TiLENE® Inguinal
Our titanised hernia meshes TiLENE® are hydrophilic with excellent body compatibility providing better patient outcomes. TiLENE® Inguinal can be used with the Lichtenstein technique for inguinal hernia repair. TiLENE® Inguinal-R (right-sided hernia) and TiLENE® Inguinal-L (left-sided hernia) are multi-layer mesh implants for the laparoscopic treatment of inguinal hernias. The pore size is 1 mm.
Benefits
- Titanium’s body compatibility properties transferred to a hernia mesh1
- A better quality of life for patients2
- Easy handling and excellent visibility
- Imaging diagnostics are not affected
Product Details
- Titanised type 1a polypropylene meshes
- Macroporous: pore size of 1 mm
- Lightweight: 16 or 35 g/m²
- Monofilament fabric
- Laser cut atraumatic edges
- Non-absorbable
- EO-sterilised (ethylene oxide), pyrogen-free
Knowledge
Titanisation of mesh implants
Titanium is one of the most biocompatible materials and the preferred alloy used in various surgical applications since 1946.3 In 2002, pfmmedical successfully developed the first procedure worldwide that permits the application of titanium to flexible and elastic primary materials, specifically polypropylene meshes.
TiLENE® Inguinal mesh implants are type 1a polypropylene meshes (macroporous, lightweight, and monofilamentous) which are hydrophilic due to titanisation. A hydrophilic mesh implant integrates better into surrounding tissue than a hydrophobic material.
Application Range
Inguinal hernias
Manufacturer
pfm medical titanium gmbh
Südwestpark 42
90449 Nürnberg, Germany
Ordering Information
| REF | Description | Size | Weight | PU |
|---|---|---|---|---|
| 6000643 | TiLENE® Inguinal-R | 15 x 12 cm | 35 g/m² | 3 |
| 6000644 | TiLENE® Inguinal-L | 15 x 12 cm | 35 g/m² | 3 |
| 6000648 | TiLENE® Inguinal | 10 x 4.7 cm | 65 g/m² | 3 |
| 6000954 | TiLENE® Inguinal | 11 x 5.7 cm | 35 g/m² | 3 |
Downloads
Services
Literature
1 CE-Zulassung des titanisierten Herniennetzes TiMESH: 2002
2 Horstmann R., Hellwig M., Classen C., Röttgermann S., Palmes D., 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.
3 Wintermantel, E., S.-W.H., Medizintechnik Life Science Engineering. 5 ed. 2009, Berlin Heidelberg: Springer-Verlag.
