Gianluca Cidonio | Ricerc@Sapienza

Pubblicazioni

Titolo	Pubblicato in	Anno
Revolutionizing agriculture: Harnessing nano-innovations for sustainable farming and environmental preservation	PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY	2023
Modelling skeletal pain harnessing tissue engineering	IN VITRO MODELS	2022
Microfluidic 3D Printing of Emulsion Ink for Engineering Porous Functionally Graded Materials	ADVANCED MATERIALS TECHNOLOGIES	2022
3D printing of inorganic-biopolymer composites for bone regeneration	BIOFABRICATION	2022
Harnessing microfluidic bioprinting to fabricate gradient-like porous 3D constructs via emulsion ink deposition	TISSUE ENGINEERING, PART A	2022
Modelling breast-to-bone metastatic mechanisms via microfluidic biofabrication	TISSUE ENGINEERING, PART A	2022
Harnessing microfluidic biofabrication and cell printing to develop an in vitro bone pain model	TISSUE ENGINEERING, PART A	2022
Optimising human bone extracellular matrix derived hydrogels for bone tissue engineering - an analysis of processing parameters	TISSUE ENGINEERING, PART A	2022
3D printing of biphasic inks: beyond single-scale architectural control	JOURNAL OF MATERIALS CHEMISTRY. C	2021
De Novo Design of Functional Coassembling Organic-Inorganic Hydrogels for Hierarchical Mineralization and Neovascularization	ACS NANO	2021
Nanoclay-based 3D printed scaffolds promote vascular ingrowth ex vivo and generate bone mineral tissue in vitro and in vivo	BIOFABRICATION	2020
Bioprinting stem cells: building physiological tissues one cell at a time	AMERICAN JOURNAL OF PHYSIOLOGY. CELL PHYSIOLOGY	2020
The cell in the ink: Improving biofabrication by printing stem cells for skeletal regenerative medicine	BIOMATERIALS	2019
Osteogenic and angiogenic tissue formation in high fidelity nanocomposite Laponite-gelatin bioinks	BIOFABRICATION	2019
Printing bone in a gel: using nanocomposite bioink to print functionalised bone scaffolds	MATERIALS TODAY BIO	2019
Development of a clay based bioink for 3d cell printing for skeletal application	BIOFABRICATION	2017

ERC

PE8_13

KET

Rapid Prototyping e Additive Manufacturing

Interessi di ricerca

Il mio laboratorio si occupa di utilizzare tecniche di biostampa 3D per la rigenerazione dei tessuti malati/danneggiati e la modellizzazione di malattie per lo studio di nuove possibili terapie personalizzate. Cerchiamo quindi di ingegnerizzare nuove testine microfluidiche per la biostampa di tessuti umani funzionali.

I am interested in using 3D bioprinting techniques for the regeneration of diseased or damaged tissues and the modeling of diseases to study new potential personalized therapies. In my lab, we aim to engineer innovative microfluidic printheads for the bioprinting of functional human tissues.

Keywords

3D bioprinting

Biomaterials

Adult stem cells

3D printing

bioengineering