MAINARDI, ANDREA

MAINARDI, ANDREA  

DIPARTIMENTO DI ELETTRONICA, INFORMAZIONE E BIOINGEGNERIA  

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Titolo Data di pubblicazione Autori File
Beating organs-on-chip as advanced tools in drug screening: Engineered in vitro models of human organs and diseases 1-gen-2019 Roberta VisoneAndrea MainardiPaola OcchettaMarco Rasponi
Beating organs-on-chips as advanced preclinical tools for drug screening and disease modelling 1-gen-2020 Paola OcchettaRoberta VisoneAndrea MainardiStefano PiazzaMarco Rasponi +
Behind the paper: Hyperphysiological compression of articular cartilage induces an osteoarthritic phenotype in a cartilage-on-a-chip model 1-gen-2019 Mainardi Andrea
Cartilage on chip: Hyper-Physiological Compression in a microscale platform triggers osteoarthritic traits in a cartilage model 1-gen-2018 Andrea MainardiPaola OcchettaEmiliano VottaMarco Rasponi +
Cartilage on chip: Hyper-Physiological Compression in a microscale platform triggers osteoarthritic traits in a cartilage model EUROoC 2019 TU Graz 1-gen-2019 Mainardi AOcchetta PVotta ERasponi M +
Cartilage on chip: Hyper-Physiological Compression in a microscale platform triggers osteoarthritic traits in a cartilage model. 1-gen-2019 Andrea MainardiPaola OcchettaEmiliano VottaMarco Rasponi. +
Cartilage-on-chip model: triggering osteoarthritis traits through mechanical compression 1-gen-2018 Mainardi AOcchetta PVotta ERasponi M +
A dynamic microscale mid-throughput fibrosis model to investigate the effects of different ratios of cardiomyocytes and fibroblasts 1-gen-2021 Mainardi, AndreaCarminati, FrancescaUgolini, Giovanni StefanoOcchetta, PaolaVisone, RobertaRasponi, Marco +
Generation of functional cardiac microtissues in a beating heart-on-a-chip 1-gen-2018 Ugolini, Giovanni StefanoVisone, RobertaCRUZ MOREIRA, CATIA DANIELAMAINARDI, ANDREARasponi, Marco
Hyperphysiological compression of articular cartilage induces an osteoarthritic phenotype in a cartilage-on-a-chip model 1-gen-2019 Occhetta P.Mainardi A.Votta E.Rasponi M. +
Mechanical Induction of Osteoarthritis Traits in a Cartilage-on-a-Chip Model 1-gen-2022 Mainardi A.Occhetta P.Rasponi M.
A microfluidic model to study the interaction between cardiomyocytes and fibroblast in cardiac scar formation 1-gen-2019 Carminati, FDiaz, DROcchetta, PMainardi, AUgolini, SRasponi, M +
A microfluidic platform to assess the response of cartilage progenitor cells within 3D hydrogels to mechanical loading 1-gen-2017 Occhetta PMainardi AVotta ERasponi M +
Modeling in vitro osteoarthritis phenotypes in a human vascularized bone construct based on a bone-marrow derived mesenchymal cell line and endothelial cells 1-gen-2021 Andrea MainardiPaola OcchettaMarco Rasponi +
Modeling in vitro osteoarthritis phenotypes in a vascularized bone model based on a bone-marrow derived mesenchymal cell line and endothelial cells 1-gen-2021 Mainardi A.Occhetta P.Rasponi M. +
Modelling cardiac fibrosis through a mechanically active multi-chamber organ on chip device 1-gen-2020 Andrea MainardiPaola OcchettaStefano UgoliniRoberta VisoneFrancesca CarminatiMarco Rasponi +
Modelling the joint on a chip: a Vertical Burst Valve allows for mechanically active, 3D, multi-layer vascularized osteochondral compartment OoC representations. 1-gen-2021 Andrea MainardiPaola OcchettaMarco Rasponi. +
Organ-on-Chips for Studying Tissue Barriers: Standard Techniques and a Novel Method for Including Porous Membranes Within Microfluidic Devices 1-gen-2022 Ballerini M.Jouybar M.Mainardi A.Rasponi M.Ugolini G. S.
Towards the joint on a chip: A microfluidic osteochondral model 1-gen-2019 A. MainardiP. OcchettaG. S. UgoliniM. Rasponi +
Towards the joint on a chip: double layered directly interfaced tissues to mimic the Osteoarthritic cartilage-subchondral interface 1-gen-2020 Andrea MainardiPaola OcchettaStefano UgoliniMarco Rasponi +