School of Pathology (ETDs)

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    Unmasking serial murder: a comparison of a South African murder series with characteristics from the Federal Bureau of Investigation Serial Murder Database
    (2015) Holland, Shakeera
    The term ‘serial killer’ brings to mind notorious criminals whose crimes are so heinous as to test the limits of the most vivid imagination and make us question their humanity. What is the reality of serial murder? In 2005, the Federal Bureau of Investigation (FBI) hosted a symposium on serial murder, which brought together international experts in the field of serial murder with the aim of clarifying and understanding this multifarious crime. On the 12th of March 2008, Gcinumzi Richman Makhwenkwe, ‘The Moffat Park Serial Murderer’ was convicted of 5 counts of murder, 3 counts of rape and 3 counts of robbery with aggravating circumstances. The Department of Forensic Medicine and Pathology of the University of the Witwatersrand, based at the Johannesburg Forensic Pathology Service (FPS) Medicolegal Mortuary Facility performed the medicolegal investigations of death in all the victims. This research report explores the characteristics of serial murder and serial murderers as documented in the literature; documents the features and characteristics of the Moffat Park murder series; compares the features of this South African murder series to those from the findings of the FBI serial murder symposium; explores the role of the forensic medical practitioner in the investigation of the Moffat Park series and serves to educate and inform forensic medical practitioners of the features of serial murder as awareness may potentially lead to earlier identification of a murder series. This could ultimately lead to earlier implementation of specialist investigative methods, earlier apprehension of the serial murderer and most importantly fewer victims.
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    The role of regulatory T cells in adults in South Africa with active tuberculosis
    (2010-01-28T10:11:24Z) Mayne, Elizabeth Sarah
    Introduction: Regulatory T cells (Tregs) are increasingly being recognized as key immunological players in immunosuppression and have been seen to be permissive for certain infections. Aim: This study aimed to elucidate the role that Tregs play in symptomatic infection with Mycobacterium tuberculosis (TB), both with and without co-infection with human immunodeficiency virus type 1 (HIV 1) by quantification of these cells at ex vivo. It was then attempted to characterise the behaviour of FoxP3 positive cells in culture with stimulation. Methods: Peripheral blood mononuclear cells were purified from uninfected controls, patients with active TB, patients with HIV infection and patients with HIV infection and active TB. The frequencies of Tregs were assessed by flow cytometry at ex vivo and again after four days of culture with stimulation with anti-CD3, Purified protein derivative, tetanus toxoid and HIV peptide superpools (gag and nef). These frequencies were compared between the four groups of patients. The ability of Tregs and effector T cells to proliferate was also assessed. Interferon-γ secretion was used as a measure of effector T cell response to stimulation. vi Results: Frequencies of Tregs were significantly reduced in patients with active TB as compared with HIV infected patients and uninfected controls. Co-infected individuals showed a broad range of frequencies which were not significantly different from controls. These frequencies remained stable in culture with the exception of those individuals infected with HIV who showed a decline in the frequency of those cells expressing FoxP3 over the period. Cells expressing FoxP3 were not anergic and responded to stimulation. HIV specific proteins, in addition, resulted in specific effects on the Tregs with a positive interferon response to gag correlating with increased Treg frequencies and FoxP3 expression in CD4+ T cells correlated with the proliferative response of CD4+ T cells to Nef in HIV infected individuals. Conclusions: This study shows significant differences of frequencies of FoxP3 positive producing cells in the peripheral blood at ex vivo in patients with active TB. The function of these cells in this population is uncertain and further functional data and long-term clinical follow-up is required. In addition, the frequencies of these cells remained constant over time and showed proliferative response to stimuli (most notably CD3) suggesting that these cells may be generated in the periphery.