Dr. François Berthod is a professor at the Department of Surgery of the Laval University School of Medicine, and researcher at LOEX, Hôpital de l’Enfant-Jésus, CHU de Québec-Laval University research center.

The main objective of his research program is to use tissue-engineering techniques of in vitro organ reconstruction to model different diseases that can be induced, or modulated by the nervous system. These models will be useful to better understand the disease mechanisms and to find new therapeutic approaches. In addition, one of his projects aims to repair peripheral nerve injuries through the development of a nerve tube produced by tissue engineering with the patient’s own cells.

Development of in vitro models of diseases by tissue engineering

Many human diseases have causes and mechanisms that are still poorly understood, making it difficult to find more efficient drugs. Using patient cells, it is possible to reconstruct organs affected by these diseases, and recapitulate their effects in vitro to better understand their mechanisms, and use these models to test the efficacy of new drugs.

In the case of modeling psoriasis, Dr. Berthod’s team hypothesized that cutaneous innervation could play a major role in lesion formation, and developed, in collaboration with Dr. Roxane Pouliot, an innervated and immunocompetent psoriatic skin model to study this disease.

To model amyotrophic lateral sclerosis, a neurodegenerative disease, Dr. Berthod’s team uses tissue engineering tools. Motor neurons are cultured with astrocytes, microglia, Schwann cells, and myotubes in a compartmentalized three-dimensional construct to recapitulate the neurodegenerative process.

Repair of peripheral nerves by tissue engineering

Peripheral nerve injuries cause paralysis of the affected limbs. The current surgical options for repairing major deficits are ineffective. Dr. Berthod has developed, in collaboration with Dr. Hélène Khuong, neurosurgeon, a project to produce a nerve tube made up of the patient’s own cells, and tailored to bridge the nerve gap. The production of an autologous living tube is a major innovation that should greatly stimulate axonal migration in the graft and promote regeneration of the injured nerve, allowing motor and sensitive recoveries of the limb.

1401, 18e Rue
LOEX / CMDGT
R-203
Québec, Québec
Canada G1J 1Z4
+1 418-990-8255, extension 61705
+1 418-990-8248
francois.berthod@crchudeq... Francois.Berthod@fmed.ula...

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69 entries « 7 of 7 »

Li H, Berthod F, Xu W, Damour O, Germain L, Auger FA

Use of in vitro reconstructed skin To cover skin flap donor site

Journal Article

J Surg Res, 73 (2), 1997.

Abstract | Links:

Berthod F, Germain L, Guignard R, Lethias C, Garrone R, Damour O, van der Rest M, Auger FA

Differential expression of collagens XII and XIV in human skin and in reconstructed skin

Journal Article

J Invest Dermatol, 108 (5), 1997.

Abstract | Links:

Sahuc F, Nakazawa K, Berthod F, Collombel C, Damour O

Mesenchymal-epithelial interactions regulate gene expression of type VII collagen and kalinin in keratinocytes and dermal-epidermal junction formation in a skin equivalent model

Journal Article

Wound Repair Regen, 4 (1), 1996.

Abstract | Links:

Berthod F, Sahuc F, Hayek D, Damour O, Collombel C

Deposition of collagen fibril bundles by long-term culture of fibroblasts in a collagen sponge

Journal Article

J Biomed Mater Res, 32 (1), 1996.

Abstract | Links: 3.0.CO;2-F" title="Follow DOI:10.1002/(SICI)1097-4636(199609)32:1<87::AID-JBM10>3.0.CO;2-F" target="_blank">

Berthod F, Saintigny G, Chretien F, Hayek D, Collombel C, Damour O

Optimization of thickness, pore size and mechanical properties of a biomaterial designed for deep burn coverage

Journal Article

Clin Mater, 15 (4), 1994.

Abstract | Links:

Damour O, Gueugniaud PY, Berthin-Maghit M, Rousselle P, Berthod F, Sahuc F, Collombel C

A dermal substrate made of collagen--GAG--chitosan for deep burn coverage: first clinical uses

Journal Article

Clin Mater, 15 (4), 1994.

Abstract | Links:

Berthod F, Hayek D, Damour O, Collombel C

Collagen synthesis by fibroblasts cultured within a collagen sponge

Journal Article

Biomaterials, 14 (10), 1993.

Abstract | Links:

Shahabeddin L, Damour O, Berthod F, Rousselle P, Saintigny G, Collombel C

Reconstructed skin from co-cultured human keratinocytes and fibroblasts on a chitosane cross-linked collagen-GAG matrix

Journal Article

J Mater Sci Mater Med, (2), 1991.

Abstract | Links:

Shahabeddin L, Berthod F, Damour O, Collombel C

Characterization of skin reconstructed on a chitosan-cross-linked collagen-glycosaminoglycan matrix

Journal Article

Skin Pharmacol, 3 (2), 1990.

Abstract | Links:

69 entries « 7 of 7 »
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Active projects

  • Depicting disease heterogeneity in neurofibromatosis type 1 and the role of microenvironment in NF1-associated skin tumor formation through personalized tissue-engineered 3D models, from 2023-03-01 to 2024-02-29
  • Modélisation par génie tissulaire de la modulation de l'angiogenèse par l'innervation sensorielle, from 2018-04-01 to 2024-03-31
  • Réparation des lésions des nerfs périphériques par génie tissulaire, from 2021-04-01 to 2026-03-31
  • Un environnement sécuritaire pour des animaux immunosupprimés, from 2023-01-01 to 2024-05-24

Recently finished projects

  • Conversion directe de fibroblastes en cellules de Schwann pour stimuler la réparation des nerfs périphériques, from 2022-04-01 to 2023-03-31
  • Étude de l'impact de l'innervation cutanée dans le Psoriasis, from 2018-04-01 to 2023-03-31
  • Pathogenic Pathways and in-vitro modelization of Intracranial Aneurysms in populations of Inuit and French Canadian descent, from 2017-04-01 to 2022-03-31
  • Rôle du système nerveux sensitif sur la régénération de tissus vascularisés, from 2021-04-01 to 2022-03-31
  • Stratégies de réparation des transsections des nerfs périphériques par génie tissulaire, from 2016-07-01 to 2021-06-30
Data provided by the Université Laval research projects registery