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.

Dysbiosis of microbiome and probiotic treatment in a genetic model of autism spectrum disorders.

Recent studies have determined that the microbiome has direct effects on behavior, and may be dysregulated in neurodevelopmental conditions. Considering that neurodevelopmental conditions, such as autism, have a strong genetic etiology, it is necessary to understand if genes associated with neurodevelopmental disorders, such as Shank3, can influence the gut microbiome, and if probiotics can be a therapeutic tool. In this study, we have identified dysregulation of several genera and species of bacteria in the gut and colon of both male and female Shank3 KO mice. L. reuteri, a species with decreased relative abundance in the Shank3 KO mice, positively correlated with the expression of gamma-Aminobutyric acid (GABA) receptor subunits in the brain. Treatment of Shank3 KO mice with L. reuteri induced an attenuation of unsocial behavior specifically in male Shank3 mice, and a decrease in repetitive behaviors in both male and female Shank3 KO mice. In addition, L. reuteri treatment affected GABA receptor gene expression and protein levels in multiple brain regions. This study identifies bacterial species that are sensitive to an autism-related mutation, and further suggests a therapeutic potential for probiotic treatment.