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Sains Malaysiana 51(7)(2022):
http://doi.org/10.17576/jsm-2022-5107-21
Mathematical
Model of Pertussis and Pneumonia Co-Infection in Infants with Maternally
Derived Immunity
(Model Matematik bagi Jangkitan Bersama Batuk Kokol dan Pneumonia pada Bayi dengan Imuniti daripada Ibu)
AISHA
ALIYU YAKUBU1,2, FARAH AINI ABDULLAH1* & YAZARIAH
MOHD YATIM1
1School of Mathematical Sciences, Universiti Sains Malaysia, 11800
USM, Pulau Pinang, Malaysia
2Ibrahim Badamasi Babangida University Lapai, PMB 11, Niger State
Nigeria
Received: 30 July 2021/Accepted: 1 December 2021
Abstract
The
transmission dynamics of a pertussis-pneumonia co-infection model is analyzed.
The model takes into account temporary immunity of infected infants and
includes a maternally derived immunity compartment. The basic reproduction
number of the co-infected model is obtained using the next generation matrix,
and stability analysis is carried out. The model exhibits four equilibria,
namely, the pertussis-free equilibrium, the pneumonia-free equilibrium, the
co-infection-free equilibrium and co-infection endemic equilibrium. Subsequently,
the local stability of the co-infection-free equilibrium is analyzed and is
shown to be locally asymptotically stable. Similarly, by constructing a
suitable Lyapunov function, the co-infection endemic equilibrium is shown to be
globally asymptotically stable. Numerical simulations are carried out to
illustrate the validity of these results.
Keywords:
Childhood respiratory diseases; common quadratic Lyapunov function; global
stability; maternally derived immunity; pertussis-pneumonia co-infection
Abstrak
Analisis dinamik penularan model jangkitan
bersama batuk kokol-radang paru-paru dijalankan. Model ini mengambil kira imuniti
sementara bayi yang dijangkiti dan merangkumi ruang imuniti yang berasal daripada
ibu. Nombor pembiakan asas model yang dijangkiti bersama diperoleh menggunakan
matriks generasi berikutnya dan analisis kestabilan dilakukan. Model ini
menunjukkan empat keseimbangan, iaitu, keseimbangan bebas batuk kokol,
keseimbangan bebas radang paru-paru, keseimbangan bebas jangkitan dan
keseimbangan endemik jangkitan bersama. Selepas itu, kestabilan tempatan
keseimbangan bebas jangkitan dianalisis dan terbukti ia stabil secara asimptot.
Begitu juga dengan membina fungsi Lyapunov yang sesuai, keseimbangan endemik
jangkitan bersama terbukti stabil secara asimptot. Simulasi berangka dijalankan
untuk menggambarkan kesahihan hasil ini.
Kata kunci: Fungsi kuadratik umum Lyapunov; imuniti terbitan ibu; jangkitan
bersama batuk kokol-radang paru-paru; kestabilan global; penyakit respiratori
kanak-kanak
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*Corresponding
author; email: farahaini@usm.my
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