Rickettsial infection in animals and Brazilian spotted fever endemicity.We compared the rickettsial infection rickettsial infection Rickettsial disease, rickettsiosis Any infection by Rickettsiae Groups 1. Typhus group–epidemic typhus, Brill-Zinsser disease, murine–endemic typhus, scrub typhus; 2. status of Amblyomma cajennense ticks, humans, dogs, and horses in both Brazilian spotted fever spot·ted fever n. A tick typhus caused by Rickettsia rickettsii, such as Rocky Mountain spotted fever. spotted fever Rocky Mountain spotted fever, see there (BSF BSF B lymphocyte stimulatory factor. )-endemic and -nonendemic areas in the state of Silo silo, watertight and airtight structure for making and storing silage. Silos vary in form from a covered pit, such as was used by the early Romans, to the modern storage tower, dating from the 19th cent. Paulo, Brazil. Most of the horses and few dogs from BSF-endemic areas had serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. titers against Rickettsia rickettsii Rickettsia rick·ett·si·i n. A bacterium that causes a variety of spotted fevers throughout the world including Rocky Mountain spotted fever. antigens. In contrast, no dogs or horses from BSF-nonendemic areas had serologic titers against R. rickettsii antigens, although they were continually exposed to A. cajennense ticks. All human serum samples and ticks from both areas were negative by serologic assay and polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is , respectively. Our results indicate that surveys of horse serum are a useful method of BSF surveillance in areas where humans are exposed to A. cajennense ticks. In addition, we successfully performed experimental infection of A. cajennense ticks with R. parkeri. *********** Brazilian spotted fever (BSF) is an acute, febrile febrile /feb·rile/ (feb´ril) pertaining to or characterized by fever. feb·rile adj. Of, relating to, or characterized by fever; feverish. , tick-borne disease caused by the bacterium Rickettsia rickettsii. The disease is transmitted by Amblyomma ticks and has been considered endemic in some areas of the states of Sao Paulo, Minas Gerais, Rio de Janeiro Rio de Janeiro, city, Brazil Rio de Janeiro (rē`ō də zhänā`rō, Port. rē`  thĭ zhənĕē`r , and
Espirito Santo (1-7). Although the tick species Amblyomma aureolatum is
the main vector of BSF in few areas of the state of Sao Paulo (8, A.
Pinter, unpub data), A. cajennense is the most common tick vector
associated with the disease in Brazil (9-11).A. cajennense is a common tick in rural areas of the state of Silo Paulo, where it is also the main tick species infesting humans (12,13). In contrast, BSF cases have been reported at only a few locations within the geographic range of this tick species (14). Although unreported cases may have occurred in other areas where BSF is not known to be endemic, this possibility is unlikely for such a highly lethal disease. Ecologic differences might be the main factor regulating the occurrence of R. rickettsii among ticks and, consequently, the occurrence of the disease. The infection rate by R. ricketlsii within a tick population can be diminished or even suppressed when a second Rickettsia rickettsia (rĭkĕt`sēə), any of a group of very small microorganisms, many disease-causing, that live in vertebrates and are transmitted by bloodsucking parasitic arthropods such as fleas, lice (see louse), and ticks. species infects most of the members of that tick population (15,16). Thus, we hypothesize hy·poth·e·size v. hy·poth·e·sized, hy·poth·e·siz·ing, hy·poth·e·siz·es v.tr. To assert as a hypothesis. v.intr. To form a hypothesis. that the absence of human cases of BSF in some areas of the state of Sao Paulo (where human parasitism parasitism: see parasite. parasitism Relationship between two species in which one benefits at the expense of the other. Ectoparasites live on the body surface of the host; endoparasites live in their hosts' organs, tissues, or cells and often rely by A. cajennense is intense) is related to the presence of other, less pathogenic Rickettsia species infecting A. cajennense tick populations. In this regard, our study evaluated the rickettsial infection status of A. cajennense populations from both BSF-endemic and -nonendemic areas in the state of Sao Paulo. We also serologically evaluated humans and domestic animals from these BSF-nonendemic areas to compare it to a recent evaluation that we performed in BSF-endemic areas (17). Materials and Methods Study Area The study was conducted on 6 farms in the state of Sao Paulo. Three of these farms (farms 1, 2, and 3) were considered endemic for BSF because of the recent occurrence of several laboratory-confirmed human cases of the disease among residents (4,14). These farms were the same ones evaluated in a study of Horta et al. (17). The remaining 3 farms (4, 5, and 6) were considered nonendemic for BSF because they had never had human cases of this disease. However, A. cajennense ticks were abundant there, and human infestation infestation /in·fes·ta·tion/ (-fes-ta´shun) parasitic attack or subsistence on the skin and/or its appendages, as by insects, mites, or ticks; sometimes used to denote parasitic invasion of the organs and tissues, as by helminths. by this tick was a normal finding year-round among farm residents. Farms 1 (22[degrees]44'19"S, 46[degrees]55'27"W), 2 (22[degrees]47'03"S, 46[degrees]54'10"W) and 3 (22[degrees]41'14"S, 46[degrees]53'17"W) were located in the Pedreira Municipality whereas farms 4 (23[degrees]23'15"S, 47[degrees]26'14"W), 5 (23[degrees]36'43"S, 46[degrees]57'29"W), and 6 (21[degrees]57'07"S, 47[degrees]27'05"W) were located in Porto Feliz, Cotia, and Pirassununga Municipalities, respectively. In all 6 farms, human occupations were basically divided between livestock-raising activities for men and household activities for women and children. Nevertheless, children spent substantial time in outdoor activities. All 6 farms had horses grazing on mixed overgrowth overgrowth Rapid growth in the sales of a mutual fund's shares to the extent that the fund has difficulty finding promising new investments or it must take such large positions in individual investments that its trading flexibility is reduced. pastures, interspersed with remote forest areas. However, the major ecologic difference was large populations of free-living capybaras that inhabited livestock pastures on farms 1, 2, and 3 and the absence of this animal from horse pastures on farms 4, 5, and 6. All farms, except farm 4, had free-roaming dogs with free access to pasture and forest areas. Recent studies on ticks collected on the pastures and on horses and dogs from these 6 farms allowed the tick species A. cajennense and Dermacentor nitens to be identified on the 6 farms. In addition, the capybara capybara (kăpĭbâr`ə), mammal of Central and much of South America. It is the largest living member of the order Rodentia (the rodents) reaching a length of 4 ft (120 cm) and a weight of 75 to 100 lb (34–45 kg). tick, A. cooperi, was present on farms 1, 2, and 3 but absent in the pastures of farms 4, 5, and 6 (13,17-19). Human infestation by Amblyomma ticks was frequent on all the farms. Ticks From December 2000 to March 2001, free-living A. cajennense adult ticks were collected from horse pastures of the 6 farms by dragging and by using C[O.sub.2] traps. Totals of ticks collected from the farms are as follows: farm 1 (244), farm 2 (353), farm 3 (213), farm 4 (222), farm 5 (206), and farm 6 (230). All ticks were brought alive to the laboratory, where their surfaces were disinfected Disinfected Decreased the number of microorganisms on or in an object. Mentioned in: Isolation by immersion in 70% alcohol for 10 min followed by washing in sterile water; they were then individually tested by the hemolymph hemolymph /he·mo·lymph/ (he´mo-limf?) 1. blood and lymph. 2. the bloodlike fluid of those invertebrates having open blood-vascular systems. he·mo·lymph n. test (20). Briefly, a drop of hemolymph of each tick was dried on a glass slide and stained by the Gimenez method (21). Thereafter, ticks were frozen at -80[degrees] C until processed for DNA extraction. DNA Extraction All ticks were processed individually for DNA extraction. Each tick was cut into 2 symmetric halves through its median axis. One half was returned to the -80[degrees]C freezer for further studies, and the other half was used for DNA extraction according to a modification of a previously described protocol (22). For this purpose, each tick half was placed in a 1.5-mL microtube containing 150 [micro]L of TE buffer (Tris HCl 10 mmol/L, EDTA EDTA: see chelating agents. 1 mmol/L, pH 7.4) and homogenized ho·mog·e·nize v. ho·mog·e·nized, ho·mog·e·niz·ing, ho·mog·e·niz·es v.tr. 1. To make homogeneous. 2. a. To reduce to particles and disperse throughout a fluid. b. by using a sterile micropestle. Microtubes containing the homogenized, triturated ticks were then vortexed vigorously. Next, 450 [micro]L of guanidine guanidine /gua·ni·dine/ (gwah´ni-den) the compound NHdbondC(NH2)2, a strong base found in the urine as a result of protein metabolism and used in the laboratory as a protein denaturant. thiocyanate thiocyanate /thio·cy·a·nate/ (-si´ah-nat) a salt analogous in composition to a cyanate, but containing sulfur instead of oxygen. (5 mol/L) were added to the tube, which was vortexed again and incubated for 10 min at room temperature with short vortexing every 2 min. Thereafter, 100 [micro]L of chloroform chloroform (klôr`əfôrm) or trichloromethane (trī'klôrōmĕth`ān), CHCl3 was added to the tube, which was inverted inverted reverse in position, direction or order. inverted L block a pattern of local filtration anesthesia commonly used in laparotomy in the ox. several times and left resting for 2 min. The tube was centrifuged at 12,000 x g for 5 min to separate the aqueous phase, which was transferred to a clean 1.5-mL microtube. Next, 600 [micro]L of isopropanol isopropanol, isopropyl alcohol, or 2-propanol (ī'səprō`pənōl, ī'səprō`pĭl), (CH3)2CHOH, a colorless liquid that is miscible with water. was added to the aqueous phase (400 [micro]L), which was homogenized by inverting the tube several times and then incubated at -20[degrees]C for 2 to 18 h. Thereafter, the tube was centrifuged at 12,000 x g for 15 min; the supernatant supernatant /su·per·na·tant/ (-na´tant) the liquid lying above a layer of precipitated insoluble material. supernatant the liquid lying above a layer of precipitated insoluble material. was discarded, and the pellet was dried at room temperature and then resuspended with 30 [micro]L of buffer TE. Finally, the microtubes were incubated at 56[degrees]C for 15 min to facilitate DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. homogenization homogenization (həmŏj'ənəzā`shən), process in which a mixture is made uniform throughout. Generally this procedure involves reducing the size of the particles of one component of the mixture and dispersing them evenly and then stored at 20[degrees]C until tested by polymerase chain reaction (PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ). PCR Five microliters of the extracted DNA from tick specimen was used as template for amplification of fragments of the rickettsial rickettsial /rick·ett·si·al/ (ri-ket´se-al) pertaining to or caused by rickettsiae. rick·ett·si·al adj. Relating to, or caused by a member of the genus Rickettsia. gltA (citrate synthase gene) and 17-kDa protein gene. A 381-bp portion of the Rickettsia gltA gene was targeted from each extracted tick DNA by using primers RPCS RPCS Refined Printing Command Stream (Ricoh) RPCS Refined Print Command Stream (Ricoh USA) RPCS Registration and Product Control System RPCS Reactor Primary Coolant System .877 and RpCS.1258n (23), and a 434-bp portion of the Rickettsia genus-specific 17-kDa protein gene was targeted as previously described (24). Ten microliters of the PeR product underwent electrophoresis in 1.5% agarose agarose more highly purified form of agar with similar uses to agar and widely used in the separation of nucleic acid fragments. gel, stained with ethidium bromide, and examined with UV transillumination transillumination /trans·il·lu·mi·na·tion/ (trans?i-loo?mi-na´shun) the passage of strong light through a body structure, to permit inspection by an observer on the opposite side. . For the 10 individual ticks that were tested by PCR, a negative control (5 [micro]L of water) and positive control (5 [micrco]L of DNA extracted from an A. cajennense tick experimentally infected with R. parkeri) were included. Procedures to obtain R. parkeri experimentally infected ticks are described below. PCR results were statistically analyzed by the program @Risk Software--Risk Analysis Add-in for Microsoft Excel (Palisade Corporation, Newfield, NY, USA), which adopted Monte Carlo techniques to determine the confidence level of the prevalence of ticks infected by Rickettsia in each tick population (farm), considering [alpha] = 0.05. R. parkeri Experimentally Infected Ticks Purified R. parkeri organisms (Maculatum strain) were obtained by the renografin purification method from infected Vero cells (25). The resultant purified rickettsiae were resuspended in sucrose-phosphate-glutamic acid buffer and stored frozen at -80[degrees]C until tick infection. Seventy adult specimens of A. cajennense were obtained from the third generation of our laboratory colony at the University of Sao Paulo. This colony was established 15 months earlier from engorged en·gorge v. en·gorged, en·gorg·ing, en·gorg·es v.tr. 1. To devour greedily. 2. To gorge; glut. 3. To fill to excess, as with blood or other fluid. v.intr. females collected on horses on farm 6 of the present study. Adult ticks had their dorsum dorsum /dor·sum/ (dor´sum) pl. dor´sa [L.] 1. the back. 2. the aspect of an anatomical structure or part corresponding in position to the back; posterior in the human. attached to double-face adhesive tape, which was taped onto petri dishes. Purified stock of R. parkeri was thawed at room temperature, and each tick was injected by using a 28-gauge microfine insulin needle. Under a stereoscopic microscope, a small drop ([approximately equal to] 2 [micro]L) of R. parkeri suspension was injected into the coelom coelom (sē`ləm), fluid-filled body cavity, found in animals, which is lined by cells derived from mesoderm tissue in the embryo, and which provides for free, lubricated motion of the viscera. of the tick, through the articulation of coxa coxa (kok´sah) [L.] 1. hip. 2. hip joint. coxa mag´na broadening of the head and neck of the femur. IV with trochanter trochanter /tro·chan·ter/ (tro-kan´ter) a broad, flat process on the femur, at the upper end of its lateral surface (greater t.), or a short conical process on the posterior border of the base of its neck (lesser t.) . IV, in each of 50 adult ticks. A control group of 20 ticks were injected by the same procedure with phosphate-buffered saline (PBS PBS in full Public Broadcasting Service Private, nonprofit U.S. corporation of public television stations. PBS provides its member stations, which are supported by public funds and private contributions rather than by commercials, with educational, cultural, ). Ticks were removed from the adhesive tape and held in an incubator at 35[degrees]C and relative humidity >95% for 5 days. Ticks were tested by the hemolymph test as described above, at days 3 and 5 after infection. Thereafter, ticks were frozen at -80[degrees]C. DNA of hemolymph-positive ticks was extracted, as described above, to be used as positive control for our PCR assays. A sample of 10 PBS-injected ticks were also tested by the PCR method described above. Domestic Animals and Humans During our visit to farms 1 to 6, blood samples were collected from 100% of the dogs and horses on each farm and [approximately equal to] 90% of the resident humans. Blood samples were transported at room temperature to the laboratory, where samples were centrifuged (1,500 x g, 10 min), and the sera were aliquoted into labeled microtubes and stored at -20[degrees]C until tested by the indirect immunofluorescence assay (IFA Immunofluorescent assay (IFA) A blood test sometimes used to confirm ELISA results instead of using the Western blotting. In an IFA test, HIV antigen is mixed with a fluorescent compound and then with a sample of the patient's blood. ) with R. rickettsii antigen, as described (17). The serologic results of farms 1 to 3 have been reported by Horta et al. (17) and will be compared with our results for farms 4 to 6. Collection of animal and human samples was previously approved by ethical principles in animal and human research of the University of Sao Paulo. Results Field Ticks A total of 1,468 A. cajennense adult ticks (810 from disease-endemic and 658 from disease-nonendemic areas) were tested by the hemolymph test. They were all negative. These same ticks were also negative by the PCR protocols targeting the rickettsial genes gltA and 17-kDa protein. In all PCR assays, DNA of A. cajennense ticks experimentally infected with R. parkeri (positive controls) yielded the expected bands whereas no bands were obtained for the negative controls. Our results, after being analyzed by the Monte Carlo techniques, are that on farm 5, where 206 ticks (our smallest sample) were tested, the prevalence of A. cajennense ticks infected by Rickettsia was at most 1.43% (upper limit of 95% confidence interval). If the prevalence was higher than this value, infection in at least 1 tick would have been detected by our PCR. Similarly, in farm 2, where 353 ticks were tested (our largest sample), the prevalence of ticks infected by Rickettsia was at most 0.8% (upper limit of 95% confidence interval). Overall, these analyses indicated that the prevalence of rickettsial infection on the 6 farms was no more than 0.8%-1.43%. As we used Rickettsia genus specific primers in the PCR, this infection could be due to any Rickettsia species. Ticks Experimentally Infected with R. parkeri Of 50 ticks infected with R. parkeri, 10 (20%) showed typical Rickettsia-like organisms within the hemocytes 3 days after injection. On day 5, the number of ticks showing typical Rickettsia-like organisms in their hemocytes increased to 28 (56%). None of the 20 ticks injected with PBS showed Rickettsia-like organisms in their hemolymph 3 or 5 days after injection. All 28 hemolymph-positive ticks yielded expected bands in both PCR protocols (gltA and 17-kDa protein) whereas no PBS-injected ticks yielded amplified DNA bands. Serologic Assays Serum samples were collected from horses, dogs, and humans from the 6 farms, as shown in the Table. From the BSF-nonendemic areas (farms 4-6), no sample from a dog, horse, or human reacted positively with R. rickettsii antigens. The serologic results for the BSF-endemic areas (farms 1-3) were reported by Horta et al. (17). The proportion of horses that reacted positively with R. rickettsii antigens (titer [greater than or equal to] 64) varied from 57.1% to 80%; for dogs, these proportions varied from 0% to 66.7%. Like farms 4-6, no human serum sample from farms 1 to 3 reacted positively with R. rickettsii antigens. Discussion Our study evaluated A. cajennense ticks in BSF-endemic and -nonendemic areas in the state of Sao Paulo. In addition, we serologically evaluated domestic animals and humans from BSF-nonendemic areas and compared the results with a previous serologic evaluation in BSF-endemic areas (17). Our results for the nonendemic areas showed no evidence of a pathogenic Rickettsia species circulating in A. cajennense ticks in farms 4 to 6, since all animals, humans, and ticks were negative. In contrast, Horta et al. (17) showed serologic evidence of R. rickettsii infection by cross-absorption and IFA analyses in most of the horses and some dogs in the 3 BSF-endemic areas (farms 1-3), a finding that is supported by the recent occurrence of human BSF cases in those farms. The serologic reactivity of horses, dogs, and humans to R. rickettsii antigen in BSF-endemic areas where A. cajennense is the main vector is characterized by a high frequency of serologically positive horses, followed by a lower frequency in dogs, and an even lower frequency or absence of serologically positive humans (17). This pattern has been observed in several BSF-endemic areas in which A. cajennense has been incriminated as the vector (3,17,26,27). The absence of serologic reactivity among the human residents whom we tested is supported by their lack of history of the disease; previous cases reported in this area were lethal or if not, the survivors do not live in the BSF-endemic area anymore. Horses are one of the most important hosts for A. cajennense in the state of Sao Paulo; both immature and adult ticks will successfully feed on this animal (18). This fact makes the horse an excellent sentinel for BSF surveillance. Once the A. cajennense population increases in an area, parasitic stages will have a greater chance to successfully feed on other host species, including dogs and humans. As dogs are naturally infested in·fest tr.v. in·fest·ed, in·fest·ing, in·fests 1. To inhabit or overrun in numbers or quantities large enough to be harmful, threatening, or obnoxious: with ticks more frequently than humans, they are also a good sentinel for BSF surveillance. Results of our study support this statement because our serologic survey of horses and dogs from 3 areas, where no BSF case has been reported, indicated that neither R. rickettsii nor a closely related species circulated in the local A. cajennense ticks. Thus, we recommend surveys of horse sera as a useful method for BSF surveillance in areas where humans are exposed to A. cajennense ticks. This procedure would allow potentially BSF-endemic areas to be identified before human cases occur. We failed to detect any rickettsial DNA in the field-collected A. cajennense ticks. Although this result is supported by the serologic results in the BSF-nonendemic areas, it was not expected for the BSF-endemic areas, where infection by R. rickettsii in horses and dogs has been indirectly proven by serologic cross-absorption methods (17). Finding R. rickettsii-infected ticks in spotted fever-endemic areas can be difficult. In North Carolina, a U.S. state with a high incidence of Rocky Mountain spotted fever Rocky Mountain spotted fever, infectious disease caused by a rickettsia. The germ is harbored by wild rodents and other animals and is carried by infected ticks that attach themselves to humans. (caused by R. rickettsii), only 1 of 2,123 Dermacentor variabilis ticks studied was infected by R. rickettsii (15). Thus, further studies in Sao Paulo should encompass a much larger number of A. cajennense ticks. The major ecologic differences between the BSF-endemic and -nonendemic areas of our study were the presence of capybaras and their main tick species (A. cooperi), found solely in the BSF-endemic areas. In a recent survey of rickettsiae in A. cooperi ticks collected on farms 1, 2, and 3 (19), 2 rickettsiae were isolated from these ticks: R. bellii and a Rickettsia species (strain COOPERI) closely related to R. parkeri and R. africae. Similar to the present study, no R. rickettsii was found infecting A. cooperi ticks. Burgdorfer et al. (16) found that high infection rates (up to 80%) by a less pathogenic rickettsia were the limiting factor for establishing R. rickettsii in the D. andersoni tick population of the east side of the Bitterroot Valley in Montana, USA. On the west side of this valley, where 8%-16% of the ticks were infected by the less pathogenic rickettsia, disease caused by R. rickettsii was endemic. Based on these observations, the results of our study suggest that unknown factors other than the presence of different Rickettsia species are responsible for the absence of a pathogenic spotted fever group rickettsia's infection of populations of A. cajennense populations in farms 4, 5, and to 6 (BSF-nonendemic areas). In a recent study performed in our laboratory (A. Pinter and M.B. Labruna, unpub, data) R. rickettsii was detected in 6 (0.89%) of 669 A. aureolatum adult ticks by using the same PCR protocols as the present study. These ticks were collected in a different BSF-endemic area, in which A. aureolatum is the main vector of the disease. As our results showed that the highest predictable infection rate of R. rickettsii in the A. cajennense population of farm 3 (where 353 ticks were tested) was 0.8%, we might have found a R. rickettsii-infected A. cajennense tick if we had tested a larger sample of ticks from that farm. Even though recent studies have failed to detect or isolate R. rickettsii from A. cajennense ticks in Brazil, earlier studies detected it efficiently in the states of Sao Paulo (28) and Minas Gerais (9,10), as well as in Colombia (29), Mexico (30), and Panama (31). Our study showed that R. parkeri could experimentally infect A. cajennense ticks. A previous, more extensive, study showed that A. americanum ticks experimentally infected with R. parkeri were able to maintain this infection for 2 generations and were able to transmit it to guinea pigs through tick feeding (32). Natural infection of ticks by this agent has been reported in A. maculatum (33) and A. triste triste adj. Sad; wistful. [Middle English, from Old French, from Latin tristis.] triste Adjective Old-fashioned sad [French] (34). The Rickettsia species (strain COOPERI), found to be infecting A. cooperi ticks in Silo Paulo state (19), seems to be another strain of R. parkeri or a closely related species. These results show that R. parkeri can infect different Amblyomma species under experimental or natural conditions. The potential role of A. cajennense to transmit R. parkeri in nature requires further investigation, especially since R. parkeri was recently shown to be pathogenic for humans (35).
Table. Results of indirect immunofluorescence assay for antibodies
to Rickettsia rickettsii in humans and domestic animals from 3
BSF-endemic areas (farms 1-3) * and 3 BSF-nonendemic areas
(farms 4-6), Sao Paulo, Brazil ([dagger])
Reactive sera ([double dagger])/
total sera tested (% reactive)
Source Farm 1 Farm 2 Farm 3
Humans 0/20 (0) 0/21 (0) 0/9 (0)
Horses 9/10 (90) 4/7 (57.1) 4/5 (80)
Dogs 1/4( 25) 4/6 (66.7) 0/6 (0)
Reactive sera ([double daggger])/
total sera tested (% reactive)
Source Farm 4 Farm 5 Farm 6
Humans 0/4 (0) 0/2 (0) 0/10 (0)
Horses 0/16 (0) 0/10 (0) 0/21 (0)
Dogs No dogs 0/4 (0) 0/1 (0)
* Data from Horta et al. (17).
([dagger]) BSF, Brazilian spotted fever.
([double dagger]) Sera showing titers [greater than or equal to]
64 for R. rickettsii antigen.
Acknowledgments We are grateful to the owners of farms 1-6 for making our study possible and to David H. Walker for providing IFA slides and the R. parkeri-purified stock. This work was supported by the Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (grant 00/02711-1 to S.M.G.) and performed at the Faculty of Veterinary Medicine, University of Sao Paulo, Sao Paulo, Sao Paulo, under the coordination of M.B. Labruna. Dr. Sangioni is a professor of veterinary parasitology at the Veterinary School of the Centro Integrado de Ensino Superior at Campo Mourao, Brazil. His research interests have focused on the ecology of tickborne diseases. References (1.) Goncalves AJR AJR American Journal of Roentgenology AJR American Journalism Review AJR Academy for Jewish Religion AJR Association of Jewish Refugees (UK organization) AJR Accelerated Junctional Rhythm , Lopes PFA PFA Pacific Film Archive PFA Professional Footballers Association PFA Paraformaldehyde PFA Predictive Failure Analysis PFA Perfluoroalkoxy PFA Protection From Abuse PFA Parent-Faculty Association PFA Popular Flying Association , Melo JCP See Java Community Process. JCP - Java Community Process , Pereira AA, Pinto AMM AMM Autorisation de Mise sur le Marche (French) AMM Autorisation de Mise sur le Marché (French: Commission of Marketing Authorization) AMM ASEAN Ministerial Meeting AMM American Metal Market , Lazera MS, et al. Rickettsioses Rickettsioses Often severe infectious diseases caused by several diverse and specialized bacteria, the rickettsiae and rickettsia-like organisms. The best-known rickettsial diseases infect humans and are usually transmitted by parasitic arthropod vectors. . A proposito de quatro casos diagnosticados no Rio de Janeiro de febre amculosa barsileira. Folha Medica medica (māˑ·dē·k . 1981;82:127-34. (2.) Sexton DJ, Muniz M, Corey GR, Breitschwerdt EB, Hegarty BC, Dumler S, et al. Brazilian spotted fever in Espirito Santo, Brazil: description of a focus of infection in a new endemic region. Am J Trop Med Hyg. 1993;49:222-6. (3.) Lemos ERS ERS, n.pr See extended rotated side-bent. , Machado RD, Coura JR. Rocky Mountain spotted fever in an endemic area in Minas Gerais, Brazil. Mem Inst Oswaldo Cruz. 1994;89:497-501. (4.) Lemos ER, Alvarenga FB, Cintra ML, Ramos MC, Paddock CD, Ferebee TL, et al. Spotted fever in Brazil: a seroepidemiological study and description of clinical cases in an endemic area in the state of Sao Paulo. Am J Trop Med Hyg. 2001;65:329-34. (5.) Lemos ER, Rozental T, Villela CL. Brazilian spotted fever: description of a fatal clinical case in the State of Rio de Janeiro. Rev Soc Bras Med Trop. 2002;35:523-5. (6.) Galvao MA, Lamounier JA, Bonomo E, Tropia MS, Rezende EG, Calic SB, et al. Rickettsioses emergentes e reemergentes numa regiao endemica do estado de Minas Gerais, Brazil. Cad Saude Publica. 2002;18:1593-7. (7.) Galvao MA, Calic SB, Chamone CB, Mafra SCL (1) (Switch-to-Computer Link) Refers to applications that integrate the computer through the PBX. See switch-to-computer. (2) A file extension used for ColoRIX bitmapped graphics file format (640x400 256 colors). (language) SCL - 1. , Cesarino Filho G, Olano JP, et al. Spotted fever rickettsiosis rickettsiosis /rick·ett·si·o·sis/ (ri-ket?se-o´sis) infection with rickettsiae. rick·ett·si·o·sis n. Infection with Rickettsia bacteria. in Coronel Fabriciano, Minas Gerais State. Rev Soc Bras Med Trop. 2003;36:479-81. (8.) Gomes LS. Thypho exanthematico de Sao Paulo. Brasil Medico. 1933;17(52):919-21. (9.) Moreira JA, Magalhaes O. Thypho exanthematico em Minas Gerais. Brasil Medico. 1935;44:465-70. (10.) Dias E, Martins A, Ribeiro DJ. Thypho exanthematico no Oeste de Minas Gerais. Brasil Medico. 1937;51:651-5. (11.) Lima VLC VLC VideoLAN Client VLC Variable Length Coding VLC Very Low Cost VLC Visual Logic Controller VLC Valencia, Spain - Valencia (Airport Code) VLC Virtual Learning Collaborative VLC Variable Length Codeword VLC Very Low Clearance , Figueiredo AC, Pignatti MG, Modolo M. 1995. Febre maculosa no municipio de Pedreira, Estado de Sao Paulo, Brasil: Relacao entre ocorrencia de casos e parasitismo humano por ixodideos. Rev Soc Bras Med Trop. 1995;28:135-7. (12.) Guimaraes JH, Tucci EC, Barros-Battesti DM. Ectoparasitos de importancia veterinaria. Sao Paulo: Editora Pleiade; 2001. (13.) Labruna MB, Kerber CE, Ferreira F, Faccini JLH JLH Jennifer Love-Hewitt JLH Junior League of Honolulu JLH Junior League of Houston JLH Junior League of Hartford JLH Junior League of Huntsville JLH Junior League of Harrisburg , De Waal DT, Gennari SM. Risk factors to tick infestations and their occurrence on horses in the State of Sao Paulo, Brazil. Vet Parasitol. 2001;97:1-14. (14.) Lima VL, Souza SS, Souza CE, Vilela MF, Papaiordanou PM, Del Guercio VM, et al. Situacao da febre maculosa na regiao administrativa de Campinas, Sao Paulo, Brasil. Cad Saude Publica. 2003;19:331-4. (15.) Burgdorfer W. Ecological and epidemiological considerations of Rocky Mountain spotted fever and scrub typhus. In: Walker DH, editor. Biology of rickettsial diseases. Vol. 1. Boca Raton (FL): CRC (Cyclical Redundancy Checking) An error checking technique used to ensure the accuracy of transmitting digital data. The transmitted messages are divided into predetermined lengths which, used as dividends, are divided by a fixed divisor. Inc.; 1988. p. 33-50. (16.) Burgdorfer W, Hayes SF, Mavros AJ. Nonpathogenic rickettsiae in Dermacentor andersoni: a limiting factor for the distribution of Rickettsia rickettsii. In: Burgdorfer W, Anacker RL, editors. Rickettsiae and rickettsial diseases. New York: Academic Press; 1981. p.585-94. (17.) Horta MC, Labruna MB, Sangioni LA, Vianna MCB (Memory Control Block) An identifier (16 bytes) that DOS places in front of each block of memory it allocates. , Gennari MS, Galvao MAM, et al. Prevalence of antibodies to spotted fever group rickettsiae in humans and domestic animals in a Brazilian Spotted fever endemic area in the state of Sao Paulo, Brazil: serological serological pertaining to or emanating from serology. serological test one involving examination of blood serum usually for antibody. evidence for infection by Rickettsia rickettsii and another spotted fever group rickettsia. Am J Trop Med Hyg. 2004;71:93-7. (18.) Labruna MB, Kasai N, Ferreira F, Faceini JLH, Gennari SM. Seasonal dynamics of ticks (Acari: Ixodidae) on horses in the state of Sao Paulo, Brazil. Vet Parasitol. 2002;105:65-72. (19.) Labruna MB, Whitworth T, Horta MC, Bouyer DH, McBride JW, Pinter A, et al. Rickettsia species infecting Amblyomma cooperi ticks from an endemic area for Brazilian spotted fever in the state of Sao Paulo, Brazil. J Clin Microbiol. 2004;42:90-8. (20.) Burgdorfer W. The hemolymph test. Am J Trop Med Hyg. 1970;19:1010-4. (21.) Gimemez DF. Staining rickettsiae in yolk-sac cultures. Stain Technology. 1964;39:135-40. (22.) Chomkzynski P. A reagent for the single-step simultaneous isolation of RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic , DNA and proteins from cell and tissue samples. Biotechniques. 1993;15:532-7. (23.) Regnery RL, Spruill CL, Plikaytis BD. Genotypic identification of rickettsiae and estimation of intraspecies in·tra·spe·cif·ic also in·tra·spe·cies adj. Arising or occurring within a species: intraspecific competition. Adj. 1. sequence divergence for portions of two rickettsial genes. J Bacteriol. 1991;173:1576-89. (24.) Webb L, Carl M, Malloy DC, Dasch GA, Azad AF. Detection of murine typhus infection in fleas by using the polymerase chain reaction. J Clin Microbiol. 1990;28:530-4. (25.) Hanson BA, Wisseman CL Jr, Waddell A, Silverman DJ. Some characteristics of heavy and light bands of Rickettsia prowazekii on Renografin gradients. Infect Immun. 1981;34:596-604. (26.) Lemos ERS, Machado RD, Coura JR, Guimaraes MAA MAA abbr. macroaggregated albumin , Chagas N. Epidemiological aspects of the Brazilian spotted fever: serological survey of dogs See See also: Survey and horses in an endemic area in the state of Sao Paulo, Brazil. Rev Inst Med Trop de Sao Paulo. 1996;38:427-30. (27.) Galvao MAM. Febre maculosa em Minas Gerais: um estudo sobre a distribuicao da doenca no Estado e seu comportamento em area de foco peri-urbano [Doctoral thesis]. Belo Horizonte: Faculdade de Medicina da UFMG UFMG Universidade Federal de Minas Gerais ; 1996. p. 114. (28.) Vallejo-Freire A. Spotted fever in Mexico. Memorias doInstituto Butantan. 1946; 19:159-80. (29.) Patino-Camargo L. Nuevas observaciones sobre un tercer foco de fiebre petequial (maculosa) en el hemisferio americano. Bol Oficina Sanit Panam. 1941;20:1112-4. (30.) Bustamante ME, Varela G. Estudios de fiebre manchada en Mexico. Hallazgo del Amblyomma cajennense naturalmente infectado, en Veracruz. Rev Inst Salubr Enferm Trop. 1946;7:75-8. (31.) Rodaniche EC. Natural infection of the tick Amblyomma cajennense with Rickettsia rickettsii in Panama. Am J Trop Med Hyg. 1953;2:696-9. (32.) Goddard J. Experimental infection of lone star ticks, Amblyomma americanum (L.), with Rickettsia parkeri and exposure of guinea pigs to the agent. J Med Entomol. 2003;40:686-9. (33.) Lackman D, Parker R, Geloff R. Serological characteristics of a pathogenic rickettsia occuring in Amblyomma maculatum. Public Health Rep. 1949;64:1342-9. 34. Venzal JM, Portillo A, Estrada-Pena A, Castro O, Cabrera PA, Oteo JA. Rickettsia parkeri in Amblyomma triste from Uruguay. Emerg Infect Dis. 2004:10:1493-5. (35.) Paddock CD, Sumner JW, Comer JA, Zaki SR, Goldsmith CS, Goddard J, et al. Rickettsia parkeri: a newly recognized cause of spotted fever rickettsiosis in the United States. Clin Infect Dis 2004;38:15-21. Address for correspondence: Marcelo B. Labruna, Departamento de Medicina Veterinaria Preventiva e Saude Animal, Faculdade de Medicina Veterinaria e Zootecnia, Universidade de Sao Paulo, Sao Paulo, SP, Brazil 05508-000; fax: 55-11-3091 7928: email: labruna@usp.br Luis A. Sangioni, * ([dagger]) Mauricio C. Horta, * Manoella C.B. Vianna, * Solange M. Gennari, * Rodrigo M. Soares, * Marcio A.M. Galvao, ([double dagger]) Teresinha T.S. Schumaker, * Fernando Ferreira, * Odilon Vidotto, ([section]) and Marcelo B. Labruna * * University of Sao Paulo, Sao Paulo, Sao Paulo, Brazil; ([dagger]) Centro Integrado de Ensino Superior--Campus Universitarie, Campo Mourao, Parana Brazil; ([double dagger]) Federal University of Ouro Preto, Ouro Preto, Minas Gerais, Brazil; and ([section] Londrina State University, Londrina, Parana, Brazil |
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