M E Giménez1,2,3,4,5, C F Davrieux6,7,8, E Serra9, M Palermo8, E J Houghton8,9, G Alonci10, E Piantanida10, A Garcia Vazquez6,8, V Lindner11, B Dallemagne6,7, M Diana6,7, J Marescaux6,7,10, L De Cola10. 1. Institute of Image-Guided Surgery, Institut Hospitalo-Universitaire-Strasbourg, Strasbourg, France. marianoegimenez@gmail.com. 2. IRCAD, Research Institute Against Cancer of the Digestive System, Strasbourg, France. marianoegimenez@gmail.com. 3. DAICIM Foundation, Teaching, Research, Assistance in Minimally Invasive Surgery, Buenos Aires, Argentina. marianoegimenez@gmail.com. 4. University of Buenos Aires, Buenos Aires, Argentina. marianoegimenez@gmail.com. 5. University of Strasbourg, Strasbourg, France. marianoegimenez@gmail.com. 6. Institute of Image-Guided Surgery, Institut Hospitalo-Universitaire-Strasbourg, Strasbourg, France. 7. IRCAD, Research Institute Against Cancer of the Digestive System, Strasbourg, France. 8. DAICIM Foundation, Teaching, Research, Assistance in Minimally Invasive Surgery, Buenos Aires, Argentina. 9. University of Buenos Aires, Buenos Aires, Argentina. 10. University of Strasbourg, Strasbourg, France. 11. Pathology Department, Nouvel Hôpital Civil of Strasbourg, Strasbourg, France.
Abstract
PURPOSE: To evaluate the feasibility and safety of a new percutaneous image-guided surgery technique to simulate a hernia repair using hydrogel. MATERIALS AND METHODS: A comparative prospective study was conducted in animals, with survival. Five pigs without any hernias were used. A hydrogel was injected at a site corresponding to the preperitoneal inguinal region. This procedure was performed bilaterally. An image-guided needle (ultrasound and computed tomography) was used, through which the material was injected. After survival, the local and systemic inflammatory reaction generated by the new material, was studied. RESULTS: All animals survived the procedure. No hemorrhagic or infectious complications were reported. The solidification of the material occurred as expected. In eight out of ten cases, the material was found in the planned site. No systemic inflammatory reaction secondary to the administration of hydrogel was reported. The adhesion of the material to surrounding tissues was satisfactory. CONCLUSION: The introduction of a liquid material which solidifies after injection in a short time (hydrogel) using a needle is feasible. The combined CT-scan and US image guidance allows for the percutaneous placement of the needle in the required location. The introduced hydrogel remains in this space, corresponding to the inguinal region, without moving. The placed hydrogel compresses the posterior wall composed of the transversalis fascia, supporting the potential use of hydrogel for hernia defects.
PURPOSE: To evaluate the feasibility and safety of a new percutaneous image-guided surgery technique to simulate a hernia repair using hydrogel. MATERIALS AND METHODS: A comparative prospective study was conducted in animals, with survival. Five pigs without any hernias were used. A hydrogel was injected at a site corresponding to the preperitoneal inguinal region. This procedure was performed bilaterally. An image-guided needle (ultrasound and computed tomography) was used, through which the material was injected. After survival, the local and systemic inflammatory reaction generated by the new material, was studied. RESULTS: All animals survived the procedure. No hemorrhagic or infectious complications were reported. The solidification of the material occurred as expected. In eight out of ten cases, the material was found in the planned site. No systemic inflammatory reaction secondary to the administration of hydrogel was reported. The adhesion of the material to surrounding tissues was satisfactory. CONCLUSION: The introduction of a liquid material which solidifies after injection in a short time (hydrogel) using a needle is feasible. The combined CT-scan and US image guidance allows for the percutaneous placement of the needle in the required location. The introduced hydrogel remains in this space, corresponding to the inguinal region, without moving. The placed hydrogel compresses the posterior wall composed of the transversalis fascia, supporting the potential use of hydrogel for hernia defects.
Entities:
Keywords:
Direct hernia repair; Hernia repair; Hydrogel; Image-guided hernia repair; Minimally invasive hernia surgery
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