Dissertatio medica inauguralis, de febre flava Hispaniae

Shortt, John

January 1817

Omissis omnibus disputationibus de nomine quod huic morbo imponi debeat, eo, quo optime cognitus est in iis regionibus, in quibus maxime grassatur, uti licebit.

616.9

Yellow Fever

A study of exogenous and endogenous pyrogens in malaria fever

Oyewo, E. A.

January 1986

No description available.

610

Pathology of malaria fever

Immunotherapy for summer hayfever

Walker, Samantha Mary

January 2001

No description available.

616

Hay fever

Membrane association of dengue 2 virus non-structural protein 1

Jacobs, Michael Graham

January 2000

No description available.

572

Dengue virus; Fever

The interaction of Interleukin 1 with its receptors on mammalian cells

Smithers, Nicholas

January 1990

No description available.

572.8

Fever producing agents

Investigation of cytotoxic T-lymphocyte responses of cattle to Theileria parva by limiting dilution analyses

Taracha, Evans Lumbasi Nabwera

January 1991

No description available.

636.089

Tick fever in cattle

Kinetics of natural and acquired immunity to typhoid fever

Pulickal, Anoop Sebastian

January 2008

No description available.

616.9

Typhoid fever ; Etiology

Studies on cytokines as mediators of fever and sickness

Harden, Lois May

08 May 2009

The presence of endotoxin in animals and humans triggers a sequence of acute phase responses, which include the synthesis and release of pro-inflammatory cytokines from immune cells, followed by the development of various symptoms of sickness including fever and an array of behavioural responses, commonly referred to as sickness behaviours. Most experimental investigations examining the mechanisms mediating fever and sickness behaviour responses have used purified lipopolysaccharide (LPS), the glycolipid pyrogenic moiety of the Gram-negative bacterial membrane, to trigger the innate immune system. Results obtained from studies using specific antagonists to block the action of cytokines synthesized following systemic administration of LPS, have uncovered important roles for pro-inflammatory cytokines, such as interleukin (IL)-1b, IL-6, tumour necrosis factor-alpha (TNF-a) and leptin, in mediating fever. Although it has been shown that administration of pro-inflammatory cytokines can induce sickness behaviour in experimental animals, no clear role has been identified for these cytokines as endogenous mediators of sickness behaviours induced following LPS administration. Using rats as experimental animals and endogenous cytokine antagonism, I therefore investigated whether endogenously released IL-1b, IL-6, TNF-a and leptin are physiologically active not only in the generation of fever, but also in the generation of two specific sickness behaviours, lethargy and anorexia, induced by subcutaneous (s.c.) administration of LPS. Lethargy, anorexia and fever were measured as changes in voluntary wheel-running, food intake and body temperature respectively. I antagonized the biological action of these cytokines in the periphery following s.c. administration of LPS by injecting rats intraperitoneally (i.p.) with specific anti-rat sera to one of the following: TNF-a, IL-1b, IL-6 or leptin. Peripherally-released leptin appeared to be an important mediator of both fever and anorexia, as the presence of leptin antibodies in the circulation abolished both the anorexia and fever induced by s.c. administration of LPS. In contrast though, whereas the presence of IL-6 antibodies in the circulation abolished the LPS-induced fever, suppression of voluntary activity was reversed by the presence of IL-6 antibodies only to the extent of 27%, and appetite also was not returned to normal levels in the presence of IL-6 antibodies. Thus, IL-6 may be an essential component of LPS-induced fever, but an additional factor or factors, possibly working in parallel with IL-6, may be required to mediate the lethargy and anorexia induced by s.c. administration of LPS. Injecting rats i.p. with TNF-a antiserum or IL-1b antiserum had no effect on LPS-induced lethargy and LPS-anorexia, indicating that if these cytokines are working with peripherally-released IL-6 to induce sickness behaviour, it is likely due to their synthesis in the brain. Injecting species-homologous rat IL-1β and IL-6 into the brains of conscious rats, I aimed to identify whether either of these two cytokines can act within the brain to induce lethargy and anorexia in the absence of an infection. Intracerebroventricular (i.c.v.) administration of either IL-1β or IL-6 before the night-time active period decreased voluntary activity in the rats in a dose-dependent fashion, whereas only IL-1β decreased food intake and body mass of the rats. It is possible therefore, that increased levels of IL-1β in the brain may be working in parallel with IL-6 released in the periphery to induce lethargy and anorexia following s.c. administration of LPS. Thus I antagonized the biological action of these cytokines endogenously by administering species-specific antiserum to IL-6 (IL-6AS) i.p., and a caspase-1 inhibitor, which prevents the cleavage of pro-IL-1β to biologically active IL-1β, i.c.v. and monitored the symptoms of sickness induced by LPS until they ceased, so as to determine the cytokine involvement not only in the induction of these responses, but also in the resolution of these responses. Pre-treating rats with either IL-6AS i.p. or a caspase-1 inhibitor i.c.v. attenuated the magnitude and the duration of the anorexia and lethargy induced by LPS administration. LPS-induced fever was completely abolished in rats pretreated i.p. with IL-6AS, while it was only partially attenuated in rats pre-treated i.c.v. with a caspase-1 inhibitor. In conclusion, there appears to be some distinct differences in the cytokine-mechanisms regulating fever and sickness behaviours induced by LPS. Identifying the physiological mechanisms mediating fever and sickness behaviours during illness may provide clinicians with more insight into managing not only the thermal, but also the non-thermal responses to infections, responses which may become detrimental to the host if they continue for a prolonged period. My observation that reducing either IL-6 in the circulation or IL-1β in the brain significantly enhances the resolution of anorexia and lethargy, but does not completely prevent them from occurring, appears to indicate that while individual cytokines are possible targets for therapies aimed at alleviating these sickness responses in patients with bacterial infections, to abolish them multiple cytokines may need to be targeted.

cytokines

fever

sickness

Modelling vector-borne diseases: epidemic and inter-epidemic activities with application to Rift Valley fever

Pedro, Sansao Agostinho

January 2016

A Thesis submitted to the Faculty of Science in ful lment of the requirements for the degree of Doctor of Philosophy, School of Computer Science and Applied Mathematics. Johannesburg, 2016. / In this thesis in order to study the complex dynamics of Rift Valley fever (RVF) we combine two modelling approaches: equation-based and simulation-based modelling. In the first approach we first formulate a deterministic model that includes two vector populations, Aedes and Culex mosquitoes with one host population (livestock), while considering both horizontal and vertical transmissions. An easy applicable expression of the basic reproduction number, R0 is derived for both periodic and non-periodic environment. Both time invariant and time varying uncertainty and sensitivity analysis of the model is carried out for quantifying the attribution of model output variations to input parameters over time and novel relationships between R0 and vertical transmission are determined providing important information useful for improving disease management. Then, we analytically derive conditions for stability of both disease-free and endemic equilibria. Using techniques of numerical simulations we perform bifurcation and chaos analysis of the model under periodic environment for evaluating the effects of climatic conditions on the characteristic pattern of disease outbreaks. Moreover, extending this model including vectors other than mosquitoes (such as ticks) we evaluate the possible role of ticks in the spread and persistence of the disease pointing out relevant model parameters that require further attention from experimental ecologists to further determine the actual role of ticks and other biting insects on the dynamics of RVF. Additionally, a novel host-vector stochastic model with vertical transmission is used to analytically determine the dominant period of disease outbreaks with respect to vertical transmission efficiency. Then, novel relationships among vertical transmission, invasion and extinction probabilities and R0 are determined. In the second approach a novel individual-based model (IBM) of complete mosquito life cycle built under daily temperature and rainfall data sets is designed and simulated. The model is applied for determining correlation between abundance of mosquito populations and rainfall regimes and is then used for studying disease inter-epidemic activities. We find that indeed rainfall is responsible for creating intra- and inter-annual variations observed in the abundance of adult mosquitoes and the length of gonotrophic cycle, number of eggs laid per blood meal, adults age-dependent survival and fight behaviour are among the most important features of the mosquito life cycle with great epidemiological impacts in the dynamics of RVF transmission. These indicators could be of great epidemiological significance by allowing disease control program managers to focus their e orts on specific features of vector life cycle including vertical transmission ability and diapause. We argue that our IBM model is an ideal extendible framework useful for further investigations of other relevant host-vector ecological and epidemiological questions for providing additional knowledge important for improving the length and quality of life of humans and domestic animals. / LG2017

Rift Valley fever

Effect of repeated fever on growth in young guinea pigs

Madu, Scholastica Chinyere

06 May 2004

A dissertation submitted to the Faculty of Health Sciences, University of the Witwatersrand, Johannesburg, in fulfilment of the requirements for the degree of Master of Science of Medicine (MSc Med). / Repeated infection in early life can induce malnutrition and growth impairment due to the insufficiency of nutrients required to meet the increasing need for nutrients of a growing child, for growth. Infection causes an increase in metabolism and rate of tissue breakdown with a resultant need for extra nutrient intake. The aim of this study was to determine the effect of repeated fever on growth in young guinea pigs. Ten guinea pigs were studied from birth to approximately 60 days of age. At weaning age, guinea pigs were implanted with telemeters to measure body temperature. Then the guinea pigs were grouped into: An experimental group (n=5) receiving muramyl- dipeptide (MDP), and a control group (n=5) receiving normal saline injections. Eight injections per animal were given over the experimental period. Body weights of all animals were measured every 4 days while food intake was measured daily / IT2018

Fever

Guinea Pigs

Growth