Concordia University

https://www.concordia.ca/content/shared/en/events/artsci/chemistry/2019/11/22/MANTOVANI-22.html

Workshops & seminars

Nanocoatings, Degradable Metals & 3D Triple Cell Culture in Bioreactors from Collagen Gel Scaffolds for the Innovation in Reparative and Regenerative Medicine
Dr. Diego Mantovani(Laval University)

Date and time
Date & time

November 22, 2019
3 p.m. – 4:30 p.m.

Where
Where

Room SP-S110
Richard J. Renaud Science Complex
7141 Sherbrooke W.
Loyola Campus

Cost
Cost

This event is free

Wheelchair accessible
Wheelchair accessible

Yes

Speaker(s)
Speaker(s)

Dr. Diego Mantovani

Website
Website

ABSTRACT:  Over the last 50 years, biomaterials, prostheses and implants saved and prolonged the life of millions of humans around the globe. Today, nano-biotechnology, nanomaterials and surface modifications provides a new insight to the current problem of biomaterial complications, and even allows us to envisage strategies for the organ shortage. In this talk, creative strategies for mixing vascular cells and collagen-based materials will be targeted with the overall aim to envisage today how far innovation can bring tomorrow solutions for regenerative medicine.

Collagen gel is a commonly used scaffold in vascular tissue engineering due to its biological properties including a high potential for supporting and guiding vascular cells in the regeneration process. With the aim to regenerate the vascular wall, the approach we deployed consisted in first reproducing the media, which provide the high elastic properties of the vessel wall, thus making it an essential and effective component for blood and nutrients transportation. Starting from an original method aimed to process collagen and smooth muscle cells (SMCs), we developed an endothelialised two layers collagen cell-based tubular scaffold. The external layer was composed of fibroblasts (FBs) and SMCs seeded within collagen. The middle layer was composed of SMCs seeded within collagen, and endothelial cells (ECs) were culture on the lumen of the construct. The construct was expected to provide vascular tissue remodeling due to cells/cells and cells/matrix interactions and to produce an engineered tissue with hierarchical structure close to that of blood vessel walls. It was also expected to provide a valid in vitro model for further studies of vascular patho-physiology.

The middle and external layer were mold around a mandrel, directly in the bioreactor chamber. Then, the mandrel was removed and a ECs solution was perfused inside the lumen. The interaction between cells enhanced the matrix remodeling and the properties of the arterial construct resulted strongly improved. This shows that vascular cells tri-culture using collagen gel scaffold is a valid strategy for the regeneration of the vascular tissue. The overall take home message of this talk is aimed to show how nanocoatings, degradable metals and 3D pluri-culture of appropriate material/cell/environment represent the today bottleneck in reparative and regenerative medicine and which are few of the strategies that have to be investigated to push forward innovation in the field, for the benefit of patients and Humans.

 

BIO:  Holder of the Canada Research Chair Tier I in Biomaterials and Bioengineering for the Innovation in Surgery (2012-2026), professor at the Department of Materials Engineering at Laval University, senior scientist at the Division of Regenerative Medicine of the Research Center of the CHU de Qu├ębec, Diego Mantovani is a recognised specialist in biomaterials.  At the frontier between engineering, medicine and biology, within his team, their works aim to improve the clinical performances of medical devices for functional replacement, and to envisage the next generations of biomaterials to develop artificial organs enhancing the quality of the life of patients. He has authored more than 300 original articles, holds 5 patents, 12 licences, and presented more than 200 keynotes, invited and seminar lectures worldwide in the field of advanced materials for biomedical applications. His works received more than 8000 citations. In 2019, he was nominated International Fellow of the American Society for Metals, in 2012 of the International Union of Societies for Biomaterials Science & Engineering (FBSE) for his leadership and contribution to biomaterials for medical devices. He was Executive Co-Chair of the 10th World Biomaterials Congress 2016. He is advisor of three medical devices consortium in the Americas, Asia and Europe.

Dr. Mantovani is the guest of Dr. Rafik Naccache

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