Accuracy and precision of a robotic sample processor.

D A Armbruster, L C Hawes, C T Winter
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Abstract

The accuracy and precision of the Packard Probe 1000, a computer-driven robotic sample processor, were determined using NCCLS Guideline 18-P, employing a rigorous gravimetric procedure. For volumes of 25, 100, and 200 muL, inaccuracy ranged from -0.5 to +0.6% (saline) and -0.8 to +0.7% (human serum), and imprecision from 0.1 to 0.6% (saline) and 0.02 to 0.8% (human serum), in the dip and sip mode of pipetting. For the same volumes of saline in the dispense-through pipetting mode, inaccuracy ranged from -0.1 to -0.9% and imprecision from 0.1 to 0.5%. To obtain this level of performance, the instrument's operating parameters were changed from the factory default settings. This automated liquid-handling system is capable of impressive accuracy and precision, but it must be calibrated in the same manner as any other volumetric device. Performance varies with the volume, type of liquid, and mode of pipetting. Inaccuracy of less than or equal to 1.0% and imprecision of less than =1.0% can be attained along with rapid, walkaway pipetting of calibrators, controls, and large numbers of patient samples.

机器人样品处理机的准确度和精密度。
Packard Probe 1000(计算机驱动的机器人样品处理机)的准确度和精密度采用NCCLS指南18-P,采用严格的重量测定程序进行测定。对于25,100和200mul的体积,在dip和sip移液模式下,不精确性范围为-0.5至+0.6%(生理盐水)和-0.8至+0.7%(人血清),不精确性范围为0.1至0.6%(生理盐水)和0.02至0.8%(人血清)。对于相同体积的生理盐水,在点液移液模式下,不精确范围为-0.1至-0.9%,不精确范围为0.1至0.5%。为了获得这种性能水平,仪器的操作参数从出厂默认设置更改。这种自动化液体处理系统具有令人印象深刻的准确度和精度,但它必须以与任何其他体积测量设备相同的方式进行校准。性能随体积、液体类型和移液方式的不同而变化。不准确性小于或等于1.0%,不精密度小于=1.0%,可实现快速、走开移液校准器、对照品和大量患者样品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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