Primary dysfunction (PDF) still occurs after orthotopic liver transplantation (OLT). Celsior solution (CS) might offer some advantages over the conventional University of Wisconsin (UW) solution for organ preservation, but to date, this has not been prospectively evaluated in the context of OLT. In this prospective, randomized, multicenter, pilot study, 215 potential liver donors were enrolled and randomized. In 42 cases, the livers were unsuitable for transplantation; therefore, 173 randomized livers ultimately were implanted after perfusion and cold preservation with CS (n ؍ 83) or UW solution (n ؍ 90). In accord with the indications of the CS manufacturing company, total CS infusion volume was 90 mL/kg, greater than that of UW solution (60 mL/kg). The main aim of the study is to compare the prevalence of PDF between the two groups. Donor and recipient variables were similar in the two groups. Episodes of PDF were numerically lower in the CS (2.4%) than UW group (7.8%), but the difference was not statistically significant. There was a trend toward a lesser need for early re-OLT (<30 days) in the CS group (P ؍ .0507), but again, no statistically significant difference emerged. Overall and time-differentiated postoperative deaths also were similar. One-year actuarial patient (UW, 89% v CS, 87%) and graft (UW, 83% v CS, 85%) survival rates were similar. In conclusion, CS was similar to UW solution as a preservation solution in the clinical setting of OLT at the infusion volumes described, although some theoretical advantages of CS composition suggest that CS might prove a valid alternative to UW preservation solution in multiorgan harvesting, including the liver. A study on a larger patient basis is needed. (Liver Transpl 2003;9:814-821.)
The inverted open microwell is a novel microstructure supporting isolation and trapping of cells, analysis of cell-cell and cell-molecule interactions and functional cell sorting. This work introduces the inverted open microwell concept, demonstrating successful isolation of K562 cells in 75 μm microwells fabricated on a flexible printed circuit board substrate, and recovery of viable cells onto standard microtiter plates after analysis and manipulation. Dielectrophoresis (DEP) was used during the delivery phase to control cell access to the microwell and force the formation of cell aggregates so as to ensure cell-cell contact and interaction. Cells were trapped at the air-fluid interface at the bottom edge of the open microwell. Once trapped, cells were retained on the meniscus even after DEP de-activation and fluid was exchanged to enable perfusion of nutrients and delivery of molecules to the microwell, as demonstrated by a calcein-staining protocol performed in the microsystem. Finally, cell viability was assessed on trapped cells by a calcein release assay and cell proliferation was demonstrated after multiple cells had been recovered in parallel onto standard microtiter plates.
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