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The uniquely designed Dextile™ anatomical mesh is an easy-to-use solution that can provide the positive patient outcomes clinicians want.3
A mesh designed to offer a balanced combination of macroporosity, surface density, and mechanical strength for successful hernia repair.
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.
Symbotex™ mesh is available in a large variety of shapes and sizes for laparoscopic hernia repair, with specific subranges dedicated to laparoscopic and open surgery.
Designed to address key issues in laparoscopic inguinal hernia repair, ProGrip™ laparoscopic self-fixating mesh delivers tack-free fixation over the entire anatomy4 thus eliminating the pain5,6 and cost7 associated with traditional fixation.
Parietex™ Composite ventral patch is a mesh specifically designed for small ventral hernia repair. The shape, size, and the specific fixation and deployment system have been designed for optimal abdominal wall conformability and easy deployment and fixation8.
Parietex ProGrip™ self-fixating mesh delivers security, patient comfort and ease of use. Its advanced microgrip technology provides immediate fixation9 of the entire mesh surface for a secure repair and even distribution of tension for patient comfort. Designed for ease of use, the resorbable polylactic acid (PLA) microgrips enable surgeons to position and place the mesh in under 60 seconds10, without the use of additional fixation11. Surgeons and patients can depend on a secure repair with the potential for greater patient comfort.
All Parietex™ products are created from a macroporous polyester material which produce superior cellular proliferation when compared to polypropylene mesh in vitro.12
Parietex™ Optimized Composite (PCOx) mesh offers a resorbable collagen barrier on one side to limit visceral attachments and a three-dimensional polyester knit structure on the other to promote differentiated tissue ingrowth and ease of use.
Based on the proven performance of original PCO, PCOx is the next generation of Parietex™ Composite mesh. It is engineered to better address surgeon and patient needs in laparoscopic ventral hernia repair. The new design incorporates a more resistant barrier and a proprietary textile design with better visibility and increased strength13.
PCOx mesh promotes rapid abdominal wall integration14, minimizes visceral attachments15 and facilitates strong tack fixation16.
The latest addition to the Parietex™ family of synthetic mesh is easy to use, allowing surgeons to maintain their proven technique and designed to deliver enhanced patient comfort and intra-operative security through its unique design.
Parietex™ Optimized Composite Open Skirt (PCO OSx) mesh provides a new level of control during open ventral hernia repair. The open skirted (OS) design has increased rigidity for easier handling during implantation in open incisional and ventral hernia repair.
The skirted flap on the parietal side of the mesh allows for more easily accessible fixation points in the open approach. The skirt provides an area of fixation protected from the viscera on one side and allows fixation to the abdominal wall without disrupting the collagen film.
Parietex™ Composite (PCO) parastomal mesh is a monofilament mesh providing a custom design for parastomal hernia repair. While ordinary meshes carry the risk of in-growth into the bowel, Parietex™ Composite is coated with a protective collagen-based film to help prevent tissue attachment. Its unique design provides for easy placement of the mesh for parastomal hernia repair.
All Parietex™ products are created from a macroporous polyester material whose properties invite healthy tissue integration and mesh compliance while reducing encapsulation.18
Parietex™ Composite (PCO) hiatal mesh makes the surgical treatment of gastroesophageal reflux disease (GERD) and hiatal hernia viable. While ordinary meshes can carry the risk of in-growth into the esophagus, Parietex™ Composite is coated on one side with a protective collagen-based film to help minimize tissue attachment. Its unique design provides for easy placement of the mesh for hiatal hernia repair.
All Parietex™ products are created from a macroporous polyester material whose properties invite healthy tissue integration and mesh compliance while reducing encapsulation.21
Parietex™ mesh provides a custom-designed mesh for laparoscopic inguinal hernia repair. It combines Parietex™ 2D weave with Parietex™ 3D weave.
The 2D weave is lightweight and macroporous with a design that is rigid, making it ideal for laparoscopic applications due to its handling properties.
The 3D weave is also a lightweight, macroporous mesh but has a design that provides compliance and softness. This softness allows for gentle placement over sensitive nerve and vessel structures in the inguinal area.
All Parietex™ products are created from a macroporous polyester material whose properties invite healthy tissue integration and mesh compliance while reducing encapsulation.21
Parietex™ flat sheet mesh comes in both 2D weaves (TEC) and 3D weaves (TET) designs.
The 2D weave is a lightweight, macroporous mesh with a design that is rigid, making it ideal for laparoscopic applications due to its handling properties.
The 3D weave is also a lightweight, macroporous mesh but has a design that provides softness. This 3D weave allows for compliance and isometric movement with the patient. Its macroporous nature provides optimal cell ingrowth.
All Parietex™ products are created from a macroporous polyester material whose properties invite healthy tissue integration and mesh compliance while reducing encapsulation.21
Innovation meets performance in this comprehensive line of synthetic mesh for hernia surgery. Accommodating broad flexibility in preferred techniques and in inguinal, ventral, umbilical, open and laparoscopic surgical procedures, our mesh portfolio combines superior clinical efficiency with positive patient outcomes. This depth and diversity of design allows surgeons to take a patient-specific approach to hernia repair while enjoying the enhanced value of line standardization.