The effect of opting-in versus opting-out forming on the rate of reported variants of questionable significance in prenatal microarray.

OBJECTIVE: To examine the effect of patient-selected opt-in versus opt-out option on the rate of reported variants of uncertain clinical significance (VOUS) and high-frequency low-penetrant (HFLP) findings in prenatal microarray testing. METHODS: A standard microarray consent form in Israel includes a requirement to note patient choice to be or not to be informed about the presence of VOUS and HFLP variants. The original form was designed as an opting-out method, in which the women had to actively mark if they did not want to be informed about questionable findings. In the authors' Genetic Institute, the form was changed for an opting-in option in October 2019. In this study we have compared the rates of reported VOUS and HFLP variants between the opt-in and opt-out periods. RESULTS: Of the 1014 prenatal CMA tests, 590 (58.2%) were performed in the opt-out period. A significant decrease in the rate of women requesting to be informed of VOUS findings was noted (66.8% in opt-out period vs 34.0% in opt-in period), yielding a relative risk (RR) of 0.46 (95% confidence interval [CI] 0.39-0.53). Rate of women preferring to be informed of HFLP variants decreased from 75.3% to 48.1% (RR 0.52, 95% CI 0.45-0.60). DISCUSSION: We present a simple and effective method to decrease the rate of reported findings of questionable significance in the prenatal setting. These results are important not only for microarray results, but also for next-generation sequencing techniques, such as whole exome or genome sequencing.

Microbiome and infectious disease: diagnostics to therapeutics.

Over 300 years of research on the microbial world has revealed their importance in human health and disease. This review explores the impact and potential of microbial-based detection methods and therapeutic interventions, integrating research of early microbiologists, current findings, and future perspectives.

Inflammation and bacteriophages affect DNA inversion states and functionality of the gut microbiota.

Reversible genomic DNA inversions control the expression of numerous gut bacterial molecules, but how this impacts disease remains uncertain. By analyzing metagenomic samples from inflammatory bowel disease (IBD) cohorts, we identified multiple invertible regions where a particular orientation correlated with disease. These include the promoter of polysaccharide A (PSA) of Bacteroides fragilis, which induces regulatory T cells (Tregs) and ameliorates experimental colitis. The PSA promoter was mostly oriented "OFF" in IBD patients, which correlated with increased B. fragilis-associated bacteriophages. Similarly, in mice colonized with a healthy human microbiota and B. fragilis, induction of colitis caused a decline of PSA in the "ON" orientation that reversed as inflammation resolved. Monocolonization of mice with B. fragilis revealed that bacteriophage infection increased the frequency of PSA in the "OFF" orientation, causing reduced PSA expression and decreased Treg cells. Altogether, we reveal dynamic bacterial phase variations driven by bacteriophages and host inflammation, signifying bacterial functional plasticity during disease.