ilaria Armentano,Mariaserena Dottori,Elena Fortunati,Samantha Mattioli,Jose Maria Kenny,Jose Maria Kenny +5 more
TL;DR: In this article, different results on the fabrication of nanocomposites based on biodegradable polymers for specific field of tissue engineering are presented, and the combination of bioresorbable polymer and nanostructures open new perspectives in the self-assembly of nanomaterials for biomedical applications with tuneable mechanical, thermal and electrical properties.
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Multifunctional nanostructured PLA materials for packaging and tissue engineering
Ilaria Armentano,Natacha Bitinis,Elena Fortunati,Samantha Mattioli,Nicoletta Rescignano,Raquel Verdejo,Miguel A. López-Manchado,Jose Maria Kenny,Jose Maria Kenny +8 more
TL;DR: In this article, the promising prospects of poly(lactic acid) based nanostructured materials considering two main potential uses, packaging and tissue engineering, are reported, and a comprehensive analysis of the recent advances in tissue engineering applications focusing in the synthesis of PLA nanoparticles, the processing of PLA based multifunctional nanocomposites and PLA surface modification techniques.
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The Interaction of Bacteria with Engineered Nanostructured Polymeric Materials: A Review
Ilaria Armentano,Carla Renata Arciola,Elena Fortunati,Davide Ferrari,Samantha Mattioli,Concetta Floriana Amoroso,J. Rizzo,Jose Maria Kenny,Marcello Imbriani,Livia Visai +9 more
TL;DR: The paper describes antibacterial effects due to the induced material properties, along with the principles of bacterial adhesion and the biofilm formation process, and presents an outline of future sceneries and perspectives on antibacterial applications of nanostructured materials to resist or counteract implant infections.
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Micropatterned hydrogenated amorphous carbon guides mesenchymal stem cells towards neuronal differentiation.
Francesco D'Angelo,Ilaria Armentano,Samantha Mattioli,Lucia Crispoltoni,Roberto Tiribuzi,Giuliano Giorgio Cerulli,Carlo Alberto Palmerini,Jose Maria Kenny,Sabata Martino,Aldo Orlacchio +9 more
TL;DR: It is demonstrated that the surface topography with micropatterned nanoridge width/spacing of 40/30μm (single stimulus) induced hBM-MSCs to acquire neuronal characteristics in the absence of differentiating agents, suggesting the occurrence of a mechanotransducer effect exerted by optimal nano/microstructure dimensions on the hBM -MSCs responses.
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Hydrogenated amorphous carbon nanopatterned film designs drive human bone marrow mesenchymal stem cell cytoskeleton architecture.
Sabata Martino,Francesco D'Angelo,Ilaria Armentano,Roberto Tiribuzi,Manuela Pennacchi,Mariaserena Dottori,Samantha Mattioli,Auro Caraffa,Giuliano Giorgio Cerulli,Jose Maria Kenny,Aldo Orlacchio +10 more
TL;DR: This study explored the interface between human bone marrow-derived mesenchymal stem cells (hBM-MSCs) and hydrogenated amorphous carbon (a-C:H) film designed with uniform, groove, or grid nanopatterns, suggesting that the films were biocompatible and suitable for stem cell culture.