Polypropylene mesh implantation for hernia repair causes myeloid cell–driven persistent inflammation
Felix Heymann, Klaus-Thilo von Trotha, Christian Preisinger, Petra Lynen-Jansen, Anjali A. Roeth, Melanie Geiger, Lukas Jonathan Geisler, Anna Katharina Frank, Joachim Conze, Tom Luedde, Christian Trautwein, Marcel Binnebösel, Ulf P. Neumann, Frank Tacke
Felix Heymann, Klaus-Thilo von Trotha, Christian Preisinger, Petra Lynen-Jansen, Anjali A. Roeth, Melanie Geiger, Lukas Jonathan Geisler, Anna Katharina Frank, Joachim Conze, Tom Luedde, Christian Trautwein, Marcel Binnebösel, Ulf P. Neumann, Frank Tacke
View: Text | PDF
Research Article Gastroenterology Inflammation

Polypropylene mesh implantation for hernia repair causes myeloid cell–driven persistent inflammation

Abstract

Polypropylene meshes that are commonly used for inguinal hernia repair may trigger granulomatous foreign body reactions. Here, we show that asymptomatic patients display mesh-associated inflammatory granulomas long after surgery, which are dominated by monocyte-derived macrophages expressing high levels of inflammatory activation markers. In mice, mesh implantation by the onlay technique induced rapid and strong myeloid cell accumulation, without substantial attenuation for up to 90 days. Myeloid cells segregated into distinct macrophage subsets with separate spatial distribution, activation profiles, and functional properties, showing a stable inflammatory phenotype in the tissue surrounding the biomaterial and a mixed, wound-healing phenotype in the surrounding stromal tissue. Protein mass spectrometry confirmed the inflammatory nature of the foreign body reaction, as characterized by cytokines, complement activation, and matrix-modulating factors. Moreover, immunoglobulin deposition increased over time around the implant, arguing for humoral immune responses in association with the cell-driven inflammation. Intravital multiphoton microscopy revealed a high motility and continuous recruitment of myeloid cells, which is partly dependent on the chemokine receptor CCR2. CCR2-dependent macrophages are particular drivers of fibroblast proliferation. Thus, our work functionally characterizes myeloid cell–dependent inflammation following mesh implantation, thereby providing insights into the dynamics and mechanisms of foreign body reactions to implanted biomaterials.

Authors

Felix Heymann, Klaus-Thilo von Trotha, Christian Preisinger, Petra Lynen-Jansen, Anjali A. Roeth, Melanie Geiger, Lukas Jonathan Geisler, Anna Katharina Frank, Joachim Conze, Tom Luedde, Christian Trautwein, Marcel Binnebösel, Ulf P. Neumann, Frank Tacke

×

Figure 6

Gene expression and protein analysis of inflammation-associated factors from murine mesh explants.

Options: View larger image (or click on image) Download as PowerPoint
Gene expression and protein analysis of inflammation-associated factors ...
(A) 72-plex Nanostring gene expression array of mesh-surrounding tissue day 7 and day 21 following implantation. Gene expression was normalized against corresponding sham-operated controls. Expression profiles were analyzed with a group size of 3 animals per group and displayed as color-coded heat maps showing log2 fold gene expression. (B) Total count of genes identified by Nanostring gene expression. Absolute counts were measured to validate relative expression data shown in A. Color-coded heat map showing relevant genes with a minimum count threshold of ≥500 total counts. M, mesh; S, sham. (C) Immunofluorescence microscopy of IgM and IgG deposition in mesh-surrounding tissue at day 7 and day 21. Scale bar: 200 μm. Original magnification, ×1.5 (inset). Exemplary results are shown in the images; results were verified in at least 3 animals per group from 2 independent sets of experiments.