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This article describes a simple and selective procedure used for direct measurement of sulfated glycosaminoglycans (GAGs) in biological samples and its application to the determination of GAGs duringContinue Reading
  • Vincent Rouet, Anne Meddahi-Pellé, Hua-Quan Miao, Israel Vlodavsky, Jean-Pierre Caruelle, Denis Barritault
  • Materials Science, Medicine
  • Journal of biomedical materials research. Part A
  • 2006 (First Publication: 15 September 2006)
  • A family of biopolymers engineered to protect and stabilize heparin binding growth factors (HBGFs) show remarkable properties as wound healing agents in several in vivo tissue repair models to theContinue Reading
  • Anne Meddahi, Françoise Brée, Dulce Papy-Garcia, Jean Claude Gautron, Denis Barritault, Jean-Pierre Caruelle
  • Medicine, Chemistry
  • Journal of biomedical materials research
  • 2002 (First Publication: 15 December 2002)
  • RGTA is a family of chemically modified polymers that have been engineered to mimic the properties of heparan sulfates towards heparin binding growth factors. In vivo, RGTA stimulated tissue repairContinue Reading
  • Dulce Papy-Garcia, Véronique Barbier-Chassefière, +6 authors Emmanuel Petit
  • Chemistry
  • 2005 (First Publication: 1 May 2005)
  • Reproducible and nondegradative preparation of sulfated molecules exhibiting diverse biological properties requires caring out sulfation reactions under ready controlled mild conditions. Although, toContinue Reading
  • Dulce Papy-Garcia, Isabelle Arruda Barbosa, +4 authors Isabelle Martelly
  • Biology, Medicine
  • Journal of biomedical materials research
  • 2002 (First Publication: 1 October 2002)
  • Muscle regeneration occurs through the activation of satellite cells, which are stimulated to proliferate and to fuse into myofibers that will reconstitute the damaged muscle. We have previouslyContinue Reading
  • F Blanquaert, G. Guillaume Carpentier, Frédéric Morvan, Jean-Pierre Caruelle, Denis Barritault, Michèle Tardieu
  • Materials Science, Medicine
  • Journal of biomedical materials research. Part A
  • 2003 (First Publication: 1 March 2003)
  • A family of heparan-like polymers, RGTAs, was shown to promote repair of various tissues. Like heparin and heparan-sulfates, RGTAs potentiate in vitro the biological activities of heparin-bindingContinue Reading