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Sidan uppdaterades: 2012-09-11 15:12
| Författare |
Peter Falk Fernando Ruiz-Jasbon Karin Strigård Ulf Gunnarsson Marie-Lois Ivarsson |
|---|---|
| Publicerad i | Biology open |
| Volym | 6 |
| Nummer/häfte | 9 |
| Sidor | 1391-1395 |
| ISSN | 2046-6390 |
| Publiceringsår | 2017 |
| Publicerad vid |
Institutionen för kliniska vetenskaper, Avdelningen för kirurgi |
| Sidor | 1391-1395 |
| Språk | en |
| Länkar |
dx.doi.org/10.1242/bio.024992 www.ncbi.nlm.nih.gov/entrez/query.f... |
| Ämnesord | Biocompatibility, Experimental model, Mesh, Peritoneal tissue, Peritoneum, Synthetic mesh |
| Ämneskategorier | Gastroenterologi, Kirurgi |
Biological compatibility, in terms of implantation of foreign mesh material in hernia surgery, still needs experimental investigation. Present study develops an experimental model using human peritoneum to study the integration between tissue and different mesh material. The ex vivo model using peritoneal tissue was studied with different mesh material, and integration was monitored over time using microscopy.It could be demonstrated that the peritoneal model may be kept viable in culture for several weeks. Cell migration was seen after 7-10 days in culture and could be further monitored over several weeks. The use of a human artificial model environment enabling the investigation of tissue/mesh integration has, to our knowledge, not been described previously.This proof-of-concept model was developed, for the investigation of peritoneal biology and the integration between tissue and different mesh material. It has the potential to be useful in studies on other important biological mechanisms involving the peritoneum.
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