P. De Bièvre: Editorial/Introduction to this volume.- F.T. Peters, H.H. Maurer: Bioanalytical method validation and its implications for forensic and clinical toxicology – A review.- I. Kuselman, B. Anisimov, A. Shenhar, A. Lepek: Validation of a computer program for atomic absorption analysis.- G.A. Ross: Instrumental validation in capillary electrophoresis and checkpoints for method validation.- L. Huber, H. Wiederoder: Qualification and validation of software and computer systems in laboratories. Part 1.- M. Buzoianu, H.Y. Aboul-Enein: Clinical reference materials for the validation of the performance of photometric systems used for clinical analyses.- St. L.R. Ellison, A. Williams: Measurement uncertainty and its implications for collaborative study method validation and method performance parameters.- L. Huber: Qualification and validation of software and computer systems in laboratories, Part 2.- L. Huber: Qualification and validation of software and computer systems in laboratories, Part 3.- L. Huber: Qualification and validation of software and computer systems in laboratories, Part 4.- S. Seno, S. Ohtake, H. Kohno: Analytical validation in practice at a quality control laboratory in the Japanese pharmaceutical industry.- R. Bettencourt, da Silva et al.: Validation of the uncertainty evaluation for the determination of metals in solid samples by atomic spectrometry.- R.J. Wells: Validation requirements for chemical methods in quantitative analysis, horses for courses?.- R.J. Wells: Validation requirements for chemical methods in quantitative analysis, horses for courses?.- Stefan, Aboul-Enein: Validation criteria for developing ion selective membrane electrode for analysis of pharmaceuticals.- S. Küppers: Is the estimation of measurement uncertainty a viable alternative to validation?.- R.C. Diaz et al.: Validation of an HPLC method for the determination of p-dichlorobenzene and naphthalene in mothrepellents.- V.J. Barwick et al.: The evaluationof measurement uncertainty from method validation studies, Part 1.- V.J. Barwick et al: The evaluation of measurement uncertainty from method validation studies, Part 2.- S. Linko: Automated ion selective measurement of lithium in serum. A practical approach to result-level verification in a two-way method validation.- P. Woitke et al.: Determination of Hydrocarbons in Water – Interlaboratory Method Validation prior routine monitoring.- G. Anand Kumar, G. Swarnabala et al.: Interlaboratory quality audit program for potable water – Assessment of method validation done on ICP-OES.- N. Majcen: A need for clearer terminology and guidance in the role of reference materials in method development and validation.- E. Ramoskiene et al.: Validation of salt spray corrosion test.- M. Lauwaars, E. Anklam: Method validation and reference materials.- B. Hibbert: Method validation of modern analytical techniques.- M. Holmgren: Validation of test methods – General principles and concepts.- A. Gillespie: Marketing valid analytical measurement.- R. Kadis: Analytical procedure in terms of measurement (quality) assurance.- A. Leclerq: Flexibilisation of the scope of accreditation: an important asset for food and water microbiology laboratories.- H. Hey: Legal requirements on validation of test methods for official control of foodstuffs, veterinary drug residues and element contaminants in the EC.- M. Lauwaars: Methods validation – AOAC’s three validation systems.- M. Holmgren: Observing validation, uncertainty determination and traceability in developing Nordtest test methods.
Validation in Chemical Measurement / Edition 1by Paul De Bi?vre, Helmut G?nzler
Pub. Date: 11/05/2010
Publisher: Springer Berlin Heidelberg
The validation of analytical methods is based on the characterisation of a measurement procedure (selectivity, sensitivity, repeatability, reproducibility). This volume collects 31 outstanding papers on the topic, mostly published in the period 2000-2003 in the journal "Accreditation and Quality Assurance". They provide the latest understanding, and possibly the
The validation of analytical methods is based on the characterisation of a measurement procedure (selectivity, sensitivity, repeatability, reproducibility). This volume collects 31 outstanding papers on the topic, mostly published in the period 2000-2003 in the journal "Accreditation and Quality Assurance". They provide the latest understanding, and possibly the rationale why it is important to integrate the concept of validation into the standard procedures of every analytical laboratory. In addition, this anthology considers the benefits to both: the analytical laboratory and the user of the measurement results.
- Springer Berlin Heidelberg
- Publication date:
- Edition description:
- Softcover reprint of hardcover 1st ed. 2005
- Product dimensions:
- 0.38(w) x 8.25(h) x 11.00(d)
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