Abstract
BACKGROUND: Hand, foot, and mouth disease (HFMD) is recognized as a climate-sensitive disease, yet the precise influence of meteorological factors on its incidence remains underexplored. This study leverages Causal Convolutional Neural Networks (Causal CNNs) to investigate the epidemiological characteristics of HFMD in Ningbo City, China, from 2014 to 2019, and to assess the predictive role of meteorological factors, offering novel insights for real-time surveillance and control. METHODS: Daily meteorological data and HFMD incidence data for Ningbo from 2014 to 2019 were obtained from the Chinese Center for Disease Control and Prevention. The Causal CNNs and the Granger causality test were applied for prediction and analysis. RESULTS: From 2014 to 2019, the average annual incidence of HFMD in Ningbo was 398.66 per 100,000. The disease showed notable seasonality and annual periodicity, with a bimodal distribution peaking in June-July and October-November each year. The daily mean temperature and relative humidity demonstrated similar annual cyclical variations to HFMD incidence, while daily mean pressure exhibited opposite trends. The Causal CNNs model indicated that daily mean temperature, relative humidity, pressure, and wind speed had better predictive effects with a lag of 19 days [the mean square errors (MSE) were 0.490, 0.333, 0.529, 0.325, respectively, and the mean absolute errors (MAE) were 0.491, 0.355, 0.531, 0.433, respectively]. The Granger causality test confirmed significant correlations between HFMD incidence and daily mean temperature, relative humidity, pressure, and wind speed (The F values were 5.660, 6.878, 4.330, 1.726, respectively, and all P < 0.05). CONCLUSION: Meteorological factors, particularly mean temperature, relative humidity, pressure, and wind speed, may significantly influence HFMD incidence in Ningbo. The Causal CNNs model provides relatively accurate predictions, supporting its potential for enhancing HFMD surveillance and informing targeted public health interventions.