Individual-based Modelling on Vector Heterogeneity of Leptospirosis Transmission in Sarawak

Leptospirosis is a zoonotic disease prevalent in various places, particularly the tropical and subtropical regions. The infectious disease is endemic across Malaysia, especially in Sarawak. In recent years, the threats of leptospirosis continue to grow as the number of confirmed cases in Sarawak has...

Full description

Saved in:
Bibliographic Details
Main Author: Jia Wen, Chong
Format: Thesis
Language:English
English
Published: 2023
Subjects:
Online Access:http://ir.unimas.my/id/eprint/41751/3/Master%20Thesis_Chong%20Jia%20Wen%20-%2024%20pages.pdf
http://ir.unimas.my/id/eprint/41751/4/Master%20Thesis_Chong%20Jia%20Wen_flltxt.pdf
Tags: Add Tag
No Tags, Be the first to tag this record!
id my-unimas-ir.41751
record_format uketd_dc
spelling my-unimas-ir.417512023-05-08T07:57:30Z Individual-based Modelling on Vector Heterogeneity of Leptospirosis Transmission in Sarawak 2023-05-03 Jia Wen, Chong QA75 Electronic computers. Computer science Leptospirosis is a zoonotic disease prevalent in various places, particularly the tropical and subtropical regions. The infectious disease is endemic across Malaysia, especially in Sarawak. In recent years, the threats of leptospirosis continue to grow as the number of confirmed cases in Sarawak has risen since 2010. Compartmental models are popular in disease modelling. However, the models are not suitable if heterogeneity in the population is taken into account. For zoonotic or vector-borne diseases, the heterogeneity of the hosts or vectors can significantly influence disease transmission. Hence, this research proposes an individual-based model or IBM to model the leptospirosis spread as it has the ability to capture the heterogeneity of the population, such as vectors’ active period and movement range. From the sensitivity analyses, the higher vector birth rate and higher transmission rate from susceptible to infected vectors generate more infected humans and vectors. The results also show that the active period durations of vectors do not influence leptospirosis transmission. However, a wider movement range of vectors causes more people and vectors to be infected. In the model validation with the actual prevalence data of leptospirosis in 2017, the coefficient of determination of more than 90% and normally distributed residuals for all three outbreaks indicate that IBM can model the leptospirosis spread in Sarawak. The actual prevalence data show three leptospirosis outbreaks occur within a year. By finding the correlation matrices, Pearson’s correlations deduce that temperature rise and precipitation influence disease transmission. Additionally, other factors such as misdiagnosis of leptospirosis as well as occupational and recreational exposures affect the infection. UNIMAS 2023-05 Thesis http://ir.unimas.my/id/eprint/41751/ http://ir.unimas.my/id/eprint/41751/3/Master%20Thesis_Chong%20Jia%20Wen%20-%2024%20pages.pdf text en public http://ir.unimas.my/id/eprint/41751/4/Master%20Thesis_Chong%20Jia%20Wen_flltxt.pdf text en validuser masters UNIMAS Faculty of Computer Science and Information Technology
institution Universiti Malaysia Sarawak
collection UNIMAS Institutional Repository
language English
English
topic QA75 Electronic computers
Computer science
spellingShingle QA75 Electronic computers
Computer science
Jia Wen, Chong
Individual-based Modelling on Vector Heterogeneity of Leptospirosis Transmission in Sarawak
description Leptospirosis is a zoonotic disease prevalent in various places, particularly the tropical and subtropical regions. The infectious disease is endemic across Malaysia, especially in Sarawak. In recent years, the threats of leptospirosis continue to grow as the number of confirmed cases in Sarawak has risen since 2010. Compartmental models are popular in disease modelling. However, the models are not suitable if heterogeneity in the population is taken into account. For zoonotic or vector-borne diseases, the heterogeneity of the hosts or vectors can significantly influence disease transmission. Hence, this research proposes an individual-based model or IBM to model the leptospirosis spread as it has the ability to capture the heterogeneity of the population, such as vectors’ active period and movement range. From the sensitivity analyses, the higher vector birth rate and higher transmission rate from susceptible to infected vectors generate more infected humans and vectors. The results also show that the active period durations of vectors do not influence leptospirosis transmission. However, a wider movement range of vectors causes more people and vectors to be infected. In the model validation with the actual prevalence data of leptospirosis in 2017, the coefficient of determination of more than 90% and normally distributed residuals for all three outbreaks indicate that IBM can model the leptospirosis spread in Sarawak. The actual prevalence data show three leptospirosis outbreaks occur within a year. By finding the correlation matrices, Pearson’s correlations deduce that temperature rise and precipitation influence disease transmission. Additionally, other factors such as misdiagnosis of leptospirosis as well as occupational and recreational exposures affect the infection.
format Thesis
qualification_level Master's degree
author Jia Wen, Chong
author_facet Jia Wen, Chong
author_sort Jia Wen, Chong
title Individual-based Modelling on Vector Heterogeneity of Leptospirosis Transmission in Sarawak
title_short Individual-based Modelling on Vector Heterogeneity of Leptospirosis Transmission in Sarawak
title_full Individual-based Modelling on Vector Heterogeneity of Leptospirosis Transmission in Sarawak
title_fullStr Individual-based Modelling on Vector Heterogeneity of Leptospirosis Transmission in Sarawak
title_full_unstemmed Individual-based Modelling on Vector Heterogeneity of Leptospirosis Transmission in Sarawak
title_sort individual-based modelling on vector heterogeneity of leptospirosis transmission in sarawak
granting_institution UNIMAS
granting_department Faculty of Computer Science and Information Technology
publishDate 2023
url http://ir.unimas.my/id/eprint/41751/3/Master%20Thesis_Chong%20Jia%20Wen%20-%2024%20pages.pdf
http://ir.unimas.my/id/eprint/41751/4/Master%20Thesis_Chong%20Jia%20Wen_flltxt.pdf
_version_ 1783728529865703424