Analysis of the dynamics of a vector-borne infection with the effect of imperfect vaccination from a fractional perspective

The burden of vector-borne infections is significant, particularly in low- and middle-income countries where vector populations are high and healthcare infrastructure may be inadequate. Further, studies are required to investigate the key factors of vector-borne infections to provide effective contr...

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Main Authors: Tang T.-Q., Jan R., Khurshaid A., Shah Z., Vrinceanu N., Racheriu M.
Other Authors: 57191995128
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Published: Nature Research 2024
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spelling my.uniten.dspace-338502024-10-14T11:17:20Z Analysis of the dynamics of a vector-borne infection with the effect of imperfect vaccination from a fractional perspective Tang T.-Q. Jan R. Khurshaid A. Shah Z. Vrinceanu N. Racheriu M. 57191995128 57205596279 58061236800 57194441902 26434973300 57201688417 Algorithms Chikungunya Fever Health Facilities Humans Records Vaccination algorithm chikungunya health care facility human information processing vaccination The burden of vector-borne infections is significant, particularly in low- and middle-income countries where vector populations are high and healthcare infrastructure may be inadequate. Further, studies are required to investigate the key factors of vector-borne infections to provide effective control measure. This study focuses on formulating a mathematical framework to characterize the spread of chikungunya infection in the presence of vaccines and treatments. The research is primarily dedicated to descriptive study and comprehension of dynamic behaviour of chikungunya dynamics. We use Banach�s and Schaefer�s fixed point theorems to investigate the existence and uniqueness of the suggested chikungunya framework resolution. Additionally, we confirm the Ulam�Hyers stability of the chikungunya system. To assess the impact of various parameters on the dynamics of chikungunya, we examine solution pathways using the Laplace-Adomian method of disintegration. Specifically, to visualise the impacts of fractional order, vaccination, bite rate and treatment computer algorithms are employed on the infection level of chikungunya. Our research identified the framework�s essential input settings for managing chikungunya infection. Notably, the intensity of chikungunya infection can be reduced by lowering mosquito bite rates in the affected area. On the other hand, vaccination, memory index or fractional order, and treatment could be used as efficient controlling variables. � 2023, Springer Nature Limited. Final 2024-10-14T03:17:20Z 2024-10-14T03:17:20Z 2023 Article 10.1038/s41598-023-41440-7 2-s2.0-85169534071 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85169534071&doi=10.1038%2fs41598-023-41440-7&partnerID=40&md5=95aff2217ff59df562ca5390d0fe314c https://irepository.uniten.edu.my/handle/123456789/33850 13 1 14398 All Open Access Gold Open Access Green Open Access Nature Research Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Algorithms
Chikungunya Fever
Health Facilities
Humans
Records
Vaccination
algorithm
chikungunya
health care facility
human
information processing
vaccination
spellingShingle Algorithms
Chikungunya Fever
Health Facilities
Humans
Records
Vaccination
algorithm
chikungunya
health care facility
human
information processing
vaccination
Tang T.-Q.
Jan R.
Khurshaid A.
Shah Z.
Vrinceanu N.
Racheriu M.
Analysis of the dynamics of a vector-borne infection with the effect of imperfect vaccination from a fractional perspective
description The burden of vector-borne infections is significant, particularly in low- and middle-income countries where vector populations are high and healthcare infrastructure may be inadequate. Further, studies are required to investigate the key factors of vector-borne infections to provide effective control measure. This study focuses on formulating a mathematical framework to characterize the spread of chikungunya infection in the presence of vaccines and treatments. The research is primarily dedicated to descriptive study and comprehension of dynamic behaviour of chikungunya dynamics. We use Banach�s and Schaefer�s fixed point theorems to investigate the existence and uniqueness of the suggested chikungunya framework resolution. Additionally, we confirm the Ulam�Hyers stability of the chikungunya system. To assess the impact of various parameters on the dynamics of chikungunya, we examine solution pathways using the Laplace-Adomian method of disintegration. Specifically, to visualise the impacts of fractional order, vaccination, bite rate and treatment computer algorithms are employed on the infection level of chikungunya. Our research identified the framework�s essential input settings for managing chikungunya infection. Notably, the intensity of chikungunya infection can be reduced by lowering mosquito bite rates in the affected area. On the other hand, vaccination, memory index or fractional order, and treatment could be used as efficient controlling variables. � 2023, Springer Nature Limited.
author2 57191995128
author_facet 57191995128
Tang T.-Q.
Jan R.
Khurshaid A.
Shah Z.
Vrinceanu N.
Racheriu M.
format Article
author Tang T.-Q.
Jan R.
Khurshaid A.
Shah Z.
Vrinceanu N.
Racheriu M.
author_sort Tang T.-Q.
title Analysis of the dynamics of a vector-borne infection with the effect of imperfect vaccination from a fractional perspective
title_short Analysis of the dynamics of a vector-borne infection with the effect of imperfect vaccination from a fractional perspective
title_full Analysis of the dynamics of a vector-borne infection with the effect of imperfect vaccination from a fractional perspective
title_fullStr Analysis of the dynamics of a vector-borne infection with the effect of imperfect vaccination from a fractional perspective
title_full_unstemmed Analysis of the dynamics of a vector-borne infection with the effect of imperfect vaccination from a fractional perspective
title_sort analysis of the dynamics of a vector-borne infection with the effect of imperfect vaccination from a fractional perspective
publisher Nature Research
publishDate 2024
_version_ 1814060047009841152
score 13.214268