GORE® DUALMESH® Biomaterial
GORE® DUALMESH® Biomaterial is the first dual-surface material that is designed to encourage host tissue ingrowth while minimizing tissue attachment in the reconstruction of certain hernias and soft tissue deficiencies.
GORE® DUALMESH® Biomaterial offers surgeons a variety of features and benefits including:
- Dual-surface Material: A textured GORE CORDUROY Surface is designed to encourage host tissue incorporation, while the other smooth surface is designed to minimize tissue attachment
- ePTFE Material: the device remains soft and compliant which is achieved through an assembly of ePTFE with a specified node and fibril structure
- Strength: Strength is an obvious concern when performing a structural repair such as bridging a fascial defect in ventral hernia repair. Based upon samples tested, GORE® DUALMESH® Biomaterial has more than 2x the strength required, which is above the clinically derived strength requirement of 32 N/cm.1-3
- Optimized Compatibility: Fully compatible with GORE-TEX® Sutures for optimized soft tissue approximation
GORE® DUALMESH® Biomaterial has been successfully used in a wide range of applications including ventral /incisional hernias, parastomal hernias, diaphragmatic hernias, and chest wall soft tissue deficiencies. The clinical reputation of GORE® DUALMESH® Biomaterial products for the repair and reconstruction of hernias and soft tissue deficiencies is well known, exceeding 450 peer-reviewed scientific articles published since 1996 and more than 20 years of clinical history. When a strong, durable repair is needed, GORE® DUALMESH® Biomaterial has the proven performance.
- Klinge U, Klosterhalfen B, Conze J, et al. Modified mesh for hernia repair that is adapted to the physiology of the abdominal wall. European Journal of Surgery 1998;164(12):951-960.
- Junge K, Klinge U, Prescher A, Giboni P, Niewiera M, Schumpelick V. Elasticity of the anterior abdominal wall and impact for reparation of incisional hernias using mesh implants. Hernia 2001;5(3):113-118.
- Song C, Alijani A, Frank T, Hanna GB, Cuschieri A. Mechanical properties of thehuman abdominal wall measured in vivo during insufflation for laparoscopic surgery. Surgical Endoscopy 2006;20(6):987-990.
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