摘要
BACKGROUND: The quality of liver graft and outcome of liver transplantation is affected by the length of ischemia time during the donor operation. The retrieved graft may have a serious damage during the time of stoppage of the circulation in the donor until revascularization in the recipient. It is very important to develop a suitable preservation fluid to minimise the damage caused by the ischemic period and to make the surgical procedure semi- elective. DATA SOURCES: An English-language literature search was conducted using MEDLINE (1960-2006) on liver preservation solution, liver transplantation, kidney transplantation and other related subjects. RESULTS: Since 1960 until 2006 many preservation solutions have been introduced. Most of them are based on the effect of hypothermia to minimise the metabolic pathway in the liver graft. In the earlier studies electrolyte solutions were used to perfuse the liver through the portal vein. The first modification in preservation solution was done by Collins who was able to extend the kidney preservation time up to 30 hours. In recent years, the introduction of University of Wisconsin (UW) preservation solution has made a revolution in the field of organ preservation. The UW solution is based on lactobionate and raffinose as impermeants to suppress hypothermic-induced tissue swelling, replacing glucose and mannitol in Collin's solution and hypertonic citrate respectively. Recently a research group in Kyoto University works to produce a more reliable preservation solution. They investigated the importance of saccharides and electrolytes in lung preservation and developed their original ET-Kyoto solution. However, more studies are still needed to evaluate the new ET-Kyoto solution. CONCLUSIONS: The development of new preservation solutions represents a corner stone in the field of organtransplantation. In the future we might be able to extend the time of organ preservation from hours to days.
BACKGROUND: The quality of liver graft and outcome of liver transplantation is affected by the length of ischemia time during the donor operation. The retrieved graft may have a serious damage during the time of stoppage of the circulation in the donor until revascularization in the recipient. It is very important to develop a suitable preservation fluid to minimise the damage caused by the ischemic period and to make the surgical procedure semi- elective. DATA SOURCES: An English-language literature search was conducted using MEDLINE (1960-2006) on liver preservation solution, liver transplantation, kidney transplantation and other related subjects. RESULTS: Since 1960 until 2006 many preservation solutions have been introduced. Most of them are based on the effect of hypothermia to minimise the metabolic pathway in the liver graft. In the earlier studies electrolyte solutions were used to perfuse the liver through the portal vein. The first modification in preservation solution was done by Collins who was able to extend the kidney preservation time up to 30 hours. In recent years, the introduction of University of Wisconsin (UW) preservation solution has made a revolution in the field of organ preservation. The UW solution is based on lactobionate and raffinose as impermeants to suppress hypothermic-induced tissue swelling, replacing glucose and mannitol in Collin's solution and hypertonic citrate respectively. Recently a research group in Kyoto University works to produce a more reliable preservation solution. They investigated the importance of saccharides and electrolytes in lung preservation and developed their original ET-Kyoto solution. However, more studies are still needed to evaluate the new ET-Kyoto solution. CONCLUSIONS: The development of new preservation solutions represents a corner stone in the field of organtransplantation. In the future we might be able to extend the time of organ preservation from hours to days.
