Want to boost your experiment accuracy with expert measuring tips?
test

Fit for Purpose

Documentation that your instruments meet your requirements.

test

Risk-Based

Test and qualify your instruments only with necessary actions.

test

Metrologically Proven

Developed by measuring experts meeting current  best practices.

universal

Universal

Applicable to every make of instrument around the globe. 

Why do I need Good Measuring Practices?

If your results matter, Good Measuring Practices can help you produce accurate, high-quality results day in and day out. Our measuring expertise and scientific, transparent approach support you in choosing the instruments that are fit for your purpose and maintaining their accuracy over time.

Do Good Measuring Practices help me meet regulatory compliance requirements?

The GxP programs are developed on sound metrological principles and are based on current regulations and best practices. Experts from METTLER TOLEDO work with international and national committees to improve and develop new industry standards (e.g., ISO, USP, Ph.Eur., ASTM, OIML, EURAMET, ILAC, EURACHEM, and others).

The GxP programs help you document and prove that your instruments are fit for their intended use – as is required by every major quality standard and guideline such as ISO 9001, Good Laboratory Practice (GLP), Good Manufacturing Practice (GMP), Global Food Safety Initiative accepted standards (BRC, SQF, etc.), and others. Furthermore, the individual GxP programs help you meet instrument-specific standards, such as USP 41, Ph.Eur. 2.1.7, OIML R76-1, EURAMET cg-18, and ASTM E898 for weighing (GWP) or ISO 8655 for pipetting (GPP).

How does a risk assessment help define calibration frequency?

Maintaining, calibrating, and testing your equipment can be a cumbersome and costly activity. Good Measuring Practices define the scope and frequency of performance verification activities based on the risk of your application. If the risk is high, more frequent calibration and testing can help to mitigate the risk. On the other hand, if the risk is low, minimal activities suffice and frequencies can be reduced. The GxP programs help you do a straightforward risk assessment and propose a specific maintenance and calibration plan for your needs.

When is an instrument fit for purpose?

An instrument is fit for purpose if it meets the requirements of its intended use. From a metrological perspective, it is fit for purpose if the measurement uncertainty of the result is equal to or lower than the required measuring tolerance. In weighing, for example, the GWP calibration certificate compares the measured uncertainty with the user-specified weighing tolerance and thus documents fitness for purpose. A similar evaluation using estimated uncertainties is made before the purchase of a new instrument in the GWP Recommendation document. 

What are important criteria to consider before purchasing a new instrument?

Many criteria depend on the specific measurement technology, but some apply to instrument selection in general:

  • What is my intended use?
  • What accuracy do I need to achieve?
  • Do I need to meet regulatory compliance requirements?
  • What is the risk of my application?
  • Where is the instrument located? Will it be affected by the environment?
  • How do I want to store my results?
  • Do I need a test and calibration plan/SOP?
  • What training do my users need?

Such requirements are documented in a GxP Recommendation that helps you make the right instrument selection.

Do Good Measuring Practices provide guidance on instrument qualification?

Yes. Maintaining traceability and accuracy of measuring results is a key benefit of Good Measuring Practices. Depending on your industry, the regulatory requirements, and the type of measuring technology, it can be challenging to know what qualification is needed and what is not. The GxP programs provide clear recommendations on what qualification activities are meaningful, based on your risk and compliance requirements.

Do Good Measuring Practices apply only to laboratory instruments?

No. Although a majority of the GxP programs focus on lab measuring instruments in R&D, quality control, and quality assurance, the scientific principles also apply to industrial production and packaging. GWP, for example, Good Weighing Practice, applies to any weighing device ranging from a microbalance to a tank scale of several tons.

Научный подход к взвешиванию

Научный подход к взвешиванию в фармацевтической промышленности

Узнайте, как обеспечить научный подход к взвешиванию в фармацевтической промышленности с помощью ста...

Basics of Good Moisture Analysis – GMAP White Paper

Best Practice for Reliable Moisture Analysis

Our white paper presents a risk-based approach to help you select the right moisture analysis equipm...

Определение точности пипетки

Определение точности пипетки

В данном информационном документе представлен риск-ориентированный подход к подтверждению рабочих ха...

Руководство по базовым навыкам работы в лаборатории

Руководство по базовым навыкам работы в лаборатории

Руководство по базовым навыкам работы в лаборатории поможет выявить и устранить вероятные источники...

Weighing the Right Way with Laboratory Balances

Weighing the Right Way with Laboratory Balances

This guide will help you understand the main factors affecting weighing accuracy and how to achieve...

Guide to Moisture Analysis

Guide to Moisture Analysis

This guide provides insight into the key points that will help you obtain the best results when work...

Руководство Rainin по дозированию

Руководство Rainin по дозированию

В руководстве Rainin по дозированию содержится информация о различных пипетках и наконечниках, а так...

How to Comply with the ISO 8655 Revisions for Pipettes

Learn How to Comply with the ISO 8655 Revisions for Pipettes

The 2022 revisions to ISO 8655 included significant changes for pipettes. This guide explains the up...

Краткое руководство по измерению рН

Краткое руководство по измерению рН

Прочтите краткое руководство по измерению pH и узнайте, как с самого начала избежать ошибок при пров...

Titration Theory

Руководство «Титрование от А до Я в теории и на практике»

Руководство «Титрование от А до Я в теории и на практике» предназначено для ознакомления с теорией и...

Руководство по спектрофотометрии в УФ- и видимом диапазоне: основы и применение

Руководство по спектрофотометрии в УФ- и видимом диапазоне: основы и применение

Руководство по спектрофотометрии в УФ- и видимом диапазоне, разработанное МЕТТЛЕР ТОЛЕДО, содержит т...

Руководство по термическому анализу

Руководство по термическому анализу

Вы узнаете, как легко проводить обслуживание и как с помощью простых и удобных инструментов добиться...

Руководство по измерению показателя преломления

Руководство по измерению показателя преломления

Скачайте бесплатно руководство, чтобы узнать, как избежать ошибок при измерении показателя преломлен...

термические характеристики

Изучение термических характеристик

В этом руководстве описаны разработки МЕТТЛЕР ТОЛЕДО в области определения точки плавления, температ...

Калибровка МЕТТЛЕР ТОЛЕДО

Calibration, Verification and Certification

Получите ценную информацию от мировых экспертов в области измерительных технологий. Узнайте, как усл...

Лабораторные приборы

Лабораторные приборы

Достигайте своих лабораторных целей с помощью нашего широкого ассортимента лабораторных инструментов...

Laboratory Software Solutions

Laboratory Software

Lab software solutions enhance your lab instruments' performance with electronic data management, ce...

Lab Automation

Lab Automation

Our portfolio of lab automation systems and automated instruments can support streamlining your lab...

Lab Consumables

Lab Consumables

High-grade lab consumables for equipment and instruments used in scientific testing, analysis, R&D,...

Lab Accessories

Lab Accessories

High-quality accessories for your laboratory equipment can enhance analysis procedures and help you...