Advanced hepatic tissue destruction in ablative cryosurgery: potentials of intermittent freezing and selective vascular inflow occlusion |
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Authors: | Kollmar Otto Richter Sven Schilling Martin K Menger Michael D Pistorius Georg A |
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Affiliation: | Department of General, Visceral and Vascular Surgery, D-66421 Homburg/Saar, Germany. chokol@uniklinik-saarland.de |
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Abstract: | Recent studies indicate that cryosurgery represents a promising approach to treat non-resectable liver tumors. To improve parenchymal tissue destruction, a variety of modifications of the freeze-thaw procedure have been suggested, including repetitive freezing and portal-triad cross-clamping. The aim of the present study was to analyze whether intermittent freezing by application of a double freeze-thaw procedure or selective vascular inflow occlusion are more effective than a single freeze-thaw cycle to achieve complete hepatic tissue destruction. Using a porcine model, intrahepatic cryolesions were induced by freezing the hepatic tissue for a total of 15 min (n=6, SF). Additional animals (n=6) underwent a double freeze-thaw cycle of 7.5 min each (DF). A third group of animals (n=6) was treated by a single 15-min freeze-thaw cycle during selective vascular inflow occlusion (VO-SF). Seven days after freezing, DF did not change the volume of the cryolesion (25.4+/-1.7 cm(3)) compared to SF (29.9+/-3.7 cm(3)), however, resulted in enhanced destruction of hepatocyte nuclear morphology (DF-score: 2.4+/-0.2 versus SF-score: 1.1+/-0.3; p<0.05) and attenuated leukocyte infiltration within the margin of the cryolesion (DF-score: 1.5+/-0.2 versus SF-score: 2.8+/-0.1; p<0.05). VO-SF was also effective to significantly enhance destruction of hepatocyte nuclear morphology (2.8+/-0.1; p<0.05 versus SF), but, additionally, markedly increased the volume of the cryolesions (43.3+/-5.3 cm(3); p<0.05 versus SF and DF). Interestingly, VO-SF further increased the number of apoptotic cells, while leukocyte infiltration (2.3+/-0.3) was not affected compared to that after SF-treatment. Thus, our data indicate that both DF and VO-SF are effective to enhance parenchymal cell destruction within the margin of the cryolesion. VO-SF additionally increases the volume of the lesion and may therefore be most attractive for successful clinical application. |
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Keywords: | Cryosurgery Single freeze– thaw cycle Double freeze– thaw cycle Vascular inflow occlusion Portal triad cross-clamping Repetitive freezing Cryotherapy Cryoablation Hepatic tumors Apoptosis |
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