This document describes an approach for the validation of physico-chemical analytical methods for environmental solid matrices and water.

The guidance in this document addresses the initial description of the method and two different validation approaches, in increasing order of complexity. These are:

method development, if the method is developed by the laboratory, or conditions of adoption, if the method is a standardized protocol adopted by the laboratory;
validation at the level of single laboratories (within-laboratory validation);
method validation at the level of several laboratories (between-laboratory or inter-laboratory validation), with a focus on methods that are sufficiently mature and robust to be applied not only by a few expert laboratories but by laboratories operating at the routine level.

The concept is strictly hierarchical, i.e. a method shall fulfil all criteria of within-laboratory validation before it can enter the validation protocol of the between-laboratory.

This document is applicable to the validation of a broad range of quantitative physico-chemical test methods for the analysis of water (including drinking water, surface water, groundwater, waste water, marine water), and of solid environmental matrices, such as soil, sludge, liquid and solid waste, sediment and biota. It is intended for standardized protocols adopted by a laboratory, and either for test methods aiming at substances that have recently become of interest or for test methods applying recently developed technologies.

The minimal requirements that are indispensable for the characterization of the fitness for the intended purpose of an analytical method are: selectivity, precision, trueness, performances characteristics and measurement uncertainty. The aim of validation is to prove that these requirements are met.

In this document after the definitions (Clause 3) and description of the principles (Clause 4) a toolbox is given describing the relevant performance characteristics in the validation process.

Clause 7 and 8 focus on the within laboratory validation process (V1) and Clause 9 on the interlaboratory validation process (V2). Clause 7 and 8 describe largely the same processes, but differ in approach for establishing the LOQ.

Reporting of the results of the validation studies is addressed in Clause 10.

PDF Catalog

PDF Pages	PDF Title
2	National foreword
6	European foreword
7	Introduction
8	1 Scope 2 Normative references 3 Terms and definitions
15	4 Principle
16	5 Characterization toolbox: performance characteristics 5.1 Introduction 5.2 Characteristics 5.2.1 Selectivity
17	5.2.2 Sensitivity 5.2.3 Robustness 5.2.4 Trueness
19	5.2.5 Precision 5.2.6 Limit values
20	5.2.7 Calibration 5.2.8 Application range 5.2.9 Measurement uncertainty
21	6 Method development
22	7 Intra-laboratory validation (V1) – option 1, basic procedure 7.1 General 7.1.1 Validation 1 7.1.2 Adoption of a standardized method
23	7.1.3 Extension of the application domain of an intra-laboratory validated method 7.1.4 Complete in-house development 7.2 Intra-laboratory performance characteristics 7.2.1 General 7.2.2 Trueness
24	7.2.3 Precision
25	7.2.4 LOD, LOQ
26	7.2.5 Measurement uncertainty 8 Intra-laboratory validation (V1) – option 2, including verification of the LOQ 8.1 General 8.2 LOQ-V
27	9 Interlaboratory validation 2 (V2) 9.1 General
28	9.2 Procedure 9.2.1 Participating laboratories
29	9.2.2 Materials: selection, preparation and pre-testing of samples 9.2.3 Replicates
30	9.2.4 Characteristics of the inter-laboratory study 9.2.5 Assigned values 9.2.6 Statistical evaluation and calculation of the results
31	10 Validation report 10.1 General
32	10.2 Module A: Test method definition, documentation and general requirements 10.3 Module B: Applicability domain validation
33	10.4 Module C: Intra-laboratory performance 10.5 Inter-laboratory validation 10.5.1 General
34	10.5.2 Documentation, publication and standardization
35	Annex A (normative) Intra-laboratory validation
39	Annex B (normative) Module C: Intra-laboratory performance
40	Annex C (normative) Module D: Requirements on the study for inter-laboratory validation
43	Annex D (informative) Structure and content of a validation study documentation (V2)
47	Annex E (informative) Robustness testing by systematic variation of influencing factors
49	Annex F (informative) Protocol for spiking of solid matrices
50	Bibliography

Status	Under Review
Pages	52
Publication Date	2021-01-08
ISBN	978 0 539 12940 3
Standard Number	PD CEN/TS 16800:2020
Title	Guideline for the validation of physico-chemical analytical methods
Identical National Standard Of	CEN/TS 16800
Replaces	PD CEN/TS 16800:2015
Descriptors	Statistical methods of analysis, Chemistry, Sampling methods, Selection, Precision, Chemical analysis and testing, Quality control, Layout, Reports, Test equipment, Standardization, Test specimens, Chemical reagents, Reproducibility, Units of measurement, Technical writing, Terminology, Symbols, Laboratory equipment, Data layout, Quality assurance, Standards
Publisher	BSI
Committee	EH/4
ICS Codes	13.060.50 - Examination of water for chemical substances