INTRODUCTION AND HYPOTHESIS: To evaluate the effect of surgical instruments handling on polypropylene mesh using scanning electron microscopy (SEM). METHODS: We applied different surgical instruments, including a few robotic ones, to pieces of polypropylene mesh. SEM was used to evaluate the morphological changes with this intervention. RESULTS: Straight hemostat, laparoscopic atraumatic grasper, laparoscopic needle driver, and robotic instruments (Bipolar forceps, Cadiere forceps, PK dissecting forceps and SutureCut) were applied to the mesh. SEM images of tool-affected mesh regions in specimens handled by different instruments along with the images of intact mesh were obtained. Average mesh fiber diameters, as well as the average parameters characterizing instrument-affected regions, were measured. There was substantial widening of the fibers in specimens handled by hemostat or a needle holder. An elliptical but much longer and narrower tool marking with more surface roughness was observed in mesh handled by a grasper. A ∼25-μm-wide and ∼200-μm-long strap was split on one side from the core of the fiber caused by Cadiere. CONCLUSIONS: There are morphological changes to polypropylene mesh caused by instrument handling. These changes are different depending on the instrument used. These alterations vary from changes in the surface creating roughness of the fiber, compression of the mesh with narrowing of the fiber in at least one direction or actual splitting or pitting of the fiber. Since there are no data regarding the effect of these morphological changes to the ultimate functioning of the mesh, surgeons should minimize mesh handling by instruments.
INTRODUCTION AND HYPOTHESIS: To evaluate the effect of surgical instruments handling on polypropylene mesh using scanning electron microscopy (SEM). METHODS: We applied different surgical instruments, including a few robotic ones, to pieces of polypropylene mesh. SEM was used to evaluate the morphological changes with this intervention. RESULTS: Straight hemostat, laparoscopic atraumatic grasper, laparoscopic needle driver, and robotic instruments (Bipolar forceps, Cadiere forceps, PK dissecting forceps and SutureCut) were applied to the mesh. SEM images of tool-affected mesh regions in specimens handled by different instruments along with the images of intact mesh were obtained. Average mesh fiber diameters, as well as the average parameters characterizing instrument-affected regions, were measured. There was substantial widening of the fibers in specimens handled by hemostat or a needle holder. An elliptical but much longer and narrower tool marking with more surface roughness was observed in mesh handled by a grasper. A ∼25-μm-wide and ∼200-μm-long strap was split on one side from the core of the fiber caused by Cadiere. CONCLUSIONS: There are morphological changes to polypropylene mesh caused by instrument handling. These changes are different depending on the instrument used. These alterations vary from changes in the surface creating roughness of the fiber, compression of the mesh with narrowing of the fiber in at least one direction or actual splitting or pitting of the fiber. Since there are no data regarding the effect of these morphological changes to the ultimate functioning of the mesh, surgeons should minimize mesh handling by instruments.
Authors: Marie Fidela R Paraiso; Mark D Walters; Raymond R Rackley; Seham Melek; Cathy Hugney Journal: Am J Obstet Gynecol Date: 2005-05 Impact factor: 8.661
Authors: P Debodinance; J Berrocal; H Clavé; M Cosson; O Garbin; B Jacquetin; C Rosenthal; D Salet-Lizée; R Villet Journal: J Gynecol Obstet Biol Reprod (Paris) Date: 2004-11
Authors: Mohamed N Akl; Jaime B Long; Dobie L Giles; Jeffrey L Cornella; Paul D Pettit; Anita H Chen; Paul M Magtibay Journal: Surg Endosc Date: 2009-01-27 Impact factor: 4.584