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A collaborative study on the precision of the Markov chain Monte Carlo algorithms used for DNA profile interpretation.

Sarah RimanJo-Anne BrightKaitlin HuffmanLilliana I MorenoSicen LiuAsmitha SathyaPeter M Vallone
Published in: Forensic science international. Genetics (2024)
Several fully continuous probabilistic genotyping software (PGS) use Markov chain Monte Carlo algorithms (MCMC) to assign weights to different proposed genotype combinations at a locus. Replicate interpretations of the same profile in these software are expected not to produce identical weights and likelihood ratio (LR) values due to the Monte Carlo aspect. This paper reports a detailed precision study under reproducibility conditions conducted as a collaborative exercise across the National Institute of Standards and Technology (NIST), Federal Bureau of Investigation (FBI), and Institute of Environmental Science and Research (ESR). Replicate interpretations generated across the three laboratories used the same input files, software version, and settings but different random number seed and different computers. This work demonstrates that using different computers to analyze replicate interpretations does not contribute to any variations in LR values. The study quantifies the magnitude of differences in the assigned LRs that is only due to run-to-run MCMC variability and addresses the potential explanations for the observed differences.
Keyphrases
  • monte carlo
  • machine learning
  • quality improvement
  • public health
  • physical activity
  • emergency department
  • risk assessment
  • genome wide
  • drug induced
  • electronic health record
  • genome wide association study