A comparative analysis of mathematical models for HIV epidemiology

De la Harpe, Alana

04 1900

Thesis (MSc)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: HIV infection is one of the world’s biggest health problems, with millions of people infected worldwide. HIV infects cells in the immune system, where it primarily targets CD4+ T helper cells and without treatment, the disease leads to the collapse of the host immune system and ultimately death. Mathematical models have been used extensively to study the epidemiology of HIV/AIDS. They have proven to be effective tools in studying the transmission dynamics of HIV. These models provide predictions that can help better our understanding of the epidemiological patterns of HIV, especially the mechanism associated with the spread of the disease. In this thesis we made a functional comparison between existing epidemiological models for HIV, with the focus of the comparison on the force of infection (FOI). The spread of infection is a crucial part of any infectious disease, as the dynamics of the disease depends greatly on the rate of transmission from an infectious individual to a susceptible individual. First, a review was done to see what deterministic epidemiological models exist. We found that many manuscripts do not provide the necessary information to recreate the authors’ results and only a small amount of the models could be simulated. The reason for this is mainly due to a lack of information or due to mistakes in the article. The models were divided into four categories for the analysis. On the basis of the FOI, we distinguished between frequency- or density-dependent transmission, and as a second criterion we distinguished models on the sexual activity of the AIDS group. Subsequently, the models were compared in terms of their FOI, within and between these classes. We showed that for larger populations, frequency-dependent transmission should be used. This is the case for HIV, where the disease is mainly spread through sexual contact. Inclusion of AIDS patients in the group of infectious individuals is important for the accuracy of transmission dynamics. More than half of the studies that were selected in the review assumed that AIDS patients are too sick to engage in risky sexual behaviour. We see that including AIDS patients in the infectious individuals class has a significant effect on the FOI when the value for the probability of transmission for an individual with AIDS is bigger than that of the other classes. The analysis shows that the FOI can vary depending on the parameter values and the assumptions made. Many models compress various parameter values into one, most often the transmission probability. Not showing the parameter values separately makes it difficult to understand how the FOI works, since there are unknown factors that have an influence. Improving the accuracy of the FOI can help us to better understand what factors influence it, and also produce more realistic results. Writing the probability of transmission as a function of the viral load can help to make the FOI more accurate and also help in the understanding of the effects that viral dynamics have on the population transmission dynamics. / AFRIKAANSE OPSOMMING: MIV-infeksie is een van die wêreld se grootste gesondheidsprobleme, met miljoene mense wat wêreldwyd geïnfekteer is. MIV infekteer selle in die immuunstelsel, waar dit hoofsaaklik CD4+ T-helperselle teiken. Sonder behandeling lei die siekte tot die ineenstorting van die gasheer se immuunstelsel en uiteindelik sy dood. Wiskundige modelle word breedvoerig gebruik om die epidemiologie van MIV/vigs te bestudeer. Die modelle is doeltreffende instrumente in die studie van die oordrag-dinamika van MIV. Hulle lewer voorspellings wat kan help om ons begrip van epidemiologiese patrone van MIV, veral die meganisme wat verband hou met die verspreiding van die siekte, te verbeter. In hierdie tesis het ons ‘n funksionele vergelyking tussen bestaande epidemiologiese modelle vir MIV gedoen, met die fokus van die vergelyking op die tempo van infeksie (TVI). Die verspreiding van infeksie is ‘n belangrike deel van enige aansteeklike siekte, aangesien die dinamika van die siekte grootliks afhang van die tempo van oordrag van ‘n aansteeklike persoon na ‘n vatbare persoon. ‘n Oorsig is gedoen om te sien watter kompartementele epidemiologiese modelle alreeds bestaan. Ons het gevind dat baie van die manuskripte nie die nodige inligting voorsien wat nodig is om die resultate van die skrywers te repliseer nie, en slegs ‘n klein hoeveelheid van die modelle kon gesimuleer word. Die rede hiervoor is hoofsaaklik as gevolg van ‘n gebrek aan inligting of van foute in die artikel. Die modelle is in vier kategorieë vir die analise verdeel. Op grond van die TVI het ons tussen frekwensie- of digtheidsafhanklike oordrag onderskei, en as ‘n tweede kriterium het ons die modelle op die seksuele aktiwiteit van die vigs-groep onderskei. Daarna is die modelle binne en tussen die klasse vergelyk in terme van hul TVIs. Daar is gewys dat frekwensie-afhanklike oordrag gebruik moet word vir groter bevolkings. Dit is die geval van MIV, waar die siekte hoofsaaklik versprei word deur seksuele kontak. Die insluiting van die vigs-pasiënte in die groep van aansteeklike individue is belangrik vir die akkuraatheid van die oordrag-dinamika van MIV. Meer as helfte van die uitgesoekte studies aanvaar dat vigs-pasiënte te siek is om betrokke te raak by riskante seksuele gedrag. Ons sien dat die insluiting van vigs-pasiënte in die groep van aansteeklike individue ‘n beduidende uitwerking op die TVI het wanneer die waarde van die waarskynlikheid van oordrag van ‘n individu met vigs groter is as dié van die ander klasse. Die analise toon dat die TVI kan wissel afhangende van die parameter waardes en die aannames wat gemaak is. Baie modelle voeg verskeie parameter waardes bymekaar vir die waarskynlikheid van oordrag. Wanneer die parameter waardes nie apart gewys word nie, is dit moeilik om die werking van die TVI te verstaan, want daar is onbekende faktore wat ‘n invloed op die TVI het. Die verbetering van die akkuraatheid van die TVI kan ons help om die faktore wat dit beïnvloed beter te verstaan, en dit kan ook help om meer realistiese resultate te produseer. Om die waarskynlikheid van oordrag as ‘n funksie van die viruslading te skryf kan help om die TVI meer akkuraat te maak en dit kan ook help om die effek wat virale dinamika op die bevolkingsoordrag-dinamika het, beter te verstaan.

HIV infections

HIV (Viruses) -- Epidemiology

HIV infections -- Mathematical models

UCTD

Placing the dead :the spatial distribution and spread of HIV in a major South African city.

Rama, Parbavati

January 2005

The aim of this study was to establish a new understanding of the epidemiology of HIV/AIDS at the municipal level, but at the same time upholding the anonymity of the HIV infected and AIDS sufferers. Innovative research techniques such as the use of GIS (geographic information systems) as a research tool contributed to disclosing the patterns of the HIV pandemic in the Nelson Mandela Metropole that were not obvious or visible before. GIS involved geographic maps that detect the spatial relationship between HIV prevalence rates and vectors that drive the pandemic.

Placing the dead :the spatial distribution and spread of HIV in a major South African city.

Rama, Parbavati

January 2005

The aim of this study was to establish a new understanding of the epidemiology of HIV/AIDS at the municipal level, but at the same time upholding the anonymity of the HIV infected and AIDS sufferers. Innovative research techniques such as the use of GIS (geographic information systems) as a research tool contributed to disclosing the patterns of the HIV pandemic in the Nelson Mandela Metropole that were not obvious or visible before. GIS involved geographic maps that detect the spatial relationship between HIV prevalence rates and vectors that drive the pandemic.

Investigation of the molecular epidemiology of HIV-1 in Khayelitsha, Cape Town, using serotyping and genotyping techniques

Jacobs, Graeme Brendon

12 1900

Thesis (MScMedSc (Pathology. Medical Virology))--University of Stellenbosch, 2005. / There are currently an estimated 5.3 million people infected with human immunodeficiency virus / acquired immunodeficiency syndrome (HIV/AIDS) in South Africa. HIV-1 group M Subtype C is currently responsible for the majority of HIV infections in sub-Saharan Africa (56% worldwide). The Khayelitsha informal settlement, located 30 km outside Cape Town, has one of the highest HIV prevalence rates in the Western Cape. The objective of this study was to investigate the molecular epidemiology of HIV-1 in Khayelitsha using serotyping and genotyping techniques. Patient samples were received from the Matthew Goniwe general health clinic located at site C in Khayelitsha. Serotyping was performed through a competitive enzymelinked immunosorbent assay (cPEIA). RNA was isolated from patient plasma and a two step RT-PCR amplification of the gag p24, env gp41 IDR, env gp120 V3 and pol genome regions performed. Sequences obtained were used for detailed sequence and phylogenetic analysis. Neighbour-joining and maximum likelihood phylogenetic trees were drawn to assess the relationship between the Khayelitsha sequences obtained and a set of reference sequences obtained from the Los Alamos National Library (LANL) HIV database (http://www.hiv.lanl.gov/). Through serotyping and genotyping the majority of HIV strains were characterised as HIV-1 group M subtype C. One sample (1154) was characterised as a possible C / D recombinant strain. In 9 other samples HIV-1 recombination cannot be excluded, as only one of the gene regions investigated could be amplified and characterised in these samples. The gag p24 genome region was found to be more conserved than the env gp41 IDR, with the env gp41 IDR more conserved than the env gp120 V3. The variability of the env gp120 V3 region indicates that patients might be dually infected with variant HIV-1 subtype C strains or quasispecies. Conserved regions identified in the Khayelitsha sequences can induce CD4+ T-cell responses and are important antibody recognition target sites. These conserved regions can play a key role in the development of an effective HIV-1 immunogen reactive against all HIV-1 subtypes. The majority of subtype C viruses were predicted to use CCR5 as their major chemokine co-receptor. The pol sequences analysed indicate that mutations associated with minor resistance to Protease Inhibitors (PIs) might be present in the Khayelitsha community. The identification of resistant mutations is vital for people receiving antiretroviral treatment (ART). It can influence the success of their treatment and delay the onset of AIDS. Serotyping is a quick characterisation method, but not always accurate. With genotyping detailed molecular analysis can be performed. However, with genotyping the success of amplification often depends on viral load. In Southern Africa a subtype C candidate vaccine appears to be the best option for future vaccine considerations. The sporadic detection of non-subtype C and recombinant subtype C viruses remains a concern and will thus have to be closely monitored. Phylogenetic analysis can help to classify and monitor the spread and evolution of these viruses.

Virus -- Epidemiology

Theses -- Medicine

Dissertations -- Medicine

HIV (Viruses)-- Epidemiology

AIDS (Disease) -- Epidemiology

HIV infections -- Epidemiology

Pathology

Medical Virology