pfm medical steht weiterhin für Sie zur Verfügung!
Wir sind auch während der Corona-Krise regulär für Sie erreichbar. Wir haben unsere Prozesse angepasst, so dass unsere Lieferfähigkeit weiterhin sichergestellt ist. Die ambulante Hilfsmittelversorgung ist ebenso gewährleistet, so dass wir Sie auch zuhause weiter versorgen.

Studien belegen Vorteile der titanisierten Netzimplantate

BiokompatibilitätScheidbach, H., et al., Influence of titanium coating on the biocompatibility of a heavyweight polypropylene mesh. An animal experimental model. Eur Surg. Res., 2004. 36(5): p. 313-317.
Schopf, S., et al., Chronic pain after laparoscopic transabdominal preperitoneal hernia repair: a randomized comparison of light and extralight titanized polypropylene mesh. World J Surg., 2011. 35(2): p. 302-310.
Babichenko, II, et al., The influence of titanium coating of mesh polypropylene endoprostheses on their biocompatibility. Cell and Tissue Biology, 2016. 10(4): p. 332-339.
Besseres ZellwachstumLehle, K., et al., Verbesserung des Langzeitverhaltens von textilen Implantaten und anderen Biomaterialien auf Kunststofbasis durch plasmaaktivierte chemische Gasphasenabscheidung (PACVD), in Abschlußbericht: Bayerischer Forschungsverbund Biomaterialien, Bayerischer Forschungsverbund Biomaterialien, Editor. 2003. p. 149-173.
Geringere EntzündungsreaktionScheidbach, H., et al., In vivo studies comparing the biocompatibility of various polypropylene meshes and their handling properties during endoscopic total extraperitoneal (TEP) patchplasty: an experimental study in pigs. Surg Endosc., 2004. 18(2): p. 211-220.
Fortelny, R.H., et al., Fibrin sealant (Tisseel) for hiatal mesh fixation in an experimental model in pigs. J Surg.Res, 2010. 162(1): p. 68-74.
Fortelny, R.H., et al., The feasibility of FS mesh fixation by a transgastric approach - an important benefit in future NOTES procedures? J Surg.Res, 2011. 171(1): p. 80-86.
Weniger NarbenbildungScheidbach, H., et al., Influence of titanium coating on the biocompatibility of a heavyweight polypropylene mesh. An animal experimental model. Eur Surg.Res., 2004. 36(5): p. 313-317.
Geringere NetzschrumpfungScheidbach, H., et al., In vivo studies comparing the biocompatibility of various polypropylene meshes and their handling properties during endoscopic total extraperitoneal (TEP) patchplasty: an experimental study in pigs. Surg Endosc., 2004. 18(2): p. 211-220.
Schug-Pass, C., et al., A lightweight polypropylene mesh (TiMesh) for laparoscopic intraperitoneal repair of abdominal wall hernias: comparison of biocompatibility with the DualMesh in an experimental study using the porcine model. Surg.Endosc., 2006. 20(3): p. 402-409.
Fortelny, R.H., et al., Fibrin sealant (Tisseel) for hiatal mesh fixation in an experimental model in pigs. J Surg.Res, 2010. 162(1): p. 68-74.
Fortelny, R.H., et al., The feasibility of FS mesh fixation by a transgastric approach - an important benefit in future NOTES procedures? J Surg.Res, 2011. 171(1): p. 80-86.
Weniger FremdkörpergefühlHorstmann, R., et al., Impact of polypropylene amount on functional outcome and quality of life after inguinal hernia repair by the TAPP procedure using pure, mixed, and titanium-coated meshes. World J Surg., 2006. 30(9): p. 1742-1749.
Geringerer postoperativer SchmerzHorstmann, R., et al., Impact of polypropylene amount on functional outcome and quality of life after inguinal hernia repair by the TAPP procedure using pure, mixed, and titanium-coated meshes. World J Surg., 2006. 30(9): p. 1742-1749.
Tamme, C., et al., Totally extraperitoneal inguinal hernioplasty with titanium-coated lightweight polypropylene mesh: early results. Surg Endosc., 2005. 19(8): p. 1125-1129.
Schopf, S., et al., Chronic pain after laparoscopic transabdominal preperitoneal hernia repair: a randomized comparison of light and extralight titanized polypropylene mesh. World J Surg., 2011. 35(2): p. 302-310.
RekonvaleszenzKoch, A., et al., Randomized clinical trial of groin hernia repair with titanium-coated lightweight mesh compared with standard polypropylene mesh. Br.J.Surg., 2008. 95(10): p. 1226-1231.
Intraperitoneale AnwendbarkeitSchug-Pass, C., et al., A lightweight polypropylene mesh (TiMesh) for laparoscopic intraperitoneal repair of abdominal wall hernias: comparison of biocompatibility with the DualMesh in an experimental study using the porcine model. Surg.Endosc., 2006. 20(3): p. 402-409.
Schug-Pass, C., et al., Fixation of mesh to the peritoneum using a fibrin glue: investigations with a biomechanical model and an experimental laparoscopic porcine model. Surg.Endosc., 2009. 23(12): p. 2809-2815.
Fortelny, R.H., et al., Fibrin sealant (Tisseel) for hiatal mesh fixation in an experimental model in pigs. J Surg.Res, 2010. 162(1): p. 68-74.
Fortelny, R.H., et al., The feasibility of FS mesh fixation by a transgastric approach - an important benefit in future NOTES procedures? J Surg.Res, 2011. 171(1): p. 80-86.
Moreno-Egea, A., et al., Randomized clinical trial of laparoscopic hernia repair comparing titanium-coated lightweight mesh and medium-weight composite mesh. Surg Endosc, 2013. 27(1): p. 231-239.
Moreno-Egea, A., et al., Which should be the gold standard laparoscopic technique for handling Spigelian hernias? Surg Endosc, 2015. 29(4): p. 856-862.