Seasonal Behavior and Forecasting Trends of Tuberculosis Incidence in Holy Kerbala, Iraq

[mhc_section admin_label=”section”][mhc_row admin_label=”row”][mhc_column type=”4_4″][mhc_text admin_label=”نص” background_layout=”light” text_orientation=”left”]

Seasonal Behavior and Forecasting Trends of Tuberculosis
Incidence in Holy Kerbala, Iraq

Abstract

Background: Pulmonary tuberculosis (PTB) remains major public health problem over the world. Cities witnessing religious event throughout
of the year like Kerbala/Iraq require great efforts to minimize the incidence of deadly communicable diseases like TB. The aim of this study is
to model the monthly incidence rates of PTB cases in Kerbala/Iraq. Methods: This is a retrospective study in which records of confirmed PTB
patients whom they referred to the chest and respiratory illnesses center of Holy Kerbala governorate were obtained. Monthly registered new
smear‑positive PTB cases from January 2010 to December 2016 were analyzed. Seasonal autoregressive integrated moving average (SARIMA),
SARIMA‑exponential smoothing method (ETS), SARIMA‑neural network autoregressive, and SARIMA‑adaptive neuro‑fuzzy inference
system (SARIMA‑ANFIS) were used for forecasting monthly incidence rate of TB in Kerbala, Iraq. Mean absolute percentage error, root
mean square error, and mean absolute square error were used to compare the models, and Akaike information criterion (AIC) and Bayesian
information criterion (BIC) were used to selected best model. Results: The trend of PTB incidence showed a seasonal characteristic, with peaks
in spring and winter. Predicted estimates using all models proposed to forecast the number of PTB cases from 2016 to 2018 showed that the PTB
cases indicated marginal decrease trends and best forecasted in SARIMA‑ANFIS model (the lower AIC and BIC values, 712.69 and 731.05,
respectively). Conclusion: Seasonal characteristic of PTB incidence was observed with peaks during spring and winter. Forecasting of PTB
incidence between the period 2016 and 2018 showed marginal decrease trends, and the best forecasting model was SARIMA‑ANFIS model.
Keywords: Forecasting incidence, pulmonary tuberculosis, seasonality

[/mhc_text][mhc_button admin_label=”زر” url_new_window=”off” button_style=”off” button_color=”#474747″ button_text_color=”#ffffff” background_layout=”dark” use_icon=”off” font_list=”mhicons” text_orientation=”right” animation=”off” button_fx=”off” button_size=”default” button_font=”off” wide_button=”off” button_url=”https://drive.google.com/file/d/1MS3Bu6K6_EBoYxdx8rs7FgpEhyEflLUz/view?usp=sharing” button_text=”Read More”] [/mhc_button][/mhc_column][/mhc_row][/mhc_section]