Resuscitation of Ischemically Damaged Pancreas by the Two‐Layer (University of Wisconsin Solution/Perfluorochemical) Mild Hypothermic Storage Method

We have shown that 24‐hour preservation by a two‐layer [University of Wisconsin solution (UW)/perfluorochemical (PFC)] cold storage method at 4°C allowed tissue ATP synthesis and resuscitated canine pancreases subjected to 90 minutes of warm ischemia. The purpose of this study was to examine whether...

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Published in:World journal of surgery 1996-10, Vol.20 (8), p.1030-1034
Main Authors: Matsumoto, Shinichi, Kuroda, Yoshikazu, Fujita, Hirofumi, Tanioka, Yasuki, Kim, Yongsik, Sakai, Tetsuya, Hamano, Mitsuaki, Suzuki, Yasuyuki, Ku, Yonson, Saitoh, Yoichi
Format: Article
Language:English
Subjects:
Adenine Nucleotides - analysis
Adenosine
Adenosine Triphosphate - metabolism
Allopurinol
Animals
Cryopreservation
Dogs
Female
Fluorocarbons
Glutathione
Graft Survival - physiology
Insulin
Male
Nucleotide Metabolism
Organ Preservation - methods
Organ Preservation Solutions
Pancreas - physiology
Pancreas Graft
Pancreas Transplantation - physiology
Raffinose
Reperfusion Injury - physiopathology
Storage Method
Tissue Perfusion
Warm Ischemia
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container_end_page 1034
container_issue 8
container_start_page 1030
container_title World journal of surgery
container_volume 20
creator Matsumoto, Shinichi
Kuroda, Yoshikazu
Fujita, Hirofumi
Tanioka, Yasuki
Kim, Yongsik
Sakai, Tetsuya
Hamano, Mitsuaki
Suzuki, Yasuyuki
Ku, Yonson
Saitoh, Yoichi
description We have shown that 24‐hour preservation by a two‐layer [University of Wisconsin solution (UW)/perfluorochemical (PFC)] cold storage method at 4°C allowed tissue ATP synthesis and resuscitated canine pancreases subjected to 90 minutes of warm ischemia. The purpose of this study was to examine whether the two‐layer (UW/PFC) mild hypothermic storage method at 20°C could shorten a preservation period for recovery of ischemically damaged pancreas and clarify changes of tissue adenine nucleotide metabolism and tissue perfusions. After 90 minutes of warm ischemia, canine pancreas grafts were preserved by the two‐layer method and then autotransplanted. Tissue adenine nucleotide levels at the end of preservation and tissue perfusions after reperfusion were measured. Pancreas grafts subjected to 90 minutes of warm ischemia did not survive (0 of 5), without preservation. During a 5‐hour preservation by the two‐layer cold storage method the grafts did not synthesize enough ATP to repair damaged cell, although tissue perfusions were maintained after reperfusion. Consequently, ischemically damaged pancreases were not resuscitated (0 of 3). However, during 5‐hour preservation by the two‐layer mild hypothermic storage method, the grafts supplied enough ATP for processes that repair damaged cells, and tissue perfusions were maintained after reperfusion. As a result, ischemically damaged grafts were resuscitated (5 of 5). We conclude that 5‐hour preservation by the two‐layer mild hypothermic storage method accelerates ATP synthesis, which is essential for repairing damaged cells and protects the vascular microcirculation. This method can resuscitate ischemically damaged pancreas faster and holds promise for pancreas‐kidney transplantation from cardiac arrest donors.
doi_str_mv 10.1007/s002689900157
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However, during 5‐hour preservation by the two‐layer mild hypothermic storage method, the grafts supplied enough ATP for processes that repair damaged cells, and tissue perfusions were maintained after reperfusion. As a result, ischemically damaged grafts were resuscitated (5 of 5). We conclude that 5‐hour preservation by the two‐layer mild hypothermic storage method accelerates ATP synthesis, which is essential for repairing damaged cells and protects the vascular microcirculation. 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The purpose of this study was to examine whether the two‐layer (UW/PFC) mild hypothermic storage method at 20°C could shorten a preservation period for recovery of ischemically damaged pancreas and clarify changes of tissue adenine nucleotide metabolism and tissue perfusions. After 90 minutes of warm ischemia, canine pancreas grafts were preserved by the two‐layer method and then autotransplanted. Tissue adenine nucleotide levels at the end of preservation and tissue perfusions after reperfusion were measured. Pancreas grafts subjected to 90 minutes of warm ischemia did not survive (0 of 5), without preservation. During a 5‐hour preservation by the two‐layer cold storage method the grafts did not synthesize enough ATP to repair damaged cell, although tissue perfusions were maintained after reperfusion. Consequently, ischemically damaged pancreases were not resuscitated (0 of 3). However, during 5‐hour preservation by the two‐layer mild hypothermic storage method, the grafts supplied enough ATP for processes that repair damaged cells, and tissue perfusions were maintained after reperfusion. As a result, ischemically damaged grafts were resuscitated (5 of 5). We conclude that 5‐hour preservation by the two‐layer mild hypothermic storage method accelerates ATP synthesis, which is essential for repairing damaged cells and protects the vascular microcirculation. This method can resuscitate ischemically damaged pancreas faster and holds promise for pancreas‐kidney transplantation from cardiac arrest donors.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer‐Verlag</pub><pmid>8798361</pmid><doi>10.1007/s002689900157</doi><tpages>5</tpages></addata></record>
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subjects Adenine Nucleotides - analysis
Adenosine
Adenosine Triphosphate - metabolism
Allopurinol
Animals
Cryopreservation
Dogs
Female
Fluorocarbons
Glutathione
Graft Survival - physiology
Insulin
Male
Nucleotide Metabolism
Organ Preservation - methods
Organ Preservation Solutions
Pancreas - physiology
Pancreas Graft
Pancreas Transplantation - physiology
Raffinose
Reperfusion Injury - physiopathology
Storage Method
Tissue Perfusion
Warm Ischemia
title Resuscitation of Ischemically Damaged Pancreas by the Two‐Layer (University of Wisconsin Solution/Perfluorochemical) Mild Hypothermic Storage Method
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