TY - JOUR
T1 - Normothermic blood perfusion of isolated rabbit kidneys
T2 - III. In vitro physiology of kidneys after perfusion with Euro-Collins solution or 7.5 M cryoprotectant (VS4)
AU - Arnaud, Françoise G.
AU - Khirabadi, Bijan S.
AU - Fahy, Gregory M.
PY - 2002
Y1 - 2002
N2 - Cryopreservation of solid organs might be possible using a mixture of cell-permeable agents, cryoprotectants (CPA), which are designed to completely preclude ice crystal formation during cooling to cryogenic temperatures. The effects of a specific prototype solution (VS4) were evaluated by normothermic blood perfusion in vitro. Rabbit kidneys were divided into three groups: untreated controls (n = 7), Euro-Collins (EC)-perfused controls (n = 6) and VS4 (49%, w/v) CPA-perfused kidneys (n = 7). After a 2-h blood perfusion, five of the seven CPA-perfused kidneys developed plyuria (0.21 ml×min-1×g-1) relative to untreated controls (0.07 mlxmin-1×g-1) or EC-perfused kidneys (0.06 ml×min-1×g-1), owing to the lower reabsorption of water (34.3%), Na+ (34.2%) and glucose (35.6%). Furthermore, two kidneys were non-functional with virtually no urine production. Reduced tubular function was associated with reduced oxygen consumption (3.6 versus 2.3 versus 2.0 μmole×min-1×g-1 for controls, EC- and CPA-perfused kidneys, respectively) and increased weight gain (17% versus 20% versus 30%, respectively) after blood perfusion. Therefore, the current results provide insight into both the physiological effects of VS4 and the limits of reversibility of renal pathophysiological states. Our results also indicate that in vitro monitoring of oxygen consumption and weight gain of perfused organs could be used as predictors of renal function.
AB - Cryopreservation of solid organs might be possible using a mixture of cell-permeable agents, cryoprotectants (CPA), which are designed to completely preclude ice crystal formation during cooling to cryogenic temperatures. The effects of a specific prototype solution (VS4) were evaluated by normothermic blood perfusion in vitro. Rabbit kidneys were divided into three groups: untreated controls (n = 7), Euro-Collins (EC)-perfused controls (n = 6) and VS4 (49%, w/v) CPA-perfused kidneys (n = 7). After a 2-h blood perfusion, five of the seven CPA-perfused kidneys developed plyuria (0.21 ml×min-1×g-1) relative to untreated controls (0.07 mlxmin-1×g-1) or EC-perfused kidneys (0.06 ml×min-1×g-1), owing to the lower reabsorption of water (34.3%), Na+ (34.2%) and glucose (35.6%). Furthermore, two kidneys were non-functional with virtually no urine production. Reduced tubular function was associated with reduced oxygen consumption (3.6 versus 2.3 versus 2.0 μmole×min-1×g-1 for controls, EC- and CPA-perfused kidneys, respectively) and increased weight gain (17% versus 20% versus 30%, respectively) after blood perfusion. Therefore, the current results provide insight into both the physiological effects of VS4 and the limits of reversibility of renal pathophysiological states. Our results also indicate that in vitro monitoring of oxygen consumption and weight gain of perfused organs could be used as predictors of renal function.
KW - In vitro perfusion
KW - Organ cryppreservation
KW - Oxygen consumption
KW - Transplantation
KW - VS4
KW - Vitrification
UR - http://www.scopus.com/inward/record.url?scp=0036940567&partnerID=8YFLogxK
U2 - 10.1111/j.1432-2277.2002.tb00166.x
DO - 10.1111/j.1432-2277.2002.tb00166.x
M3 - Article
C2 - 12072898
AN - SCOPUS:0036940567
SN - 0934-0874
VL - 15
SP - 278
EP - 289
JO - Transplant International
JF - Transplant International
IS - 6
ER -