Peer-reviewed veterinary case report
Polypropylene mesh causes harmful cell changes in primate pelvic
By Therriault MA et al.·2026·Department of Bioengineering, United States·View original on Europe PMC →
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Original publication title: Macrophage-to-myofibroblast transition (MMT) - An adverse response to polypropylene mesh implanted for pelvic organ prolapse repair surgery in a non-human primate model.
- Species:
- wildlife
Plain-English summary
This study looked at how different types of surgical mesh used in pelvic organ prolapse repair can affect healing in a non-human primate model. The researchers compared stable mesh designs with square holes to deformed mesh with collapsed holes and wrinkles, as well as how the tension on the mesh during surgery influenced the outcome. They found that deformed mesh and lack of tension led to more complications, like mesh exposure and thinning of the vaginal tissue, and increased the presence of certain cells (myofibroblasts) that can negatively affect healing. The study highlighted that the properties of the mesh play a crucial role in how the body responds to it, which can impact recovery. Overall, the findings suggest that using the right type of mesh and applying proper tension during surgery is important for better healing outcomes.
Abstract
Surgical repair of pelvic organ prolapse (POP) is often augmented by polypropylene mesh to provide mechanical support to the vagina and improve anatomical outcomes as compared to native tissue repair. However, POP repair surgeries utilizing PPM have complications (most often pain or mesh exposure into the vagina) in over 10% of cases. Previous work has demonstrated that tensioning of meshes with certain geometries (diamond and hexagon pores), results in both planar (pore collapse) and nonplanar (wrinkles) deformations, significantly altering textile properties and impacting the host response. To further investigate the impact of mesh deformation on the host response, we implanted mesh in a validated non-human primate model via sacrocolpopexy with stable flat (square pores, N = 20) versus deformed geometries (mesh loaded on the diamond prior to implantation resulting in collapsed pores and wrinkles, N = 20). To investigate the impact of tension independent of deformation, we implanted on and off tension (10 N, N = 10 in each group). We hypothesized that more stable geometries trigger a healing response that achieves homeostasis while deformed mesh, by increasing the amount of material in contact with the host, triggers a maladaptive remodeling response with the formation of myofibroblasts. After twelve weeks, we found that mesh deformations and the absence of tension increase the amount of mesh per area on the vagina (mesh burden) and reproduced clinical complications (mesh exposure and vaginal thinning). Interestingly, MMT cells, or myofibroblasts co-expressing a macrophage marker (CD68), were seen to significantly increase in response to mesh burden, as well as respond hyper-locally to the mesh fiber interface. We observed decreased collagen density and more immature matrix deposited in conditions with higher MMT cell presence, showing more disorganization in deposited matrix with increased mesh burden, and the loss of tension. TGF-β1, in both active and latent forms, increased with increasing mesh burden, and highest expression was observed in conditions precipitating the highest percentage of MMT cells, a possible mechanism of transdifferentiation. This study showed the importance of PPM mesh properties on mesh burden following tensioning, impact on MMT transdifferentiation, and the downstream effect of these changes on the host response and healing outcomes.
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Search related cases →Original publication on Europe PMC: https://europepmc.org/article/MED/41274262