LIMS—See Laboratory Information

How do you evaluate various products for adoption The current environment is similar to the Laboratory information management systems (LIMS) market in the mid-1980s (see Laboratory Information Management Systems (LIMS)). ELNs are evolving toward the SEA paradigm rapidly since better software creation tools are rapidly becoming available. Do you experiment now, and start up the learning, adaptation curve Or do you wait till a stable environment exists That is a question you must decide. However, there are some simple tests you can apply to today s products. [Pg.864]

For the analytical chemist, databases are an essential resource when carrying out their day-to-day activities in product identification. All the major spectroscopic techniques have large databases associated with them, these are used to compare spectra derived from unknown chemicals etc. and so the whole process of product identification is made faster. These are dealt with using a laboratory information management system (LIMS) (see Section B, 2.9.1). [Pg.100]

Laboratory Information Management Systems (LIMS) are widely used in the laboratories of pharmaceuticals and related industries. LIMS is typically based on client server technology supported by a Relational Database Management System (RDBMS) as a storage repository (see Figure 21.1). They can be used to manage and process large amounts of electroiuc analysis data locally within a laboratory or company-wide between sites. [Pg.512]

The results are imported into the laboratory information management system (LIMS) as a text file. The LIMS system is programmed with the cutoff values (Table 2) for each drug and LIMS converts the quantitative results to qualitative reports (positive/negative) (see Note 5). The quantitative data is stored in LIMS for future reference. [Pg.36]

New data processing tools that can not only process the data from detection instruments, such as Laboratory Information Monitoring System (LIMS), but also connect that data with cony)uter dispersion models or landscape models, so we can begin to see residue movement in dimensions of space and time, not just as concentrations at a particular space and time. [Pg.24]

See also Biofluids Studied By NMR Calibration and Reference Systems (Regulatory Authorities) Computational Methods and Chemometrics in Near-IR Spectroscopy Fourier Transformation and Sampling Theory Laboratory Information Management Systems (LIMS). [Pg.277]

See also Atmospheric Pressure Ionization in Mass Spectrometry Biochemical Applications of Mass Spectrometry Chromatography-MS, Methods Laboratory Information Management Systems (LIMS) Nucleic Acids and Nucleotides Studied Using Mass Spectrometry Proteins Studied Using NMR Spectroscopy Time of Flight Mass Spectrometers. [Pg.600]

See also Labelling Studies in Biochemistry Using NMR Laboratory Information Management Systems (LIMS) Macromolecule-ligand Interactions Studied By NMR Magnetic Field Gradients in High Resolution... [Pg.730]

Modem scientific data handling is multitechnique, multisystem, and manufacturer-independent, with results being processed remotely from the measuring apparatus (see Chromatography Processing of Information Electronic Laboratory Notebooks Internet-based Computational Chemistry Tools Laboratory Information Management Systems (LIMS) and Spectroscopic Databases). A prerequisite for... [Pg.2692]

See also Food and Dairy Products, Applications of Atomic Spectroscopy Food Science, Applications of Mass Spectrometry Food Science, Applications of NMR Spectroscopy Laboratory Information Management Systems (LIMS) Pharmaceutical Applications of Atomic Spectroscopy. [Pg.172]

See also Fourier Transformation and Sampling Theory FT-Raman Spectroscopy, Applications Gas Phase Applications of NMR Spectroscopy High Resolution IR Spectroscopy (Gas Phase), Applications Hydrogen Bonding and Other Physicochemical Interactions Studied By IR and Raman Spectroscopy Laboratory Information Management Systems (LIMS) Laser Spectroscopy Theory Light Sources and Optics Vibrational, Rotational and Raman Spectroscopy, Historical Perspective. [Pg.794]

The LIMS computer is located on the site, and several terminals may be provided for entry of data from notebooks and instrument readouts and for the retrieval of information. Bar coding for sample tracking and access codes for laboratory personnel are part of the system. Instruments may be interfaced directly with the LIMS computer to allow direct data entry without help from the analyst. The LIMS may also incorporate statistical methods and procedures, including statistical control and control chart maintenance. See Workplace Scene 6.4. [Pg.167]