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1	Untargeted Lcms Serum Metabolomics Of The Sierra Leonean Lassa Fever Patient And Metaanalysis Of The Virion Proteome January 2016 (has links) T V Gale
2	Complete Heart Block in Association With Dengue Hemorrhagic Fever Virk, Hafeez Ul Hassan, Inayat, Faisal, Ur Rahman, Zia 01 November 2016 (has links) Dengue virus infection affects the heart structurally and functionally. Clinical manifestations of cardiac complications secondary to dengue virus infection vary from self-limiting arrhythmias to severe myocardial infarction, leading to hypotension, pulmonary edema, and cardiogenic shock. However, we report a case of dengue hemorrhagic fever (DHF) complicated by a complete heart block. A female with DHF due to dengue virus serotype 2, presented to the emergency department with fever, headache, rash, and fatigue followed by an episode of syncope. She was found to have a third-degree atrioventricular block, with pulseless polymorphic ventricular tachycardia. Patient was resuscitated and a temporary trans-venous pacemaker was placed. She reverted back to normal sinus rhythm after 4 days of syncope and was subsequently discharged from the hospital after complete resolution of symptoms, without the need for a permanent pacemaker. Physicians are warranted to have high index of suspicion for dengue virus infection as an etiology in patients with acute cardiovascular compromise, especially in tropical areas. dengue hemorrhagic fever heart block
3	Use of recombinant antigen in the diagnosis of Crimean-Congo haemorrhagic fever virus infection Seleka, G. P. January 2001 (has links) A dissertation submitted to the Faculty of Health Sciences University of the Witwatersrand, Johannesburg for the degree of Master of Science. / The Special Pathogens Unit (SPU) of the National Institute for Virology has diagnosed a total of 158 cases of Crimean-Congo haemorrhagic fever (CCHF) from the time that the disease was first recognized in South Africa in 1981 up until the end of 2000. The virus has a propensity to cause nosocomial infections, and consequently rapid diagnosis is important for the isolation of the patient and the institution of barrier-nursing to protect medical staff and the community at large. Thus it is essential that the SPU should have the latest diagnostic and research tools available. Diagnosis of CCHF is generally confirmed by isolation of the virus, detection of viral RNA amplified by reverse transcriptase polymerase chain reaction (RT-PCR), demonstration of seroconversion or a >4-fold increase in IgG antibody titre, or detection of specific IgM antibody activity. Virus can be isolated in 1-6 days in cell culture, but the method is less sensitive for the isolation of low concentrations of virus than the use of suckling mice which, however, takes 7-9 days.
4	Diagnosis, pathogenesis and epidemiology of Crimean-Congo haemorrhagic fever Burt, Felicity Jane January 1997 (has links) A thesis submitted to the Faculty of Health Sciences University of the Witwatersrand. Johannesburg for the degree of Doctor of Philosophy Johannesburg 1997 / a) to develop sensitive tests for the early diagnosis of Crimean-Congo haemorrhagic fever {( '( "II;) infection or humans. based on the detection of viral nucleic add and antibody in serum: [Abbreviated Abstract. Open document to view full version] / MT2017 Hemorrhagic Fever Virus, Crimean-Congo Hemorrhagic Fevers, Viral
5	Using the host immune response to hemorrhagic fever Viruses to understand pathogenesis and improve diagnostics Sanchez Caballero, Ignacio 12 February 2016 (has links) Hemorrhagic fever viruses cause severe infections characterized by a hyperactive immune response that often leads to multiorgan failure and death. Current diagnostic tests are based on detecting viral proteins and nucleic acids in the blood. These are late-stage events during infection, which makes it impossible to perform a diagnosis before they are present in the collected sample. In this thesis, I explore an alternative approach using the transcriptional changes of circulating immune cells during the early stages of infection to identify unique markers of viral infection. The main advantage of this method is that it can be used to identify highly pathogenic viruses before standard detection methods become effective. I initially used RNA sequencing data to compare the host patterns of expression of macaques infected with either Lassa virus or Marburg virus, two related hemorrhagic fever viruses. I identified a set of genes that quickly become upregulated after a viral infection and remain highly expressed throughout the entire disease course, irrespective of the specific virus that caused the infection. I was also able to identify a set of biomarker genes that follow unique patterns of expression depending on the type of infection. I used an independent dataset to validate the potential of these genes to be used as biomarkers of infection. Additionally, I compared these results to the patterns of expression of macaques infected with Ebola virus, looking at multiple experimental conditions, tissues and routes of infection. Finally, I validated the host patterns of expression using two independently generated datasets corresponding to infection by different strains of arenaviruses and filoviruses. Studying the host immune response has the potential to improve the diagnosis of viral hemorrhagic fevers and other diseases. It can also accelerate our efforts to understand the underlying molecular mechanisms that lead to pathogenesis and severe disease. Bioinformatics RNA sequencing Biomarker Gene expression Hemorrhagic fever
6	Immunopathogenesis of dengue-2 infection in a dengue-2 outbreak Chen, Rong-fu 08 September 2007 (has links) Incidence of dengue fever (DF) has been estimated a 30 fold increase in the past 50 years. Clinical manifestations of DF range from a simple febrile illness with physical soreness to life-threatening dengue hemorrhagic fever (DHF). The need for a better classification of the severity in DEN infections has been proposed to clarify the immunopathogenesis for the prevention and management of serious DEN infections. We attempted to investigate whether different mechanisms involved in the varied manifestations of bleeding tendency and vascular leakage in DF. In a hospital-based study, we first compared clinical features as well as laboratory data including virus load, T helper (Th1/Th2) cytokines, and vascular leakage-related mediators between patients with DHF and DF. Moreover, we defined another class of patients associated with bleeding tendency but not fulfilled with DHF criteria, called DF w/B, for a further comparison. The virus load in blood was not significantly different among DF, DHF and DF w/B. DF patients had a higher Th1 cytokine, IFNr, expression (70.0 ¡Ó 10.7 vs. 33.1 ¡Ó 8.0 vs. 33.0 ¡Ó 7.1 pg/ml; DF vs. DF w/B, p = 0.009; DF vs. DHF, p = 0.002), and both DHF and DF w/B patients had a significantly higher IL-10 levels (14.3 ¡Ó 4.1 vs. 26.2 ¡Ó 3.3 vs. 26.0 ¡Ó 3.5 pg/ml; DF vs. DF w/B, p = 0.023; DF vs. DHF, p = 0.016) than DF patients. Both DHF and DF w/B patients also had a higher rate of secondary dengue infection (DF w/B vs. DHF vs. DF: 50.0%, 74.4% and 14.3%¡A p < 0.001). By contrast, DHF but not DF w/B patients had significantly higher vascular leakage-related mediators: sVCAM-1, PGE2 and TNF£\ levels than DF patients. Patients with DF w/B had a higher platelet counts (DF w/B vs. DHF: 66.0 ¡Ó 8.3 vs. 20.7 ¡Ó 2.1 x109/L, p < 0.001) but lower ALT levels than those with DHF (DF w/B vs. DHF: 56.3 ¡Ó 7.7 and 144.7 ¡Ó 20.5 IU/L). This study provides new insight to different immune mechanisms involved in patients with DF, DF w/B, and DHF. DF involves augmented Th1 reaction, and DF w/B involves altered Th2 reaction, but DHF involves both altered Th2 reaction and augmented vascular insult. Clarification of the immune mechanisms among DF, DFw/B and DHF will facilitate certain specific treatment and prevention of DF patients from varied bleeding tendency and vascular leakage manifestations. dengue hemorrhagic fever secondary infection dengue fever immunopathogenesis cytokine
7	Implications of local Puumala hantavirus genetics and epidemiology for diagnostics and vaccine development / Johansson, Patrik, January 2005 (has links) Diss. (sammanfattning) Umeå : Umeå universitet, 2005. / Härtill 4 uppsatser.
8	Factors associated to preventive behavior on Dengue Hemorrhagic Fever among family leaders in Ban Chang-Lo, Bangkok-Noi Bangkok / Somchai Teetipsatit, Charnchudhi Chanyasanha, January 2005 (has links) (PDF) Thesis (M.P.H.M. (Primary Health Care Management))--Mahidol University, 2005.
9	Factors related to preventive behaviour against dengue hemorrhagic fever among migrants in Muang district, Samut Sakhon province, Thailand / Sakai, Masayo, Jutatip Sillabutra, January 2007 (has links) (PDF) Thesis (M.P.H.M. (Primary Health Care Management))--Mahidol University, 2007. / LICL has E-Thesis 0024 ; please contact computer services.
10	Étude des mécanismes impliqués dans la physiopathologie induite par le virus de fièvre hémorragique de Crimée-Congo / Study of the mechanisms involved in the physiopathology induced by Crimean-Congo hemorrhagic fever virus Moroso, Marie 03 November 2016 (has links) Le virus de la fièvre hémorragique de Crimée-Congo (VFHCC) est un Nairovirus appartenant à la famille des Bunyaviridae, responsable d’une maladie hémorragique sévère chez l’Homme, associée à des symptômes non spécifiques et à une forte mortalité. La transmission se fait par morsure de tique ou par contact direct avec des fluides corporels contaminés. N’ayant ni vaccin ni traitement spécifique, un apport de connaissances sur les interactions cellulaires VFHCC-hôte ainsi que sur les mécanismes développés en réponse à l’infection est nécessaire.Nous avons tout d’abord étudié le potentiel antiviral de molécules sur la réplication du VFHCC. La chloroquine et la chlorpromazine ont été identifiées et inhibent efficacement la réplication virale avec une protection induite chez la souris contre l’infection, en particulier en combinaison avec la ribavirine.De nombreux virus sont connus pour être ciblés par, ou pour détourner la voie de l’autophagie. Nous avons regardé si l’infection par le VFHCC était associée à une modulation de l’autophagie et si la réplication virale était impactée par l’activité autophagique. L’étude de cellules hépatocytaires et épithéliales a montré une mobilisation massive du LC3, principal marqueur des vésicules autophagiques, par le VHFCC. Celle-ci reflète une induction du flux autophagique d’un nouveau type, n’impliquant pas les voies classiques de recrutement du LC3. La réplication virale n’est pas directement modulée par cette autophagie atypique mais des effets indirects sont à étudier. La plupart de ces observations ont été montrées pour le Nairovirus Dugbe avec cependant une cinétique différente.Le dernier axe étudié porte sur l’analyse de l’impact des IFITMs, facteurs de restriction virale connu pour interférer avec les processus de fusion membranaire, sur la réplication du virus Dugbe. L’étude a révélé une inhibition de la réplication virale par certains IFITMs.Des études supplémentaires portant sur l’interaction virus-cellule hôte et les mécanismes moléculaires associés sont nécessaires pour mieux comprendre la physiopathologie induite par le VFHCC et mettre au point de nouvelles stratégies thérapeutiques. / Crimean-Congo hemorrhagic fever virus (CCHFV) belongs to Nairovirus genus and to Bunyaviridae family. It is responsible for a severe hemorrhagic disease in humans, associated with non-specific symptoms and high lethality. Transmission is made by tick’s bite or by direct contact with contaminated body fluids. Since no vaccines or treatments are available, there is a need to accumulate knowledge on all aspects of CCHFV-host cell interaction as well as on response mechanisms that are taking place during infection.We first investigated pharmacological ways to interfere with CCHFV replication. Chloroquine and chlorpromazine (known modulators of some viral infections) were efficiently inhibiting viral replication and induce a protection in mice against CCHFV infection, particularly in the presence of ribavirin. Since several viruses are targeted by, or take advantage of, the autophagy response of infected cells, we explored whether CCHFV infection was associated with modulation of autophagy and whether virus replication was impacted by the autophagic activity of infected cells. By using hepatocytes and epithelial cells, we found that CCHFV induced a massive mobilization of the major marker of autophagic vesicles LC3. This mobilization reflected an induced autophagy flux and was of a novel type since known pathways of LC3 recruitment were not involved. The replication of CCHFV was indeed not directly modulated by this atypical form of autophagy but indirect effects remain to be studied. Most of these observations were found to be valid for the related, Dugbe virus (DUGV) with however, a distinct kinetic.Finally, we analyzed whether DUGV was sensitive to the IFITMs, restriction factors that can interfere with membrane fusion processes. Studies revealed that DUGV replication could be inhibited by some IFITMs. Additional studies on virus host-cell interactions and their associated molecular mechanisms should help to better understand the physiopathology induced by CCHFV and to devise therapeutic strategies. Fièvre hémorragique Nairovirus Autophagie Immunité innée Physiopathologie Hemorrhagic fever Nairovirus Crimean-Congo hemorrhagic fever (CCHF) Autophagy Innate immunity Pathogenesis

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