Machine learning assisted discovery of synergistic interactions between environmental pesticides, phthalates, phenols, and trace elements in child neurodevelopment

Midya, Vishal; Alcala, Cecilia Sara; Rechtman, Elza; Hertz‐Picciotto, Irva; Gennings, Chris; Rosa, Maria José; Valvi, Damaskini

doi:10.1101/2023.02.02.23285222

Cited by 3 publications

(4 citation statements)

References 87 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We excluded product or projection-based algorithms that do not directly represent the collective activity of the chemical exposures. Note that improved variations of the SiRF algorithm using a repeated hold-out stage (Midya et al (2023a) and Midya et al (2023b)) exist in the literature. But we simply focus on the original SiRF algorithm (Basu et al (2018)) without any repeated hold-out.…”

Section: Friedman's H-statisticmentioning

confidence: 99%

Detecting Shape-based Interactions among Environmental Chemicals using an Ensemble of Exposure-Mixture Regression and Interpretable Machine Learning Tools

Midya

Gennings

2023

Preprint

Self Cite

View full text Add to dashboard Cite

There is growing interest in discovering interactions between multiple environmental chemicals associated with increased adverse health effects. However, most existing approaches (1) either use a projection or product of multiple chemical exposures, which are difficult to interpret, and (2) can not simultaneously handle multi-ordered interactions. Therefore, we develop and validate a method to discover shape-based interactions that mimic usual toxicological interactions. We developed the "Multi-ordered explanatory interaction" (Moxie) algorithm by merging the efficacy of Extreme Gradient Boosting with the inferential power of Weighted Quantile Sum regression to extract synergistic interactions associated with the outcome/odds of disease in an adverse direction. We evaluated the algorithm's performance through simulations and compared it with the currently available gold standard, the signed-iterative random forest algorithm. We used the 2017–18 US-NHANES dataset (n=447 adults) to evaluate interactions among nine per-and poly-fluoroalkyl substances and five metals measured in whole-blood in association with serum low-density lipoprotein cholesterol. In simulations, the Moxie algorithm was highly specific and sensitive and had very low false discovery rates in detecting true synergistic interactions of 2nd, 3rd, and 4th order through moderate (n=250) to large (n=1000) sample sizes. In NHANES data, we found a two-order synergistic interaction between cadmium and lead detected in people with whole-blood cadmium concentrations and lead above 0.605 ug/dL and 1.485 ug/dL, respectively. Our findings demonstrate a novel validated approach in environmental epidemiology for detecting shape-based toxicologically mimicking interactions by integrating exposure-mixture regression and machine learning methods.

show abstract

Section: Friedman's H-statisticmentioning

confidence: 99%

Detecting Shape-based Interactions among Environmental Chemicals using an Ensemble of Exposure-Mixture Regression and Interpretable Machine Learning Tools

Midya

Gennings

2023

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…23−25 Tree-based machine learning models can provide a natural and computationally efficient solution to such construction. 20 Even with a substantial number of taxa, these models can create multiple threshold-based combinations of taxa predictive of the outcome of interest. Still, the challenge remains in interpretability since most machine learning models are generally black-box, creating a tension between prediction quality and meaningful interpretability.…”

Section: ■ Introductionmentioning

confidence: 99%

Prenatal Lead Exposure Is Associated with Reduced Abundance of Beneficial Gut Microbial Cliques in Late Childhood: An Investigation Using Microbial Co-Occurrence Analysis (MiCA)

Midya,

Lane,

Gennings

et al. 2023

Environ. Sci. Technol.

Self Cite

View full text Add to dashboard Cite

Many analytical methods used in gut microbiome research focus on either single bacterial taxa or the whole microbiome, ignoring multibacteria relationships (microbial cliques). We present a novel analytical approach to identify microbial cliques within the gut microbiome of children at 9−11 years associated with prenatal lead (Pb) exposure. Data came from a subset of participants (n = 123) in the Programming Research in Obesity, Growth, Environment and Social Stressors cohort. Pb concentrations were measured in maternal whole blood from the second and third trimesters of pregnancy. Stool samples collected at 9−11 years old underwent metagenomic sequencing to assess the gut microbiome. Using a novel analytical approach, Microbial Co-occurrence Analysis (MiCA), we paired a machine learning algorithm with randomization-based inference to first identify microbial cliques that were predictive of prenatal Pb exposure and then estimate the association between prenatal Pb exposure and microbial clique abundance. With second-trimester Pb exposure, we identified a two-taxa microbial clique that included Bif idobacterium adolescentis and Ruminococcus callidus and a three-taxa clique that also included Prevotella clara. Increasing second-trimester Pb exposure was associated with significantly increased odds of having the two-taxa microbial clique below the median relative abundance (odds ratio (OR) = 1.03, 95% confidence interval (CI) [1.01−1.05]). Using a novel combination of machine learning and causal inference, MiCA identified a significant association between second-trimester Pb exposure and the reduced abundance of a probiotic microbial clique within the gut microbiome in late childhood.

show abstract

“…However, finding microbial clique associated with an outcome of interest is challenging because of (1) considerable computational complexity as the number of taxa increases and (2) limitations of sample size in most human microbiome studies. Multiple methods exist where multi-ordered microbial cliques can be pre-specified or hard-coded in the models; however, such strategies might ignore many plausible and informative combinations and could be underpowered due to restrictions on sample size (Gibson 2021;Joubert et al 2022;Vishal Midya et al 2023). On the other hand, microbial cliques can be potentially discovered using projection-based dimensionality reduction techniques.…”

Section: Introductionmentioning

confidence: 99%

“…Such threshold-based construction carries considerable similarity with toxicological threshold-based interactions (Gennings et al 1997;Hamm et al 2005;Yeatts et al 2010). Tree-based machine-learning models can provide a natural and computationally efficient solution to such construction (Vishal Midya et al 2023). Even with a substantial number of taxa, these models can create multiple threshold-based combinations of taxa predictive of the outcome of interest.…”

Section: Introductionmentioning

confidence: 99%

Prenatal Pb exposure is associated with reduced abundance of beneficial gut microbial cliques in late childhood: an investigation using Microbial Co-occurrence Analysis (MiCA)

Midya

Lane

Gennings

et al. 2023

Preprint

Self Cite

View full text Add to dashboard Cite

Background: Many analytical methods used in gut microbiome research focus on either single bacterial taxa or the whole microbiome, ignoring multi-bacteria relationships (microbial cliques). We present a novel analytical approach to identify multiple bacterial taxa within the gut microbiome of children at 9-11 years associated with prenatal Pb exposure. Methods: Data came from a subset of participants (n=123) in the Programming Research in Obesity, Growth, Environment and Social Stressors (PROGRESS) cohort. Pb concentrations were measured in maternal whole blood from the second and third trimesters of pregnancy. Stool samples collected at 9-11 years old underwent metagenomic sequencing to assess the gut microbiome. Using a novel analytical approach, Microbial Co-occurrence Analysis (MiCA), we paired a machine-learning algorithm with randomization-based inference to first identify microbial cliques that were predictive of prenatal Pb exposure and thsen estimate the association between prenatal Pb exposure and microbial clique abundance. Results: With second-trimester Pb exposure, we identified a 2-taxa microbial clique that included Bifidobacterium adolescentis and Ruminococcus callidus, and a 3-taxa clique that added Prevotella clara. Increasing second-trimester Pb exposure was associated with significantly increased odds of having the 2-taxa microbial clique below the 50th percentile relative abundance (OR=1.03,95%CI[1.01-1.05]). In an analysis of Pb concentration at or above vs. below the United States and Mexico guidelines for child Pb exposure, odds of the 2-taxa clique in low abundance were 3.36(95%CI[1.32-8.51]) and 6.11(95%CI[1.87-19.93]), respectively. Trends were similar with the 3-taxa clique but not statistically significant. Discussion: Using a novel combination of machine-learning and causal-inference, MiCA identified a significant association between second-trimester Pb exposure and reduced abundance of a probiotic microbial clique within the gut microbiome in late childhood. Pb exposure levels at the guidelines for child Pb poisoning in the United States, and Mexico are not sufficient to protect against the potential loss of probiotic benefits.

show abstract

Machine learning assisted discovery of synergistic interactions between environmental pesticides, phthalates, phenols, and trace elements in child neurodevelopment

Cited by 3 publications

References 87 publications

Detecting Shape-based Interactions among Environmental Chemicals using an Ensemble of Exposure-Mixture Regression and Interpretable Machine Learning Tools

Detecting Shape-based Interactions among Environmental Chemicals using an Ensemble of Exposure-Mixture Regression and Interpretable Machine Learning Tools

Prenatal Lead Exposure Is Associated with Reduced Abundance of Beneficial Gut Microbial Cliques in Late Childhood: An Investigation Using Microbial Co-Occurrence Analysis (MiCA)

Prenatal Pb exposure is associated with reduced abundance of beneficial gut microbial cliques in late childhood: an investigation using Microbial Co-occurrence Analysis (MiCA)

Contact Info

Product

Resources

About