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Expert Review: Clinical experience with GORE<sup>®</sup> SYNECOR Intraperitoneal Biomaterial Document

Expert Review: Clinical experience with GORE® SYNECOR Intraperitoneal Biomaterial

A surgeon reviewing their clinical experience with GORE® SYNECOR Intraperitoneal Biomaterial and MEDTRONIC PARIETEX Composite Mesh for Umbilical / Epigastric Hernias.
Laparoscopic Fixation of GORE<sup>®</sup> SYNECOR Biomaterial in a Cadaver Model Using a Robotic Arm Video

Laparoscopic Fixation of GORE® SYNECOR Biomaterial in a Cadaver Model Using a Robotic Arm

Erik B. Wilson M.D., FACS, shares a video showing laparoscopic fixation of GORE® SYNECOR Biomaterial in a cadaver model using a robotic arm.
Biosynthetics — Know your options Document

Biosynthetics — Know your options

"[Biologic] materials come with only moderate durability, and at substantial financial cost. Slowly absorbable biosynthetic implants, as a class of hernia meshes, represent a possible cost-effective solution. In the final analysis."
Laparoscopic Ventral Hernia Repair using GORE® SYNECOR® BioMaterial Video

Laparoscopic Ventral Hernia Repair using GORE® SYNECOR® BioMaterial

Carl R. Doerhoff, MD, FACS, practices in SurgiCare in Jefferson City, Missouri, presents the use of the GORE® SYNECOR® BioMaterial Laparoscopic ventral hernia repair.
Retromuscular Onlay Hernia Repair Using GORE<sup>®</sup> ENFORM Preperitoneal Biomaterial Video

Retromuscular Onlay Hernia Repair Using GORE® ENFORM Preperitoneal Biomaterial

This is an educational surgical technique video demonstrating a retromuscular onlay hernia repair using GORE® ENFORM Preperitoneal Biomaterial. A cadaver model is used for demonstration to facilitate visualization of the anatomy. This educational content provided by John P. Fischer, M.D.
Biosynthetic Tissue Scaffold Recruits Progenitor Cells in Muscle Tissue Healing Model Document

Biosynthetic Tissue Scaffold Recruits Progenitor Cells in Muscle Tissue Healing Model

This study demonstrates that the open, porous structure of the GORE® BIO-A® Tissue Reinforcement is able to recruit the Pax7+ cells residing in host muscle, a critical step in muscle regeneration.
Virtual Case Study: Visible Tissue Responsiveness: Metabolic and Fibroblast Activity During Utilization of a Bioabsorbable Matrix in Abdominal Wall Reconstruction Document

Virtual Case Study: Visible Tissue Responsiveness: Metabolic and Fibroblast Activity During Utilization of a Bioabsorbable Matrix in Abdominal Wall Reconstruction
Learn More About GORE<sup>®</sup> SYNECOR Biomaterials Document

Learn More About GORE® SYNECOR Biomaterials

Hybrid hernia repair device for high BMIs, multiple comorbidities and recurrent defects are now available.
Retro-rectus Placement of Bio-absorbable Mesh Improves Patient Outcomes Document

Retro-rectus Placement of Bio-absorbable Mesh Improves Patient Outcomes

Our primary objective was to determine the longterm surgical outcomes of retro-rectus and intraperiteonal placement of mesh.

Showing 37 - 45 of 45 results

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