Neglected tropical diseases: Mathematical modelling and control of within-host and transmission dynamics of viral infections

Abstract:

Neglected tropical diseases (NTDs) are a health crisis that is ignored by the developed

world and only starts getting attention when there is an outbreak that kills a large

population. AIDS associated Kaposi sarcoma (AIDS-KS) and Ebola Virus Disease (EVD)

are viral infections which are just two of the many NTDs that require attention. This thesis

presents novel within-host ordinary differential equation (ODE) mathematical models

in conjunction with application of the optimal control theory of AIDS-KS dynamics.

Additionally, we derive an epidemiological system of ODEs to model the transmission

dynamics of EVD in the presence of public health education.

AIDS-KS is caused by KS-associated herpesvirus (KSHV). Although the standard KS

therapy has not changed in twenty years, not all cases of KS will respond to the same

therapy. The goal of current AIDS-KS treatment modalities is to reconstitute the immune

system and suppress HIV replication. We introduce novel within-host ODE mathematical

models that consolidate the effect of both HIV and KSHV load on KS tumor progression by

incorporating low or high viral loads (VLs) into the proliferation terms of the immune cell

populations. Regulation of HIV/KSHV VL and viral reservoir cells is crucial for restoring

a patient to an asymptomatic stage. Therefore, in order to device an optimal treatment

plan, optimal control theory is applied by using Pontryagin’s maximum principle with

control measures such as combined antiretroviral therapy (cART). The objective function

is constituted to minimise the population of infected cells, VL and KS tumor and the

harmful side effects of cART to the patient. The results indicate that the drug treatment

strategies are capable of removing the viral reservoirs faster, consequently reducing the

HIV and KS tumor burden. The predictions of the mathematical models have the potential

to offer more effective therapeutic interventions based on VL and virus-infected cell load,

hence support new studies addressing the superiority of VL over CD4 cell count when

predicting life expectancy of HIV patients.

iv

Public participation in Ebola virus disease (EVD) prevention efforts is essential to

reduce outbreaks. Targeted education through practical health information for specific

populations and sub-populations is essential to combat this disease. We study the

dynamics of EVD in he presence of public health education to assess the role of behavior

change instigated by health education in the dynamics of an outbreak. The intensity of

behaviour change is clear in two outbreaks of EVD that occurred in Sudan just three years

apart. The first occurrence turned into the primary documented outbreak of EVD and

produced a sizable number of infections. The subsequent outbreak delivered far less cases,

apparently on the grounds that the population in the district gained from the primary

episode. We derive a system of ODEs to model these two opposite behaviors, using data

from these two EVD instances to estimate parameters significant to the two opposite

behaviors. We then simulate a future EVD epidemic in Sudan using our model, which

includes two susceptible populations, one of which is more knowledgeable about EVD

than the other. Our results show how a better educated population leads to fewer cases

of EVD and features the significance of ongoing education in public health.

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APA

Fungai, S (2024). Neglected tropical diseases: Mathematical modelling and control of within-host and transmission dynamics of viral infections. Afribary. Retrieved from https://tracking.afribary.com/works/neglected-tropical-diseases-mathematical-modelling-and-control-of-within-host-and-transmission-dynamics-of-viral-infections

MLA 8th

Fungai, Shava "Neglected tropical diseases: Mathematical modelling and control of within-host and transmission dynamics of viral infections" Afribary. Afribary, 30 Mar. 2024, https://tracking.afribary.com/works/neglected-tropical-diseases-mathematical-modelling-and-control-of-within-host-and-transmission-dynamics-of-viral-infections. Accessed 21 Nov. 2024.

MLA7

Fungai, Shava . "Neglected tropical diseases: Mathematical modelling and control of within-host and transmission dynamics of viral infections". Afribary, Afribary, 30 Mar. 2024. Web. 21 Nov. 2024. < https://tracking.afribary.com/works/neglected-tropical-diseases-mathematical-modelling-and-control-of-within-host-and-transmission-dynamics-of-viral-infections >.

Chicago

Fungai, Shava . "Neglected tropical diseases: Mathematical modelling and control of within-host and transmission dynamics of viral infections" Afribary (2024). Accessed November 21, 2024. https://tracking.afribary.com/works/neglected-tropical-diseases-mathematical-modelling-and-control-of-within-host-and-transmission-dynamics-of-viral-infections