文献检索，用中文搜 PubMed

Suppr 超能文献

核心技术专利：CN118964589B侵权必究

核心技术专利：CN118964589B侵权必究

Clin Biochem. 1978 Jun;11(3):87-9. doi: 10.1016/s0009-9120(78)90042-5.

A simple computer model is described which was used to study possible test combinations on automated multichannel analysers. Specific objectives were minimisation of manpower and maximisation of throughput of the specimen preparation process. 2. In our case, by appropriate test combination selection, a staff saving of 50% in the aliquotting process is predicted. For tests that are available on multichannel analysers, a reduction from 198 to 121 aliquots per 100 patient specimens is expected on an 18 channel machine. With the use of filter separation systems, manual aliquotting would be required for 21 specimens per 100.

描述了一个简单的计算机模型，该模型用于研究自动多通道分析仪上可能的检测组合。具体目标是将人力降至最低，并使标本制备过程的通量最大化。2. 在我们的案例中，通过适当选择检测组合，预计在分装过程中可节省50%的人力。对于多通道分析仪上可用的检测项目，在一台18通道的机器上，每100份患者标本的分装量预计将从198份减少到121份。使用过滤分离系统后，每100份标本中需要手动分装的标本为21份。

Clin Biochem. 1978 Jun;11(3):87-9. doi: 10.1016/s0009-9120(78)90042-5.

A simple computer model is described which was used to study possible test combinations on automated multichannel analysers. Specific objectives were minimisation of manpower and maximisation of throughput of the specimen preparation process. 2. In our case, by appropriate test combination selection, a staff saving of 50% in the aliquotting process is predicted. For tests that are available on multichannel analysers, a reduction from 198 to 121 aliquots per 100 patient specimens is expected on an 18 channel machine. With the use of filter separation systems, manual aliquotting would be required for 21 specimens per 100.

描述了一个简单的计算机模型，该模型用于研究自动多通道分析仪上可能的检测组合。具体目标是将人力降至最低，并使标本制备过程的通量最大化。2. 在我们的案例中，通过适当选择检测组合，预计在分装过程中可节省50%的人力。对于多通道分析仪上可用的检测项目，在一台18通道的机器上，每100份患者标本的分装量预计将从198份减少到121份。使用过滤分离系统后，每100份标本中需要手动分装的标本为21份。