Performance Evaluation of Mindray SAL 8000: a New Integrated Clinical Chemistry and Immunoassay Analyzer System.

BACKGROUND: The Mindray SAL 8000 is an integrated serum analyzer for photometric, electrochemical, and im-munological assays. The technical, analytical, and workflow performance of the system were evaluated in this study. METHODS: The technical evaluation was performed using protocols adopted from the guidelines of the China Food and Drug Administration (CFDA). The precision, linearity, interference, and method comparison were carried out according to the Clinical and Laboratory Standards Institute (CLSI) protocols. The verification of carryover and turnaround time were conducted using specimens containing different analytes. RESULTS: The technical performance was acceptable for all evaluated aspects. The repeatability and within-labora-tory coefficients of variation (CVs) ranged between 0.22% and 4.23% for routine chemistry and between 1.05% and 6.89% for immunochemistry, respectively. All evaluated analytes exhibited linearity over the ranges claimed by the manufacturer. Significant interferences were observed during low concentration TBIL and P measure-ments due to the presence of lipemia. Method comparisons showed good agreement with the comparison systems and with the correlation coefficients ≥ 0.988 except for anti-HBs (r = 0.812). No significant intra-module and inter-module carryovers were detected. For all the 1,220 samples, 25%, 54%, 63%, 79%, 91%, and 100% samples com-pleted analysis in 16.3 minutes, 30 minutes, 60 minutes, 120 minutes, 180 minutes, and 320 minutes, respectively. CONCLUSIONS: The Mindray SAL 8000 integrated system achieved optimal technical performance and met most of the criteria regarding analytical performance. The workflow study of the system met the turnaround time (TAT) requirements of laboratories. Therefore, it is a good candidate to be used in medium and large-sized laboratories.

[Effect of potassium level on output and diosgenin content of Dioscorea zingiberensisg].

OBJECTIVE: To study the effect of potassium level on physiological characteristics and diosgenin content of Dioscorea zingiberensisg and provide experimental basis for proper use of potassium fertilizer. METHODS: Field experiment including four potassium levels was carried out. The physiological characteristics of leaves were determined at different growth stages and the diosgenin content in bulk root was assayed after harvest. RESULTS: Within the arrange of 0-180 kg K2SO4/hm2, the content of chlorophyll and amino acid, Fv/Fo, Fv/Fm, and phiPs II were increased with the increase in potassium level. Meanwhile, the ability to defense the damage caused by active oxygen was obviously enhanced. Further increase in potassium level resulted in the decrease in efficiency of potassium fertilizer. CONCLUSION: It indicats that higher yield and diosgenin content can be obtained when the potassium level is 180 kg K2/hm2.