This article highlights some of the specific recommendations from the dMIQE guidelines that can help support high-quality digital PCR (dPCR) experiments:
Digital PCR has emerged as a powerful technique for quantifying nucleic acids with high precision and sensitivity. In 2020, a significant update to the Minimum Information for Publication of Quantitative Digital PCR Experiments (dMIQE) guidelines was published in the journal Clinical Chemistry to ensure the credibility and reproducibility of dPCR experiments. What do these guidelines mean and how do they help you achieve more reproducible results?
The 2020 dMIQE guidelines build upon the previous versions and are designed to provide a comprehensive framework for conducting high-quality dPCR experiments. The main goal of these guidelines is to enhance the transparency and accuracy of dPCR data reporting, enabling researchers to evaluate and reproduce results across different laboratories.
The updated guidelines cover crucial aspects of dPCR experiments, such as assay design, sample handling, instrument calibration, data analysis, and quality control. By following these guidelines, researchers can optimize the setup and execution of their experiments and work to minimize potential sources of variability and bias.
Key recommendations in the 2020 dMIQE guidelines include a wide range of topics to help ensure proper assay and probe selection for optimal sensitivity and specificity, handling and preparation recommendations to help minimize contamination and degradation, and recommendations around proper instrument calibration and validation, all with the goal of supporting precise and accurate measurements.
The Poisson distribution model assumes that target molecules are randomly and independently distributed among the microreaction. Poisson distribution becomes a valid approximation of the true distribution of target molecules with the more microreactions per sample that occur (The dMIQE Group, 2020). In this context the "Law of Large Numbers" comes into play, which states that as the number of reactions increases, the observed frequencies (number of positive microchambers with the target) converge to the true probabilities (probability of a reaction containing a target molecule). Having a large number of reactions allows researchers to achieve the following benefits:
IMPORTANT: Having more microreactions helps bring you “closer to the truth” by helping to minimize the impact of uncertainty.
Furthermore, a figure from the dMIQE guidelines (Figure 1) provides a fascinating insight. Based on modeling the 95% confidence limit of λ, they see drastic improvement of the relative uncertainty experiences at the 10K microreaction point. Beyond this point, while the enhancements in relative uncertainty are still evident, a more gradual trend is seen. Understanding this transition can help researchers optimize their dPCR experiments based on the dynamic range needs for their work.
Read our tech note about increasing the number of microreactions per sample by leveraging digital pooling on the QuantStudio Absolute Q dPCR System.
The requirement for dPCR instruments to provide equal volume in each microreaction is critical for ensuring the accuracy and precision of dPCR quantification (The dMIQE Group, 2020). Maintaining equal volume in microreactions is essential for several reasons:
The requirement for dPCR instruments to provide clear discrimination between positive and negative microreactions is critical for accurate target quantification and reliable data interpretation (The dMIQE Group, 2020). Clear discrimination between positive and negative microreactions is essential for several reasons:
Our QuantStudio Absolute Q dPCR System meets the requirements as set by the dMIQE guidelines and can help improve your dPCR workflow and analysis.
The dMIQE Group. (2020). The digital MIQE guidelines update: Minimum information for publication of quantitative digital PCR experiments for 2020. Clinical Chemistry, 66(8), 1012-1029. https://academic.oup.com/clinchem/article/66/8/1012/5880117
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