Your search keyword '"Broeders, Sylvia"' showing total 3 results

1. Alternative Sample-Homogeneity Test for Quantitative and Qualitative Proficiency Testing Schemes

Author

Coucke, Wim, Tanasković, Jelena Vlašić, Bouacida, Lobna, Broeders, Sylvia, China, Bernard, Demarteau, Marianne, Ghislain, Vanessa, Lenga, Yolande, Van Blerk, Marjan, Vandevelde, Nathalie, Verbeke, Hannelien, Wathlet, Sandra, and Soumali, Mohamed Rida

Abstract

Proficiency Testing (PT) External Quality Assessment (EQA) schemes are designed to ascertain the ability of individual laboratories to perform satisfactorily with respect to their peer laboratories or to limits imposed by external sources. Observed deviation of a laboratory result for a PT sample must be entirely attributed to the laboratory and not to the PT provider. To minimize the probability that deviations could be attributed to the PT provider, sample homogeneity should be assured. It is generally required that for quantitative parameters, the standard deviation among PT units should be calculated on the basis of duplicate measurements of at least 10 samples chosen at random, and the standard deviation among PT units should not exceed 0.3 times the standard deviation used to evaluate laboratories. Because this approach has important drawbacks, an alternative procedure is proposed by applying the theory of acceptance sampling to the assessment of sample heterogeneity for both quantitative and qualitative data and deriving acceptance limits on the basis of minimizing the probability of falsely evaluating laboratories. For obtaining acceptance limits for quantitative parameters, a distinction is made between laboratory evaluation using fixed limits on the one hand and laboratory evaluation using limits that are based on the variability of the reported results on the other hand. Sequential tests are proposed to evaluate sample heterogeneity by means of a comparison with the χ2distribution. For qualitative parameters, acceptance-sampling plans are proposed that are based on minimizing the joint probability of rejecting batches that have a satisfactory amount of defective samples and accepting batches unnecessarily. The approach for quantitative parameters is applied on samples for a PT scheme of ethanol quantification and for qualitative parameters on the presence of monoblasts in a blood smear. It was found that five samples could already be enough to prove that the batch was homogeneous for quantitative parameters, although more than 20 samples were needed to prove homogeneity for qualitative parameters. This study describes a direct relation among the objective of an PT round, the criteria for evaluating the results, and the sample heterogeneity. When samples are effectively homogeneous, less measurements are needed than current practices require. A drawback of the proposed approach is that the number of samples to be tested is not known beforehand, and good knowledge of the analytical variability is crucial. The formulas to be applied are relatively simple. Despite the drawbacks, the proposed approach is generally applicable for both quantitative and qualitative data.

Published

2019

2. Current laboratory and clinical practices in reporting and interpreting anti-nuclear antibody indirect immunofluorescence (ANA IIF) patterns: results of an international survey

Author

Van Hoovels, Lieve, Broeders, Sylvia, Chan, Edward K. L., Andrade, Luis, de Melo Cruvinel, Wilson, Damoiseaux, Jan, Viander, Markku, Herold, Manfred, Coucke, Wim, Heijnen, Ingmar, Bogdanos, Dimitrios, Calvo-Alén, Jaime, Eriksson, Catharina, Kozmar, Ana, Kuhi, Liisa, Bonroy, Carolien, Lauwerys, Bernard, Schouwers, Sofie, Lutteri, Laurence, Vercammen, Martine, Mayer, Miroslav, Patel, Dina, Egner, William, Puolakka, Kari, Tesija-Kuna, Andrea, Shoenfeld, Yehuda, de Sousa, Maria José Rego, Hoyos, Marcos Lopez, Radice, Antonella, and Bossuyt, Xavier

Abstract

Background: The International Consensus on Antinuclear Antibody (ANA) Patterns (ICAP) has recently proposed nomenclature in order to harmonize ANA indirect immunofluorescence (IIF) pattern reporting. ICAP distinguishes competent-level from expert-level patterns. A survey was organized to evaluate reporting, familiarity, and considered clinical value of ANA IIF patterns. Methods: Two surveys were distributed by European Autoimmunity Standardization Initiative (EASI) working groups, the International Consensus on ANA Patterns (ICAP) and UK NEQAS to laboratory professionals and clinicians. Results: 438 laboratory professionals and 248 clinicians from 67 countries responded. Except for dense fine speckled (DFS), the nuclear competent patterns were reported by?>?85% of the laboratories. Except for rods and rings, the cytoplasmic competent patterns were reported by?>?72% of laboratories. Conclusion: This survey confirms that the major nuclear and cytoplasmic ANA IIF patterns are considered clinically important. There is no unanimity on classifying DFS, rods and rings and polar/Golgi-like as a competent pattern and on reporting cytoplasmic patterns as ANA IIF positive.

Published

2020

3. How to Deal with the Upcoming Challenges in GMO Detection in Food and Feed

Author

R. M. Broeders, Sylvia, C. J. De Keersmaecker, Sigrid, and H. C. Roosens, Nancy

Abstract

Biotech crops are the fastest adopted crop technology in the history of modern agriculture. The commercialisation of GMO is in many countries strictly regulated laying down the need for traceability and labelling. To comply with these legislations, detection methods are needed. To date, GM events have been developed by the introduction of a transgenic insert (i.e., promoter, coding sequence, terminator) into the plant genome and real-time PCR is the detection method of choice. However, new types of genetic elements will be used to construct new GMO and new crops will be transformed. Additionally, the presence of unauthorised GMO in food and feed samples might increase in the near future. To enable enforcement laboratories to continue detecting all GM events and to obtain an idea of the possible presence of unauthorised GMO in a food and feed sample, an intensive screening will become necessary. A pragmatic, cost-effective, and time-saving approach is presented here together with an overview of the evolution of the GMO and the upcoming needs.

Published

2012