Micro-electrode channel guide (µECG) technology: an online method for continuous electrical recording in a human beating heart-on-chip.

Roberta VisoneGiovanni Stefano UgoliniDaniela Cruz-MoreiraSimona MarzoratiStefano PiazzaEnrico PesentiAlberto RedaelliMatteo MorettiPaola Occhetta and Marco Rasponi
Biofabrication , Feb 2021

doi: 10.1088/1758-5090/abe4c4

Hyperphysiological compression of articular cartilage induces an osteoarthritic phenotype in a cartilage-on-a-chip model.

Occhetta P, Mainardi A, Votta E, Vallmajo-Martin Q, Ehrbar M, Martin I, Barbero A, Rasponi M. 
Nat Biomedical Engineering, Jul 2019

 doi: 10.1038/s41551-019-0406-3. 

A microscale biomimetic platform for generation and electro-mechanical stimulation of 3D cardiac microtissues.

Visone R, Talò G, Occhetta P, Cruz-Moreira D, Lopa S, Pappalardo OA, Redaelli A, Moretti M, Rasponi M.
APL Bioengineering , Oct 2018

doi: 10.1063/1.5037968.

A three-dimensional in vitro dynamic micro-tissue model of cardiac scar formation.

Occhetta P, Isu G, Lemme M, Conficconi C, Oertle P, Räz C, Visone R, Cerino G, Plodinec M, Rasponi M, Marsano A.
Integr Biol (Camb), March 2018 

 doi: 10.1039/c7ib00199a

Beating heart on a chip: a novel microfluidic platform to generate functional 3D cardiac microtissues.

Marsano A, Conficconi C, Lemme M, Occhetta P, Gaudiello E, Votta E, Cerino G, Redaelli A, Rasponi M.
Lab on a Chip, Feb 2016

doi: 10.1039/C5LC01356A