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The history of discrete sample analysis for the clinical laboratory began with the introduction of the "Robot Chemist" invented by Hans Baruch and introduced commercially in 1959 [1]. The AutoAnalyzer is an early example of an automated chemistry analyzer using a special flow technique named "continuous flow analysis (CFA)", invented in 1957 by ...
The AutoAnalyzer is an automated analyzer using a flow technique called continuous flow analysis (CFA), or more correctly segmented flow analysis (SFA) first made by the Technicon Corporation. The instrument was invented in 1957 by Leonard Skeggs, PhD and commercialized by Jack Whitehead's Technicon Corporation.
The Hitachi 917 is an automated biochemistry analyser utilise medical laboratories to process biological fluid specimens, such as urine, cerebrospinal fluid, and most commonly, blood. Manufactured by Boehringer Mannheim , the Hitachi 917 is a commonly used routine chemical bichromatic analyser.
First GUI application that supported metabolic control analysis and parameter estimation. C/C++: Yes: 1993 Jarnac [70] First GUI based application to support scripting in systems biology modeling. Object Pascal: Yes: 2000 JSim [71] First Java-based systems biology modeling platform: Java: Yes: 2003 MetaMod [72] One of the first PC-based systems ...
After the second world war, companies started to provide automated equipment with greater and greater complexity. Automation steadily spread in laboratories through the 20th century, but then a revolution took place: in the early 1980s, the first fully automated laboratory was opened by Dr. Masahide Sasaki.
Software for analysis of 16S rRNA gene amplicon sequence data Linux, macOS, Windows: GPL: University of Michigan: Nextflow: A workflow management system used for building and running scalable and reproducible bioinformatics pipelines, especially in cloud and high-performance computing environments. Linux, macOS, Windows: Apache License 2.0 ...
The partnerships sold hundreds of the 3700 analyzers to Celera, and also to others worldwide. [1] [17] The new machine cost US$300,000 each, but was a major leap beyond its predecessor, the 377, and was fully automated, allowing genetic decoding to run around the clock with little supervision.
Biochemical systems theory is a mathematical modelling framework for biochemical systems, based on ordinary differential equations (ODE), in which biochemical processes are represented using power-law expansions in the variables of the system.