Symbotex™ Composite Mesh
Symbotex™ composite mesh provides surgeons improved ease of use, with easy mesh deployment and placement within the abdominal cavity. It also brings optimal performance for patients with excellent tissue integration and minimized visceral attachments.
ProGrip™ Laparoscopic
Self-Fixating Mesh
Designed to address key issues in laparoscopic inguinal hernia repair, ProGrip™ laparoscopic self-fixating mesh delivers tack-free fixation over the entire anatomy1 thus eliminating the pain2,3 and cost4 associated with traditional fixation.
Dextile™ Anatomical Mesh
The benefits of real anatomical design5,6
The uniquely designed Dextile™ anatomical mesh is an easy-to-use solution that can provide the positive patient outcomes clinicians want.7
Parietene™ Macroporous Mesh
Parietene™ macroporous mesh has been designed for a surgeon's ease of use during hernia repair procedures.8 A Polypropylene macroporous based mesh.
While there are many options when it comes to hernia repair, we continue to lead the way in developing hernia repair products that strike the right balance between performance, ease-of-use and cost-effectiveness.
Parietene™ DS Composite Mesh
A strong,9 easy-to-use mesh for open and laparoscopic ventral hernia repairs.10
On one side, a macroporous mesh to repair ventral hernia defects. On the other, an absorbable synthetic film to minimize unwanted tissue attachment.11,*
Two unique sides. One unique mesh.
Discover how our innovative solutions can support your practice—get in touch today!
*
Based on preclinical animal and/or benchtop studies.
1
Kolbe, T, Hollinsky, C, Walter, I, Joachim, A, and Rülicke, T. Influence of a new self-gripping hernia mesh on male fertility in a rat model. Surgical Endoscopy 2010; 24: 455-461.
2
Laxa, B, and Jacob, B. An ongoing prospective study evaluating self-gripping mesh (Parietex ProGrip™) without additional fixation during laparoscopic total extraperitoneal (TEP) inguinal hernia repair: initial analysis. IHS 2012 P1620.
3
Birk, D. Self-gripping mesh in laparoscopic inguinal hernia repair. Technique and clinical outcome of 96 operations. IHS 2012 P-1654.
4
Edwards, C. Self-fixating mesh is safe and feasible for laparoscopic inguinal hernia repair. Surgical Endoscopy and Other Interventional Techniques. Conference: 2011 Scientific Session of the Society of American Gastrointestinal and Endoscopic Surgeons, SAGES San Antonio, TX United States. Conference Start: 20110330 Conference End: 20110402. 25: S324.
5
Based on internal test report #43008CR268, Design output file Merlin. February 2019.
6
Based on Medtronic patent #US-20180318057-A1, Prosthesis for inguinal hernia repair. November 2018.
7
Based on internal report #43008CR339, Support for marketing claims related to surface of Dextile™ anatomical mesh vs. competitors. August 2019.
8
Based on internal test report #T2291CR044, Physical and mechanical properties of Parietene™ macroporous mesh.
9
Based on internal preclinical test report #T2294CR212, Design validation of Parietene™ DS composite mesh in surgeon labs: Evaluation performed through users test and questionnaire in a simulated use environment using a porcine model (n=7 surgeons). September 2016.
10
Based on internal preclinical report #T2294CR212. Design validation of Parietene™ DS composite mesh in surgeon labs: Feedback collected from seven independent surgeons in a simulated use environment using a porcine model. September 2016.
11
Based on NAMSA study #198929, Minimizing tissue attachment barrier performance, local tissue effects, and tissue integration of Parietene DS composite mesh in a rat cecal abrasion model. Based on occurrencerates of cecal soft tissue attachment to the mesh through macroscopic observations in the rat (n=18 test articles vs. n=12 bare mesh; p<0.05). October 2016.