Deterioration in biomechanical properties of the vagina following implantation of a high‐stiffness prolapse mesh

Publisher: John Wiley & Sons Inc

E-ISSN: 1471-0528|120|2|224-232

ISSN: 1470-0328

Source: BJOG : AN INTERNATIONAL JOURNAL OF OBSTETRICS & GYNAECOLOGY, Vol.120, Iss.2, 2013-01, pp. : 224-232

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Abstract

ObjectiveTo define the impact of prolapse mesh on the biomechanical properties of the vagina by comparing the prototype Gynemesh PS (Ethicon) to two new‐generation lower stiffness meshes, SmartMesh (Coloplast) and UltraPro (Ethicon).
DesignA study employing a nonhuman primate model.
SettingUniversity of Pittsburgh, PA, USA.
PopulationForty‐five parous rhesus macaques.
MethodsMeshes were implanted via sacrocolpopexy after hysterectomy and compared with sham. Because its stiffness is highly directional, UltraPro was implanted in two directions: UltraPro Perpendicular (less stiff) and UltraPro Parallel (more stiff), with the indicated direction referring to the position of the blue orientation lines relative to the longitudinal axis of the vagina. The mesh–vaginal complex (MVC) was excised in toto after 3 months.
Main outcome measuresActive mechanical properties were quantified as the contractile force generated in the presence of 120 mmol/l KCl. Passive mechanical properties (a tissue's ability to resist an applied force) were measured using a multiaxial protocol.
ResultsVaginal contractility decreased by 80% following implantation with the Gynemesh PS (P = 0.001), 48% after SmartMesh (P = 0.001), 68% after UltraPro Parallel (P = 0.001) and was highly variable after UltraPro Perpendicular (P = 0.16). The tissue contribution to the passive mechanical behaviour of the MVC was drastically reduced for Gynemesh PS (P = 0.003), but not for SmartMesh (P = 0.9) or UltraPro independent of the direction of implantation (P = 0.68 and P = 0.66, respectively).
ConclusionsDeterioration of the mechanical properties of the vagina was highest following implantation with the stiffest mesh, Gynemesh PS. Such a decrease associated with implantation of a device of increased stiffness is consistent with findings from other systems employing prostheses for support.