• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 2
  • 2
  • 2
  • Tagged with
  • 5
  • 5
  • 3
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 1
  • 1
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Estudo epidemiológico de Rickettsia felis em áreas endêmicas e não-endêmicas para febre maculosa no Estado de São Paulo / Epidemiologic study of Rickettsia felis in endemic and nonendemic areas for spotted fever in the State of São Paulo

Horta, Mauricio Claudio 18 May 2006 (has links)
Estudos recentes demonstraram a existência de Rickettsia felis, riquétsia do Grupo da Febre Maculosa, em sangue de pacientes com quadro clínico compatível com a doença e em pulgas infectadas. Este projeto visa determinar a prevalência de R. felis em vetores (pulgas e carrapatos) e em potenciais reservatórios (gambás, cães, gatos, eqüinos e humanos), procedentes de áreas endêmicas (Mogi das Cruzes, Pedreira, Piracicaba e São Paulo), e não endêmicas (Pirassununga) para FM no Estado de São Paulo. Foram utilizados métodos moleculares (reação em cadeia pela polimerase e sequenciamento de DNA), diagnóstico sorológico e cultivo celular. Em gambás capturados (Didelphis aurita e Didelphis albiventris) foram colhidas 312 pulgas, pertencentes às Famílias Pulicidae (141), Rhopalopsyllidae (170) e Ctenophthalmidae (1) e 709 carrapatos (Amblyomma spp e Ixodes loricatus). Nos cães foram colhidos 212 pulgas (Ctenocephalides felis felis) e 115 carrapatos (Amblyomma cajennense, Amblyomma aureolatum e Rhipicephalus sanguineus). Nos gatos foram colhidos 66 pulgas (59 C. felis felis e 7 Rhopalopsyllus lutzi lutzi) e 10 carrapatos (R. sanguineus e Amblyomma spp). A colheita de sangue foi realizada em 94 gambás, 55 cães, 25 gatos, 85 eqüinos e 238 humanos. Rickettsia felis foi detectada em 42-45,8% das pulgas C. felis felis de gambás, cães e gatos; em 4% das pulgas Polygenis (N) atopus de gambás e em 1,8% e 0,7% de carrapatos I. loricatus e Amblyomma spp, respectivamente, colhidos de gambás. Rickettsia bellii foi detectada em carrapatos I. loricatus (59,1%), A. dubitatum (8,7%) e Amblyomma spp (0,9%) e em uma pulga P. (N.) atopus (1%). Não foi possível a detecção de infecção por Rickettsia spp em sangue dos animais e humanos. Contudo, constatou-se presença anticorpos frente aos antígenos de Rickettsia rickettsii, Rickttesia parkeri, R. felis e R. bellii nas áreas estudadas. A titulação obtida sugere infecção por R. rickettsii em gambás, cães, eqüinos e humanos e por R. parkeri em gambás, cães e eqüinos. R. felis e R. bellii foram isoladas e cultivadas com a utilização de células C6/36 e VERO, respectivamente. / Recent studies have showed the presence of Rickettsia felis, a spotted fever group Rickettsiae, in human blood with clinical signs compatible with spotted fever and in infected fleas. This work aims to determine the prevalence of R. felis in potential vectors (fleas and ticks) and reservoirs (opossums, dogs, cats, equines and humans) from endemic (Mogi das Cruzes, Pedreira, Piracicaba e São Paulo), and non-endemic (Pirassununga) areas for spotted fever in the State of São Paulo. Molecular probes (polimerase chain reaction and DNA sequencing), serologic diagnoses and cell culture were used. From trapped opossums (Didelphis aurita and Didelphis albiventris) a total of 312 fleas, belonging to Family Pulicidae (141), Rhopalopsyllidae (170) and Ctenophthalmidae (1) and 709 ticks (Amblyomma spp and Ixodes loricatus) were collected. On dogs a total of 212 fleas (Ctenocephalides felis felis) and 115 ticks (Amblyomma cajennense, Amblyomma aureolatum and Rhipicephalus sanguineus) were collected. On cats, 66 fleas (59 C. felis felis and 7 Rhopalopsyllus lutzi lutzi) and 10 ticks (R. sanguineus and Amblyomma spp) were collected. Blood samples were collected from 94 opossums, 55 dogs, 25 cats, 85 equines and 238 humans. Rickettsia felis was detected in 42-45,8% of the C. felis felis collected on opossums, dogs and cats. This same Rickettsia species was detected in 4% of Polygenis (N.) atopus fleas, and 1,8% and 0,7% of I. loricatus and Amblyomma spp ticks, respectively, collected from opossums. Rickettsia bellii was found in ticks I. loricatus (59,1%), A. dubitatum (8,7%) and Amblyomma spp (0,9%) and in a flea P. (N.) atopus (1%). No Rickettsia DNA was detected in animal or human blood samples. However antibodies against Rickettsia rickettsii, Rickettsia parkeri, R. felis and R. bellii were detected in all locations. The titers suggest infection by R. rickettsii in opossums, dogs, equines and humans and by R. parkeri in opossums, dogs and equines. R. felis and R. bellii were isolated and cultivated with the C6/36 and VERO cells, respectively.
2

Estudo epidemiológico de Rickettsia felis em áreas endêmicas e não-endêmicas para febre maculosa no Estado de São Paulo / Epidemiologic study of Rickettsia felis in endemic and nonendemic areas for spotted fever in the State of São Paulo

Mauricio Claudio Horta 18 May 2006 (has links)
Estudos recentes demonstraram a existência de Rickettsia felis, riquétsia do Grupo da Febre Maculosa, em sangue de pacientes com quadro clínico compatível com a doença e em pulgas infectadas. Este projeto visa determinar a prevalência de R. felis em vetores (pulgas e carrapatos) e em potenciais reservatórios (gambás, cães, gatos, eqüinos e humanos), procedentes de áreas endêmicas (Mogi das Cruzes, Pedreira, Piracicaba e São Paulo), e não endêmicas (Pirassununga) para FM no Estado de São Paulo. Foram utilizados métodos moleculares (reação em cadeia pela polimerase e sequenciamento de DNA), diagnóstico sorológico e cultivo celular. Em gambás capturados (Didelphis aurita e Didelphis albiventris) foram colhidas 312 pulgas, pertencentes às Famílias Pulicidae (141), Rhopalopsyllidae (170) e Ctenophthalmidae (1) e 709 carrapatos (Amblyomma spp e Ixodes loricatus). Nos cães foram colhidos 212 pulgas (Ctenocephalides felis felis) e 115 carrapatos (Amblyomma cajennense, Amblyomma aureolatum e Rhipicephalus sanguineus). Nos gatos foram colhidos 66 pulgas (59 C. felis felis e 7 Rhopalopsyllus lutzi lutzi) e 10 carrapatos (R. sanguineus e Amblyomma spp). A colheita de sangue foi realizada em 94 gambás, 55 cães, 25 gatos, 85 eqüinos e 238 humanos. Rickettsia felis foi detectada em 42-45,8% das pulgas C. felis felis de gambás, cães e gatos; em 4% das pulgas Polygenis (N) atopus de gambás e em 1,8% e 0,7% de carrapatos I. loricatus e Amblyomma spp, respectivamente, colhidos de gambás. Rickettsia bellii foi detectada em carrapatos I. loricatus (59,1%), A. dubitatum (8,7%) e Amblyomma spp (0,9%) e em uma pulga P. (N.) atopus (1%). Não foi possível a detecção de infecção por Rickettsia spp em sangue dos animais e humanos. Contudo, constatou-se presença anticorpos frente aos antígenos de Rickettsia rickettsii, Rickttesia parkeri, R. felis e R. bellii nas áreas estudadas. A titulação obtida sugere infecção por R. rickettsii em gambás, cães, eqüinos e humanos e por R. parkeri em gambás, cães e eqüinos. R. felis e R. bellii foram isoladas e cultivadas com a utilização de células C6/36 e VERO, respectivamente. / Recent studies have showed the presence of Rickettsia felis, a spotted fever group Rickettsiae, in human blood with clinical signs compatible with spotted fever and in infected fleas. This work aims to determine the prevalence of R. felis in potential vectors (fleas and ticks) and reservoirs (opossums, dogs, cats, equines and humans) from endemic (Mogi das Cruzes, Pedreira, Piracicaba e São Paulo), and non-endemic (Pirassununga) areas for spotted fever in the State of São Paulo. Molecular probes (polimerase chain reaction and DNA sequencing), serologic diagnoses and cell culture were used. From trapped opossums (Didelphis aurita and Didelphis albiventris) a total of 312 fleas, belonging to Family Pulicidae (141), Rhopalopsyllidae (170) and Ctenophthalmidae (1) and 709 ticks (Amblyomma spp and Ixodes loricatus) were collected. On dogs a total of 212 fleas (Ctenocephalides felis felis) and 115 ticks (Amblyomma cajennense, Amblyomma aureolatum and Rhipicephalus sanguineus) were collected. On cats, 66 fleas (59 C. felis felis and 7 Rhopalopsyllus lutzi lutzi) and 10 ticks (R. sanguineus and Amblyomma spp) were collected. Blood samples were collected from 94 opossums, 55 dogs, 25 cats, 85 equines and 238 humans. Rickettsia felis was detected in 42-45,8% of the C. felis felis collected on opossums, dogs and cats. This same Rickettsia species was detected in 4% of Polygenis (N.) atopus fleas, and 1,8% and 0,7% of I. loricatus and Amblyomma spp ticks, respectively, collected from opossums. Rickettsia bellii was found in ticks I. loricatus (59,1%), A. dubitatum (8,7%) and Amblyomma spp (0,9%) and in a flea P. (N.) atopus (1%). No Rickettsia DNA was detected in animal or human blood samples. However antibodies against Rickettsia rickettsii, Rickettsia parkeri, R. felis and R. bellii were detected in all locations. The titers suggest infection by R. rickettsii in opossums, dogs, equines and humans and by R. parkeri in opossums, dogs and equines. R. felis and R. bellii were isolated and cultivated with the C6/36 and VERO cells, respectively.
3

Etude des relations entre arthropodes et rickettsia felis / Sudy of relationship between arthropods and rickettsia felis

Dieme, Constentin 24 November 2015 (has links)
La lutte anti-vectorielle est l’un des volets le plus important de l’entomologie médicale et nécessite une identification précise des vecteurs. Cette dernière décennie, la technique du MALDI-TOF MS a prouvé son potentiel comme outil rapide et efficace pour l'identification des arthropodes hématophages adultes. Dès lorsNous nous sommes intéressés à la mise au point d’un protocole d’identification des stades aquatiques de moustique par MALDI-TOF MS d’une part. D’autre part la détection d’un pathogène dans un arthropode n’implique pas forcement sa capacité à transmettre. L’incrimination d’un arthropode comme vecteur respecte certaines règles allant de la suspicion à la démonstration de sa compétence vectorielle au laboratoire. Afin de mieux comprendre l’épidémiologie de R. felis nous avons d’abord participé à une investigation conduite à l’Ile de la Réunion, en testant des puces, les seuls vecteurs biologiques connus jusqu’à présent. Ensuite Nous avons démontré le rôle potentiel des moustiques en particulier d’Anopheles gambiae à transmettre Rickettsia felis. Enfin nous avons utilisé le MALDI-TOF MS pour la détermination du statut infectieux d’Anopheles gambiae à R. felis. Nous proposons également un cycle probable de transmission de R. felis à l’homme incluant les psoques et les moustiques. / Vector control is one of the most important aspects of medical entomology and requires accurate identification of vectors. Within the past decade, the MALDI-TOF MS technique has proven its potential as a fast and effective tool for identification of adult blood-sucking arthropods. From then on we were interested in the development of an identification protocol of aquatic stages of mosquitoes by MALDI-TOF MS. On the other hand, the detection of a pathogen in an arthropod does not necessarily mean its ability to transmit. Incrimination of an arthropod as vector follows certain rules ranging from suspicion to demonstrate its vector competence in the laboratory. To better understand the epidemiology of R. felis we first participated in an investigation conducted in Reunion, testing fleas, the only biological vectors known to date. We demonstrated the potential role of the mosquito particularly Anopheles gambiae, in the transmission of R. felis. Finally, we used the MALDI-TOF MS for the determination of the Anopheles gambiae infection status to R. felis. We also offer a probable transmission cycle of R. felis to man including psocids and mosquitoes.
4

Evolution de l'épidémiologie et des critères diagnostiques du paludisme clinique à Dielmo de 1990 à 2010

Roucher, Clémentine 17 December 2012 (has links)
En Afrique tropicale, là où le paludisme est fortement endémique, la plupart des individus sont semi-immuns et les infections asymptomatiques sont très répandues. Ainsi la détection de parasites dans le sang de malades fébriles n'est pas un critère suffisant pour distinguer le paludisme des autres causes de fièvre. A Dielmo, un village du Sénégal d'environ 500 habitants en 2010, un suivi épidémiologique continu très étroit du paludisme a débuté en 1990. Dans ce village où la transmission est pérenne, la mise en place de moyens de lutte et de prévention contre le paludisme de plus en plus efficaces a profondément transformé l'épidémiologie du paludisme. Dans ce travail, nous analysons l'impact de ces interventions sur les prévalences parasitaires, les densités parasitaires et les critères diagnostiques du paludisme et nous mesurons l'évolution du paludisme clinique à Plasmodium falciparum, P. malariae et P. ovale de juin 1990 à décembre 2010. Les données parasitologiques et cliniques ont été analysées par régression logistique à effet aléatoire pour étudier la relation entre les densités parasitaires et le risque de fièvre. Les prévalences parasitaires des trois espèces plasmodiales ont considérablement diminué lors de l'abandon de la chloroquine en traitement de première ligne et de son remplacement par des combinaisons thérapeutiques, puis sont devenues presque nulles après la mise en place de moustiquaires imprégnées d'insecticides à longue durée d'action. Les seuils pyrogéniques calculés nous ont permis de mesurer la densité d'incidence des accès palustres et d'étudier l'impact des mesures de lutte sur la morbidité palustre dans la population. / In tropical Africa, where malaria is highly endemic, most people are semi-immune and asymptomatic infections are widespread. Thus, the detection of malaria parasites in the blood of febrile patients is not a sufficient criterion for distinguishing malaria from other causes of fever. In Dielmo, a Senegalese village of about 500 inhabitants in 2010, a very closely continuous epidemiological monitoring of malaria began in 1990. In this village where the transmission is perennial, the establishment of more effective means of control and prevention against malaria have profoundly changed the epidemiology of malaria. In this work, we analyze the impact of these interventions on the parasite prevalences, the parasite densities and the malaria diagnostic criteria and we measure the evolution of Plasmodium falciparum, P. malariae and P. ovale clinical malaria from June 1990 to December 2010 in Dielmo. Parasitological and clinical data are analyzed in a random effect logistic regression to investigate the relationship between parasite density and fever risk. The prevalence of the three Plasmodium species decreased dramatically with the abandonment of chloroquine as first line treatment and his replacing with the combination therapies and became almost zero after the introduction of long lasting insecticidal nets. Pyrogenic thresholds calculated enabled us to measure the incidence density of malaria and to study the impact of intervention methods on malaria morbidity in the population.
5

Spotted Fever Rickettsioses in Sweden : Aspects of Epidemiology, Clinical Manifestations and Co-infections

Lindblom, Anders January 2016 (has links)
The spotted fever group rickettsiae are emerging diseases. They cause damage in their hosts by invading the endothelium in small to medium-sized blood vessels, which results in vasculitis that can cause clinical manifestations from most organs. The present thesis describes the prevalence of Rickettsia helvetica in ticks, the incidence of rickettsial infection based on seroreactivity and seroconversion in humans and their symptoms, from different parts of Sweden and the Åland Islands in Finland. This was accomplished through serological analysis of both retrospective and prospective serum samples from confirmed and suspected tick-bitten individuals compared to individuals with no knowledge of tick exposure (blood donors). We found a comparable seroprevalence to Rickettsia spp. in different geographical areas where ticks are present; it was also comparable to the seroprevalence of Borrelia spp. Seroprevalence was also more common, as suspected, in the tick-exposed group compared to blood donors. In comparison with co-infections with other tick-borne infections (Anaplasma spp. and Borrelia spp.), we could conclude that co-infections do exist and that, based on clinical findings, it is difficult to distinguish which microorganism causes certain clinical manifestations. For reliable conclusions regarding the causative microorganism, the diagnosis should basically rely on diagnostic tests. In comparison with Borrelia spp., seroconversion to Rickettisa spp. was more common in the areas we investigated, indicating that rickettsiosis is a common tick-borne infection in Sweden and most likely underdiagnosed. When investigating patients with meningitis, we found R. felis in cerebrospinal fluid from two patients with subacute meningitis. This was the first report in which R. felis was found and diagnosed in patients in Sweden. The patients recovered without sequelae and without causal treatment. To provide guidelines on when to treat Rickettisa spp. infections, more investigations are needed. The present thesis shows that Rickettsia spp. are common in ticks and do infect humans. Rickettsial infection should be considered in both non-specific or specific symptoms after a tick bite. It was also shown in the thesis that flea-borne rickettsiosis (R. felis) occurs in Sweden and may cause invasive infections

Page generated in 0.0794 seconds