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Issue title: Special Issue in Honour of the Editor-in-Chief Prof. Dr. Ing. Friedrich Jung on his 70th Birthday
Article type: Research Article
Authors: Hiebl, B.a; b; * | Ascher, L.b; c | Luetzow, K.b | Kratz, K.b | Gruber, C.a | Mrowietz, C.b; d | Nehring, M.E.a | Lendlein, A.b | Franke, R.-P.e | Jung, F.b
Affiliations: [a] Institute for Animal Hygiene, Animal Welfare and Farm Animal Behaviour and Virtual Center for Replacement – Complementary Methods to Animal Testing, University of Veterinary Medicine Hannover, Foundation, Hannover, Germany | [b] Institute of Biomaterial Science and Berlin-Brandenburg Center for Regenerative Therapies, Helmholtz-Zentrum Geesthacht, Teltow, Germany | [c] BAM Federal Institute for Materials Research and Testing, Berlin, Germany | [d] Institute for Clinical Hemostaseology and Transfusion Medicine, University of Saarland, Homburg/Saar, Germany | [e] Central Institute for Biotechnology, University of Ulm, Ulm, Germany
Correspondence: [*] Corresponding author: Prof. Dr. Bernhard Hiebl, E-mail: Bernhard.hiebl@tiho-hannover.de.
Abstract: Laser tissue soldering (LTS) based on indocyanine green (ICG)-mediated heat-denaturation of proteins might be a promising alternative technique for micro-suturing, but up to now the problem of too weak shear strength of the solder welds in comparison to sutures is not solved. Earlier reports gave promising results showing that solder supported by carrier materials can enhance the cohesive strength of the liquid solder. In these studies, the solder was applied to the carriers by dip coating. Higher reliability of the connection between the solder and the carrier material is expected when the solder is bound covalently to the carrier material. In the present study a poly(ether imide) (PEI) membrane served as carrier material and ICG-supplemented albumin as solder substrate. The latter was covalently coupled to the carrier membrane under physiological conditions to prevent structural protein changes. As laser source a diode continuous-wave laser emitting at 808 nm with intensities between 250 mW and 1500 mW was utilized. The albumin functionalized carrier membrane was placed onto the tunica media of explanted pig thoracic aortae forming an overlapping area of approximately 0.5×0.5 cm2. All tests were performed in a dry state to prevent laser light absorption by water. Infrared spectroscopy, spectro-photometrical determination of the secondary and primary amine groups after acid orange II staining, contact angle measurements, and atomic force microscopy proved the successful functionalization of the PEI membrane with albumin. A laser power of 450 mW LTS could generate a membrane-blood vessel connection which was characterized by a shear strength of 0.08±0.002 MPa, corresponding to 15% of the tensile strength of the native blood vessel. Theoretically, an overlapping zone of 4.1 mm around the entire circumference of the blood vessel could have provided shear strength of the PEI membrane-blood vessel compound identical to the tensile strength of the native blood vessel. These in-vitro results confirmed the beneficial effects of solder reinforcement by carrier membranes, and suggest LTS with covalently bound solders on PEI substrates for further studies in animal models.
Keywords: Laser tissue soldering, blood vessel anastomosis, laser welding, solder carrier, poly(ether imide) membrane
DOI: 10.3233/CH-189108
Journal: Clinical Hemorheology and Microcirculation, vol. 69, no. 1-2, pp. 317-326, 2018
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