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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.
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.
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Bio-A Mesh Use in Hiatal Hernia Repair. A Systematic Literature Review
Abdul-Rahman F. Diab, Joseph A. Sujka, Adham R. Saad, Christopher G. DuCoin, Salvatore Docimo present on hiatal hernia repair without mesh reinforcement that is associated with high rates of hernia reoccurrence, reaching more than 50% at 5 years.
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Long-term results for intraperitoneal biomaterial repair of ventral hernias in a real-world, retrospective, multicenter study
This retrospective, multicenter, case review analyzed device/procedure endpoints and patient-reported outcomes in patients treated for hernia repair 1 year or more from study enrollment.
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Case Study: Proven Outcomes Reduced Costs for Complex Hernia Repairs
GORE® BIO-A® Tissue Reinforcement is an excellent choice in soft tissue repair, including complex hernia.
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Clinical Use of GORE® BIO-A® Tissue Reinforcement in Ventral Hernia Repair Using the Components Separation Technique
Many repaired incisional or ventral hernias recur; thus, the primary objective of research and technological developments pertaining to these hernias has long been to minimize recurrences without increasing treatment-related complications.
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Converting Biologic Mesh to Synthetic, Absorbable Mesh
Vizient Mesh Savings Opportunity Podcast. Clinical benefits and savings opportunity
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The Role of a Biosynthetic Hybrid Mesh in Abdominal Wall Hernia Repair in High-Risk Patients with Multiple Comorbidities
The influx of more high-risk and obese patients in need of abdominal wall hernia repair naturally leads to larger, more complex hernia cases and the need for strong mesh.
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Virtual Case Study - Matthew Goldblatt, M.D., FACS: Visible tissue responsiveness: Metabolic and fibroblast activity during utilization of a bioabsorbable matrix in abdominal wall reconstruction
Visible tissue responsiveness: Metabolic and fibroblast activity during utilization of a bioabsorbable matrix in abdominal wall reconstruction