TiLOOP® PRO PLUS P

The TiLOOP® PRO PLUS P Transvaginal Descensus Repair System is suitable for the total elevation of the pelvic floor in posterior pelvic organ prolapse (rectocele or enterocele). Das PLUS-System und die hydrophile, titanisierte Netzoberfläche machen es einzigartig. The PLUS System and the hydrophilic, titanised surface of the mesh make it unique.
Benefits
Unique PLUS System With the PLUS-System, which consists of an insertion cannula and loops, the mesh arms can be positioned atraumatically and adjusted bi-directionally: best prerequisites for tension and fold-free insertion of the mesh.
Reduced Risk of Inflammation Compared to simple polypropylene, the hydrophilic, titanised surface represents a lower risk of inflammation — and therefore less scar formation.4
By urogynaecologists, for urogynaecologists All TiLOOP® mesh implants were developed together with urogynaecologists and are 100% Made in Germany.
Details
- Titanised Type 1 polypropylene mesh
- Weight: 24 g/m2
- Pore size: 3 mm
- Monofilament fabric
- Non-resorbable
- Atraumatic, laser-cut edges
- EO-sterilised (ethylene oxide), pyrogen free
- Needles to be ordered separately: TiLOOP® Instruments PLUS (REF 6000964)
Tech. Data
Practice
Upon request, we will send you a video demonstrating the implantation of the TiLOOP® PRO PLUS P.
Knowledge
Highest demands on the material
In addition to the skills of the surgeon, the quality of the mesh material determines the quality of a lasting and anatomically stable descensus repair. TiLOOP® mesh implants are made of Type 1a polypropylene mesh (macroporous & monofilament)5 with a titanised, hydrophilic surface. Compared to simple polypropylene, this offers a number of advantages, which are already known in the use of titanised mesh implants for hernia surgery, such as:
Ordering Information
REF | Version | Marking | VPE |
---|---|---|---|
6001341 | TiLOOP® PRO PLUS P | Post. Mesh, Catheter, Snares | 1 |
Services
Literature
1 C. Fünfgeld et al. Zystozelenkorrektur mit alloplastischen Netzen. Frauenarzt, 56 (2015), Nr. 12, 1068-1073
2 J. Farthmann et al. Improvement of pelvic floor-related quality of life and sexual function after vaginal mesh implantation for cystocele: primary endpoint of a prospective multicentre trial. Arch Gynecol Obstet. 2016 Jul; 294(1): 115-21. doi: 10.1007/s00404-016-4014-0. Epub 2016 Jan 18
3 DGGG-Leitlinie: Descensus genitalis der Frau. AWMF-Leitlinien-Register Nr. 015/006
4 Scheidbach et al. In vivo studies comparing the biocompatibility of various polypropylene meshes and their handling properties during endoscopic total extraperitoneal (TEP) patchplasty. Surg Endosc (2004) 18: 211–220
5 Klinge et al. Modified classification of surgical meshes for hernia repair based on the analyses of 1,000 explanted meshes. Hernia (2012) 16: 251–258
6 Lehle K. Lohn S., Verbesserung des Langzeitverhaltens von Implantaten und anderen Biomaterialien auf Kunststoffbasis durch plasmaaktivierte Gasphasenabscheidung (PACVD), Abschlussbericht Forschungsverbund “Biomaterialien (FORBIOMAT II)”, 149–173, 2002
7 Scheidbach et al. In vivo studies comparing the biocompatibility of various polypropylene meshes and their handling properties during endoscopic total extraperitoneal (TEP) patchplasty. Surg Endosc (2004) 18: 211–220
8 Scheidbach et al. Influence of Titanium Coating on the Biocompatibility of a Heavyweight Polypropylene Mesh. Eur Surg Res 2004; 36: 313–317