1. Survey results on nucleic acid tests of infectious diseases : present status and need for rapid and near-patient diagnosticsJörg Neukammer, Martin Hussels, Andreas Kummrow, Alison S. Devonshire, Carole A. Foy, Jim F. Huggett, Helen C. Parkes, Jana Žel, Mojca Milavec, Heinz Schimmel, Wolfgang Unger, Müslüm Akgöz, Timothy D. McHugh, Viktorija Tomič, Hans-Peter Grunert, Heinz Zeichhardt, 2015, izvirni znanstveni članek Povzetek: This survey discusses current and emerging isothermal and rapid polymerase chain reaction (PCR) based nucleic acid amplification methods for near-patient diagnostics.
To assess the clinical need of rapid diagnostics for infectious diseases based on nucleic acid tests (NATs) we performed and analysed a questionnaire among laboratories participating in corresponding INSTAND ring trials for external quality assurance. The questions concerning new amplification technologies like isothermal nucleic acid amplification, potentially suited to significantly decrease turnaround times, were complemented by questions to evaluate the present status of NATs. Besides end-users, companies were also addressed by sending out a manufacturer specific questionnaire.
Analysis of the answers from 48 laboratories in 14 European countries revealed that a much shorter turnaround time is requested for selected pathogens compared to about 2 h or longer when applying temperature cycling amplification, i.e. PCR. In this context, most frequently mentioned were methicillin-resistant Staphylococcus aureus (MRSA), norovirus, influenza A and B viruses, cytomegalovirus (CMV) as well as hepatitis B virus (HBV) and hepatitis C virus (HCV). At present, 8% of the laboratories having participated in this survey apply isothermal amplification of nucleic acids to identify infectious pathogens.
Ključne besede: nucleic acid tests, infectious diseases, virus detection, bacteria detection, isothermal nucleic acid amplification, status report, questionnaire, NAT, PCR
Objavljeno v DiRROS: 26.07.2024; Ogledov: 103; Prenosov: 261
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2. quantGenius : implementation of a decision support system for qPCR-based gene quantificationŠpela Baebler, Miha Svalina, Marko Petek, Katja Stare, Ana Rotter, Maruša Pompe Novak, Kristina Gruden, 2017, izvirni znanstveni članek Povzetek: Background
Quantitative molecular biology remains a challenge for researchers due to inconsistent approaches for control of errors in the final results. Due to several factors that can influence the final result, quantitative analysis and interpretation of qPCR data are still not trivial. Together with the development of high-throughput qPCR platforms, there is a need for a tool allowing for robust, reliable and fast nucleic acid quantification.
Results
We have developed “quantGenius” (http://quantgenius.nib.si), an open-access web application for a reliable qPCR-based quantification of nucleic acids. The quantGenius workflow interactively guides the user through data import, quality control (QC) and calculation steps. The input is machine- and chemistry–independent. Quantification is performed using the standard curve approach, with normalization to one or several reference genes. The special feature of the application is the implementation of user-guided QC-based decision support system, based on qPCR standards, that takes into account pipetting errors, assay amplification efficiencies, limits of detection and quantification of the assays as well as the control of PCR inhibition in individual samples. The intermediate calculations and final results are exportable in a data matrix suitable for further statistical analysis or visualization. We additionally compare the most important features of quantGenius with similar advanced software tools and illustrate the importance of proper QC system in the analysis of qPCR data in two use cases.
Conclusions
To our knowledge, quantGenius is the only qPCR data analysis tool that integrates QC-based decision support and will help scientists to obtain reliable results which are the basis for biologically meaningful data interpretation.
Ključne besede: quantitative molecular biology, quantitative PCR, nucleic acid quantification, web application, decision support system
Objavljeno v DiRROS: 24.07.2024; Ogledov: 98; Prenosov: 105
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3. Evaluation of DNA extraction methods for reliable quantification of Acinetobacter baumannii, Klebsiella pneumoniae, and Pseudomonas aeruginosaAlexandra Bogožalec Košir, Dane Lužnik, Viktorija Tomič, Mojca Milavec, 2023, izvirni znanstveni članek Povzetek: Detection and quantification of DNA biomarkers relies heavily on the yield and quality of DNA obtained by extraction from different matrices. Although a large number of studies have compared the yields of different extraction methods, the repeatability and intermediate precision of these methods have been largely overlooked. In the present study, five extraction methods were evaluated, using digital PCR, to determine their efficiency in extracting DNA from three different Gram-negative bacteria in sputum samples. The performance of two automated methods (GXT NA and QuickPick genomic DNA extraction kit, using Arrow and KingFisher Duo automated systems, respectively), two manual kit-based methods (QIAamp DNA mini kit; DNeasy UltraClean microbial kit), and one manual non-kit method (CTAB), was assessed. While GXT NA extraction kit and the CTAB method have the highest DNA yield, they did not meet the strict criteria for repeatability, intermediate precision, and measurement uncertainty for all three studied bacteria. However, due to limited clinical samples, a compromise is necessary, and the GXT NA extraction kit was found to be the method of choice. The study also showed that dPCR allowed for accurate determination of extraction method repeatability, which can help standardize molecular diagnostic approaches. Additionally, the determination of absolute copy numbers facilitated the calculation of measurement uncertainty, which was found to be influenced by the DNA extraction method used.
Ključne besede: nucleic acid, dPCR, DNA extraction methods, Gram-negative bacteria
Objavljeno v DiRROS: 12.07.2024; Ogledov: 112; Prenosov: 130
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