DynaMesh®

Tailored Implants made of PVDF

Optimal dynamometry

Hernia surgery

Textile implants must reinforce tissue, support muscles and protect organs. They have to cushion different forces without limiting mobility – including the extreme stresses associated with coughing, sneezing and laughing. What is needed therefore is an optimal interaction between predefined stability and elasticity. We achieve the optimal balance between these two properties.

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Pelvic floor surgery

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Optimal dynamometry

Sling or mesh implants must reinforce, support, protect or replace muscles, organs, tissues and ligaments. When doing so they have to cushion different forces which prevail in the body, including extreme tensile loading.
Conventional slings and/or implant arms have a strong tendency to curl up under stress. If they are set in motion, this frequently leads to the feared “saw effect”.
In addition, effective porosity drops to zero and a high risk of erosion develops [21].

Shape stability and defined elasticity

DynaMesh® structures are distinguished by high shape stability with defined elasticity. They do not curl up, and they retain their shape and high effective porosity under stress [26].


Effect of low tensile loading (2.5 N/cm) on the shape and pore size of different mesh implants for pelvic floor surgery.

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