Academic staff

Pierre WEISS

Head of the INSERM laboratory: LIOAD U791, Laboratory of Osteo-Articular and Dental Engineery Dental Surgeon Professor in Nantes Dental Faculty and Hospital, in the Conservative Dentistry Departement

Contact details

UFR Odontologie 1 place A. Ricordeau 44042 Nantes Cedex 01

Phone
0240412914 (n° interne : 312914)
Email
Pierre.Weiss@univ-nantes.fr
Personal Website
http://lioad.nantes.inserm.fr/

Taught academic discipline(s)

All the cycles in Odontology, lectures on the plastic reconstitutions, treatment of irradiated patients, data processing and networks, lectures in biomedical Masters.

Research topics

Physicochemistry of hydrophilic polymer, hydrogels, bone substitutes, Bone re-modeling , clinical research in Odontology.

Activities / Resume

Pierre WEISS is currently Professor of the University of Nantes in dental surgery department and hospital. He is the director of the research LIOAD U791. His research interests include the chemistry and characterization of macromolecular solution and hydrogels to prepare synthetic extracellular matrices for tissue engineering of cartilage and bone. His scientific skills is on macromolecular chemistry and characterization like FTIR, Rheology, mechanical experiments and material design with nano particles blended with viscous solution before injection and cross linking into a 3 dimensional scaffold with alive cell encapsulated inside the structure.

Additional information

To access to the publications you have to write :

Author=(weiss) AND Address=(nantes)

Resercher ID : P-1372-2014


Exemples of publications :

  1. Turczyn R, Weiss P, Lapkowski M, Daculsi G 2000 In situ self hardening bioactive composite for bone and dental surgery. J Biomater Sci Polym Ed 11(2):217-23.
  2. Bourges X, Schmitt M, Amouriq Y, Daculsi G, Legeay G, Weiss P 2001 Interaction between hydroxypropyl methylcellulose and biphasic calcium phosphate after steam sterilisation: capillary gas chromatography studies. J Biomater Sci Polym Ed 12(6):573
  3. Bourges X, Weiss P, Coudreuse A, Daculsi G, Legeay G 2002 General properties of silated hydroxyethylcellulose for potential biomedical applications. Biopolymers 63(4):232-38.
  4. Weiss P, Obadia L, Magne D, Bourges X, Rau C, Weitkamp T, Khairoun I, Bouler JM, Chappard D, Gauthier O, Daculsi G. 2003. Synchrotron X-ray microtomography (on a micron scale) provides three-dimensional imaging representation of bone ingrowth in calcium phosphate biomaterials. Biomaterials. Nov;24(25):4591-601.
  5. Fatimi A, Tassin JF, Quillard S, Axelos MA, Weiss P. The rheological properties of silated hydroxypropylmethylcellulose tissue engineering matrices. Biomaterials. 2008;29(5):533-43. (IF 5.2)
  6. Laib S, Fellah BH, Fatimi A, Quillard S, Vinatier C, Gauthier O, Janvier P, Petit M, Bujoli B, Bohic S, Weiss P. The in vivo degradation of a ruthenium labelled polysaccharide-based hydrogel for bone tissue engineering. Biomaterials. 2009 Mar;30(8):1568-77.
  7. Rederstorff E et al. An in vitro study of two GAG-like marine polysaccharides incorporated into injectable hydrogels for bone and cartilage tissue engineering. Acta Biomater. 2011 May;7(5):2119-30.
  8. Corre P et Al. Determining a Clinically Relevant Strategy for Bone Tissue Engineering: An All-in-One Study in Nude Mice. PloS ONE  2013;8(12):e81599.
  9. Liu W et al. A novel injectable, cohesive and toughened Si-HPMC (silanized-hydroxypropyl methylcellulose) composite calcium phosphate cement for bone substitution. Acta Biomater 2014 Jul;10(7):3335-45.
  10. Allahbash S. et al. Interplay of thermal and covalent gelation of silanized hydroxypropyl methyl cellulose gels. Carbohydrate Polymers 2015 Jan 22;115:510-5.
  11. Corre P et al. Direct comparison of current cell-based and cell-free approaches towards the repair of craniofacial bone defects - A preclinical study. Acta Biomater. 2015 Oct 15;26:306-17.
Mis à jour le 05 November 2024.