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23.11.2016 | Original Article | Ausgabe 3/2017

Hernia 3/2017

In-vitro examination of the biocompatibility of fibroblast cell lines on alloplastic meshes and sterilized polyester mosquito mesh

Hernia > Ausgabe 3/2017
R. Wiessner, T. Kleber, N. Ekwelle, K. Ludwig, D.-U. Richter



The use of alloplastic implants for tissue strengthening when treating hernias is an established therapy worldwide. Despite the high incidence of hernias in Africa and Asia, the implantation of costly mesh netting is not financially feasible. Because of that various investigative groups have examined the use of sterilized mosquito netting. The animal experiments as well as the clinical trials have both shown equivalent short- and long-term results. The goal of this paper is the comparison of biocompatibility of human fibroblasts on the established commercially available nets and on sterilized polyester mosquito mesh over a period of 12 weeks.

Materials and methods

Three commercially available plastic mesh types and a gas-sterilized mosquito polyethylenterephtalate (polyester) mesh were examined. Human fibroblasts from subcutaneous healthy tissue were used. Various tests for evaluating the growth behavior and the cell morphology of human fibroblasts were conducted. The semi-quantitative (light microscopy) and qualitative (scanning electron microscopy) analyses were performed after 1 week and then again after 12 weeks. The cell proliferation and cytotoxicity of the implants were investigated with the help of the 5′-bromo-2′-deoxyuridine (BrdU)-cell proliferation test and the LDH-cytotoxicity test. The number of live cells per ml was determined with the Bürker counting chamber. In addition, analyses were made of the cell metabolism (oxidative stress) by measuring the pH value, hydrogen peroxide, and glycolysis.


After 12 weeks, a proliferation of fibroblasts on all mesh is documented. No mesh showed a complete apoptosis of the cells. This qualitative observation could be confirmed quantitatively in a biochemical assay by marking the proliferating cells with BrdU. The biochemical analysis brought the proof that the materials used, including the polyester of the mosquito mesh, are not cytotoxic for the fibroblasts. The vitality of the cells was between 94 and 98%. The glucose metabolism as well as the pH value of the fibroblasts showed no significant differences between the tested meshes. The examination of the oxidative stress via measurement of the H2O2 concentration showed values in the normal range for the commercially alloplastic meshes and the mosquito mesh.


Our examination showed no significant difference with regard to biocompatibility between the officially approved and cost-intensive meshes and the sterilized (autoclaved) mosquito mesh. Due to the proven strength and stability of the mosquito mesh and their proven compatibility, the implantation of the sterilized mosquito mesh in additional in vivo studies must be considered. A wide-scale and cost-effective treatment of hernias could thus be guaranteed, not only in Third World countries.

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