| Item number | Side | Dimensions (cm) | Size | Units per box |
|---|---|---|---|---|
| DXT1309AL | Left | 13 × 9 | Medium | 1 |
| DXT1309AR | Right | 13 × 9 | Medium | 1 |
| DXT1510AL | Left | 15 × 10 | Large | 1 |
| DXT1510AR | Right | 15 × 10 | Large | 1 |
| DXT1612AL | Left | 16 × 12 | X-large | 1 |
| DXT1612AR | Right | 16 × 12 | X-large | 1 |
Anatomical mesh
Dextile™ anatomical mesh
Anatomical mesh
Dextile™ anatomical mesh
Dextile™ anatomical mesh is used for the reinforcement of soft tissues during repair of inguinal hernias by laparoscopic approach.
Description
The benefits of anatomical design
Dextile™ anatomical mesh offers:
An anatomical shape mesh with sealed edges where it's needed providing enhanced medial inferior compliance and conformance to the inguinal anatomy†,‡,1-3
Designed for a better coverage of the myopectineal orifice compared to Bard 3DMax™* and 3DMax™* Light, minimizing the risk of recurrence†,‡,1,3,4
Large pore size to help good tissue ingrowth and improved visualization of anatomical structure compared to 3DMax™* thanks to the transparency of the mesh. ‡,3,5-7
Dextile™ anatomical mesh is easy to place and to position thanks to its midline orientation marking, transparency, anatomical shape, and handling characteristics. The device is designed to self-deploy with a pop-up effect and is associated to an anatomical compliance that helps for optimal hernia repair.†,‡,2,3,5,7
Features
Dextile™ anatomical mesh technology
The Dextile™ anatomical mesh is made from a permanent macroporous monofilament polypropylene textile, and is designed specifically, for minimally invasive surgery — including conventional TAPP and TEP and robotic TAPP surgical approach — inguinal hernia.2,8
Ordering information
TM* Third-party brands are trademarks of their respective owners.
† It is recommended not to cut Dextile™ anatomical mesh as it may affect its effectiveness
‡ Based on benchtop and preclinical studies. Benchtop and preclinical data are not necessarily indicative of human clinical outcome.
- Based on internal report 43008CR339, Support for marketing claims related to surface of Dextile™ anatomical mesh versus competitors. August 2019.
- Based on internal test report 43008CR268. Design output file Merlin. February 2019.
- Based on internal report Dextile™ anatomical mesh, Surgeon interview report. July 2019.
- Daes J, Felix E. Critical view of the myopectineal orifice. Annals of Surgery 2017;266(1), e1-e2.
- Based on internal report 43008CR326, Support for marketing claims related to Dextile™ anatomical mesh handling. August 2019.
- Weyhe D, Cobb W, Lecuivre J, et al. Large pore size and controlled mesh elongation are relevant predictors for mesh integration quality and low shrinkage – Systematic analysis of key parameters of meshes in a novel minipig hernia model. Int J Surg. 2015;22:46–53.
- Based on internal report 43008CR336, Support for marketing claims related to the Dextile™ anatomical mesh transparency. August 2019.
- Based on internal report 43008CR343, Robotically assisted inguinal hernia surgery - review considering Dextile™ anatomical mesh. September 2019.
Health Canada licence number "MDL# 105993".