ADVANCED BIOFAB ADVANCED BIOFABRICATION FOR TISSUE+ORGAN ENGINEERING
ADVANCED BIOFAB is driven by translational bioengineering research, focusing on innovating solutions for 3D bioprinting and biofabrication.
Our research is highly multi-disciplinary in nature, crossing fields of bioengineering, biology, chemistry, polymer physics and computer science. We aim to translate our scientific innovation on biofabrication and 3D bioprinting, with the focus on standardization and high performance bioprinting production for exploring a new generation of tissue engineering constructs for regenerative medicine and tissue engineering.
Research Line 1 - Advanced biofabrication for engineering tissues and organs:
To advance biofabrication techniques which can create tissue-like constructs that can be applied for reconstructive surgery or as for generating full functional tissue and living organs.
Research Line 2 - Bioprinting organ on-a-chip systems:
Bioprinting 3D complex tissue models on-a-chip to simulates the activities, mechanics and physiological/pathological response of an entire organ or an organ system or as in vitro three-dimensional (3D) models for disease modeling and drug screening.
Research Line 3 - Key enabled technologies for bioprinting:
To develop and uses advanced technologies to improve the efficiency, quality, and functionality of the bioprinted biological tissues. Among these technologies, artificial intelligence (AI) and computational modeling are at the forefront, enhancing the bioprinting process by optimizing parameters, predicting outcomes, and better understanding the relationship between the bioprinting process and the resulting structures.
Group members
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Other information of interest
News
Articles
Regulation of inflammation and osteogenic–adipogenic balance on titanium surfaces: a systematic evaluation of LIPSS
- Authors: Andrés Pazos-Pérez , María Piñeiro-Ramil , Ana Alonso-Pérez , María Guillán-Fresco , Miriam López-Fagúndez , Verónica López , Carolina Viana-Giorno , Daniel Nieto , Rodolfo Gómez a , Alberto Jorge-Mora
- Details: Applied Surface Science Advances, 2026, 32
- URL: https://www.sciencedirect.com/science/article/pii/S2666523926000334
- Quartile: D1 (Wos/Scopus)
- CiteScore: 15.3
- Impact factor: 8.7
- DOI: 10.1016/j.apsadv.2026.100962
Multi-material Vat photopolymerization: Computational optimization of slicing workflow for complex tissue geometries
- Authors: González-Santos, Alejandro; García, Adrian; Usseglio, Nadina; Flores, Julián; Nieto, Daniel
- Details: International Journal of Bioprinting
- URL: https://accscience.com/journal/IJB/articles/online_first/6046
- Quartile: Q1
- CiteScore: 6.7
- Impact factor: 11
- DOI: 10.36922/IJB025470480
A Novel Sprayable Fibrinogen/Glycosaminoglycans/Collagen-Based Bioink for Skin Wound Healing Applied by a Handheld Dual-Head Airbrush
- Authors: Paula Pleguezuelos-Beltrán, Daniel Nieto-García, Carlos Chocarro-Wrona , Juan de Vicente, Patricia Gálvez-Martín, José Manuel Entrena, Elena López-Ruiz, Juan Antonio Marchal
- Details: Advanced Healthcare Materials, 2026, 15
- URL: https://pubmed.ncbi.nlm.nih.gov/40708386/
- Quartile: D1 (Wos/Scopus)
- CiteScore: 10
- Impact factor: 6.5
- DOI: 10.1002/adhm.202500702
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