Operating room hygiene: Clinical practice recommendations.

INTRODUCTION: The French Society of Gastro-Intestinal Surgery (SociétéFrançaisedeChirurgieDigestive) and the Association of hepato-bilio-pancreatic and transplantation surgery (AssociationdeChirurgieHépato-Bilio-PancréatiqueetTransplantation) requested that clinical practice recommendations be established with regard to operating room hygiene. METHODS: The literature was analyzed according to the High Authority of Health (HauteAutoritédesanté [HAS]) methodology and after consultation of the Cochrane and Medline databases. Pertinent references were selected, and supplementary references were hand-picked from the reference lists. Only English or French language papers were retained. The recommendations of learned societies and the World Health Organization were also considered. RESULTS: Recommendations were proposed with regard to pre-operative patient preparation, skin preparation, draping, wound edge protectors, surgeon hygiene, wound closure, and operating room environment. CONCLUSION: These clinical practice recommendations should guide and improve the daily practice of gastro-intestinal surgeons.

Esophageal tissue engineering: Current status and perspectives.

Tissue engineering, which consists of the combination and in vivo implantation of elements required for tissue remodeling toward a specific organ phenotype, could be an alternative for classical techniques of esophageal replacement. The current hybrid approach entails creation of an esophageal substitute composed of an acellular matrix and autologous epithelial and muscle cells provides the most successful results. Current research is based on the use of mesenchymal stem cells, whose potential for differentiation and proangioogenic, immune-modulator and anti-inflammatory properties are important assets. In the near future, esophageal substitutes could be constructed from acellular "intelligent matrices" that contain the molecules necessary for tissue regeneration; this should allow circumvention of the implantation step and still obtain standardized in vivo biological responses. At present, tissue engineering applications to esophageal replacement are limited to enlargement plasties with absorbable, non-cellular matrices. Nevertheless, the application of existing clinical techniques for replacement of other organs by tissue engineering in combination with a multiplication of translational research protocols for esophageal replacement in large animals should soon pave the way for health agencies to authorize clinical trials.