TIGR Matrix
Resorbable Surgical Mesh
We are experts in resorbable medical devices. Novus Scientific is the Innovator, developer and manufacturer of the world´s first long-term resorbable surgical mesh TIGR Matrix.
TIGR is today being used by surgeons
all over the world to support and reinforce
soft tissue in a variety of surgical procedures.

Latest Study
Prophylactic onlay mesh at emergency laparotomy:
promising early outcomes…
AWR
Dynamic Reconstruction with TIGR Matrix
the World’s first Long-term resorbable Surgical Mesh
Results at 3-year follow-up of totally extraperitoneal (TEP) hernia surgery with long-term resorbable mesh
Ruiz-Jasbon, F., Ticehurst, K., Ahonen, J., Norrby, J., Ivarsson, M-L., Falk, P. Hernia, 2020 Jun;24(3):669-676 DOI: 10.1007/s10029-019-02116-2Abstract IntroductionSynthetic non-resorbable mesh is almost standard in hernia surgery. However, several studies have...
The use of a novel synthetic resorbable scaffold (TIGR® Matrix) in a clinical quality improvement (CQI) effort for abdominal wall reconstruction (AWR)
Ramshaw, B., Lewis, R., Forman, B., Preston, M., Heidel, E., Alvoid‑Preston, B. Hernia, 2020 May 25 DOI: 10.1007/s10029-020-02221-7Abstract PurposeThe use of hernia mesh is a common practice in abdominal wall reconstruction (AWR) operations. The high cost of biologic...
Resorbable mesh avoids post-operative pain compared with permanent mesh in inguinal hernia repair surgery
Inguinal hernia affects almost one third of all men and is one of the most common reasons for having surgery. Unfortunately, chronic post-operative pain is a widespread problem. Now, however, results from a 3-year prospective safety and performance study show that...
20 years of experience
Developing, manufacturing, and marketing resorbable medical devices
- Designed to help the body heal itself
- Non animal based
- 100% synthetic
- Long-term resorbable
- Untwisted multifilament
- Biocompatible mesh
Today TIGR Matrix is used by surgeons around the world with a growing body of clinical evidence supporting its use in soft tissue reinforcement