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Association of indoor dust microbiota with cognitive function and behavior in preschool-aged children

Yinthe Dockx, Martin Täubel, Janneke Hogervorst, Leen J. Luyten, Martien Peusens, Leen Rasking, Hanne Sleurs, Katrien Witters, Michelle Plusquin, Maria Valkonen, Tim S. Nawrot, Lídia Casas

2023Microbiome29 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Childhood cognitive development depends on neuroimmune interactions. Immunomodulation by early-life microbial exposure may influence neuropsychological function. In this study, we investigate the association between residential indoor microbiota and cognition and behavior among preschoolers. RESULTS: Indoor-settled dust bacterial and fungal characteristics were assessed using 16S and ITS amplicon sequencing (microbial diversity) and qPCR measurements (microbial loads). Child behavior was assessed using four scales: peer relationship, emotional, conduct, and hyperactivity was assessed by the Strengths and Difficulties Questionnaire (SDQ). Cognitive function was assessed using four tasks of the Cambridge Neuropsychological Test Automated Battery (CANTAB) software. The first two tasks were designed to assess attention and psychomotor speed (Motor Screening (MOT) and Big/Little Circle (BLC)) and the last two to evaluate the child's visual recognition/working memory (Spatial Span (SSP) and Delayed Matching to Sample (DMS)). Among the 172 included children (age 4-6 years), we observed a 51% (95%CI;75%;9%) lower odds of children scoring not normal for hyperactivity and a decrease of 3.20% (95%CI, -6.01%; -0.30%) in BLC response time, for every IQR increase in fungal Shannon diversity. Contrarily, microbial loads were directly associated with SDQ scales and response time. For example, a 2-fold increase in Gram-positive bacterial load was associated with 70% (95%CI 18%; 156%) higher odds of scoring not normal for hyperactivity and an increase of 5.17% (95%CI 0.87%; 9.65%) in DMS response time. CONCLUSIONS: Our findings show that early-life exposure to diverse indoor fungal communities is associated with better behavioral and cognitive outcomes, whereas higher indoor microbial load was associated with worse outcomes. Video Abstract.

Topics & Concepts

CognitionStrengths and Difficulties QuestionnaireOdds ratioPsychomotor learningNeuropsychologyCambridge Neuropsychological Test Automated BatteryBiologyOddsPsychologyEcologySpatial memoryMedicineWorking memoryMental healthLogistic regressionPsychiatryInternal medicineIndoor Air Quality and Microbial ExposureGut microbiota and healthHealth, Environment, Cognitive Aging
Association of indoor dust microbiota with cognitive function and behavior in preschool-aged children | Litcius