AIMS: Surgical measures always involve problems of hemostasis and tissue management. Tissue sealing can be carried out in this case, with knowledge of the adhesive strength of liquid and fleece-bound sealing being of great clinical relevance. By employing a leak closure model, it has been possible to perform in vitro standardized technological-biomechanical experiments on a biomembrane mounted in a pressure chamber (biosimulator). FINDINGS: Liquid sealing (fibrin gluing: 4.1 hPa, photopolymerisate: 82.9 hPa) offers minimal and maximal adhesive strengths. Fleece-bound sealing does not depend on the carrier material and is always more stabile than pure liquid sealing, whereby systems that must be coated "on the spot" (prepare-to-use: 22.3-25.3 hPa) exhibit significantly lower adhesive strength (p < 0.0001) than a biodegradable collagen system, which is ready-to-use thanks to its fibrinogen-based coating (TachoComb H). Practicability, effectiveness and efficiency are further advantages of ready-to-use systems. CONCLUSIONS: The biosimulator, presented here, is flexible in terms of its application for tissue management and it enables reproducible, economic and ecological evaluation of repair systems, e.g. tissue sealings. Copyright 2002 Elsevier Science Ltd.
AIMS: Surgical measures always involve problems of hemostasis and tissue management. Tissue sealing can be carried out in this case, with knowledge of the adhesive strength of liquid and fleece-bound sealing being of great clinical relevance. By employing a leak closure model, it has been possible to perform in vitro standardized technological-biomechanical experiments on a biomembrane mounted in a pressure chamber (biosimulator). FINDINGS: Liquid sealing (fibrin gluing: 4.1 hPa, photopolymerisate: 82.9 hPa) offers minimal and maximal adhesive strengths. Fleece-bound sealing does not depend on the carrier material and is always more stabile than pure liquid sealing, whereby systems that must be coated "on the spot" (prepare-to-use: 22.3-25.3 hPa) exhibit significantly lower adhesive strength (p < 0.0001) than a biodegradable collagen system, which is ready-to-use thanks to its fibrinogen-based coating (TachoComb H). Practicability, effectiveness and efficiency are further advantages of ready-to-use systems. CONCLUSIONS: The biosimulator, presented here, is flexible in terms of its application for tissue management and it enables reproducible, economic and ecological evaluation of repair systems, e.g. tissue sealings. Copyright 2002 Elsevier Science Ltd.