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Borreliosis

Lyme disease or Lyme borreliosis is an infectious tick-borne disease, caused by the Borrelia spirochete, a gram-negative microorganism. more...

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Lyme disease is so named because it is generally believed to have first been observed in and around Old Lyme and Lyme, Connecticut in 1975. Before 1975, elements of Borrelia infection were also known as "tick-borne meningopolyneuritis", Garin-Bujadoux syndrome, Bannwarth syndrome or sheep tick fever. It is transmitted to humans by the bite of infected ticks.

History

The disease was first documented as a skin rash in Europe in 1883. Over the years, researchers there identified additional features of the disease, including an unidentified pathogen, its response to penicillin, the role of the Ixodes tick (wood tick) as its vector, and symptoms that included not only the rash but additional ones that affected the nervous system.

Researchers in the US had been aware of tick infections since the early 1900s. For example, an infection called tick relapsing fever was reported in 1905, and the wood tick, which carries an agent that causes Rocky Mountain spotted fever, was identified soon after. However, the full syndrome now known as Lyme disease, was not identified until a cluster of cases thought to be juvenile rheumatoid arthritis occurred in three towns in southeastern Connecticut, in the United States. Two of these towns, Lyme and Old Lyme, gave the disease its popular name.

In 1982 a novel spirochete was isolated and cultured from the midgut of Ixodes ticks, and subsequently from patients with Lyme disease. The infecting agent was first identified by Jorge Benach, and soon after isolated by Willy Burgdorfer, a scientist at the National Institutes of Health who specialized in the study of spirochete microorganisms. The spirochete was named Borrelia burgdorferi in his honor. Burgdorfer was the partner in the successful effort to culture the spirochete, along with Alan Barbour.

Microbiology

The disease is caused by the parasite Borrelia, which has well over three hundred known genomic strains but is usually cultured as Borrelia burgdorferi, Borrelia afzelii or Borellia garinii. Different Borrelia strains are predominant in Europe and North America.

The disease has been found to be transmitted to humans by the bite of infected Ixodes ticks. Not all ticks carry or can transmit this particular disease. The disease may also, in a few cases, be transmitted by mosquitoes, fleas or blackflies. However, other Borrelia strains (e.g. B. garinii) are probably transmitted this way.

Other tick-borne infections may be transmitted simultaneously with Lyme, including Bartonella, Babesiosis, Ehrlichiosis, and Rickettsia.

Borrelia burgdorferi resembles other spirochetes in that it is a highly specialized, motile, two-membrane, spiral-shaped bacterium which lives primarily as an extracellular pathogen. One of the most striking features of Borrelia burgdorferi as compared with other eubacteria is its unusual genome, which includes a linear chromosome approximately one megabase in size and numerous linear and circular plasmids.

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Imported tickborne relapsing fever, France
From Emerging Infectious Diseases, 11/1/05 by Benjamin Wyplosz

To the Editor: Tickborne relapsing fevers caused by Borrelia species are characterized by [greater than or equal to] 1 recurrent episodes of fever accompanied by headache, myalgia, arthralgia, abdominal pain, and eventually by hepatic or neurologic manifestations. In the Old World, Borrelia duttonii is endemic in sub-Saharan East Africa (1) and B. crocidurae and B. hispanica are distributed in West Africa and Mediterranean countries (2). In North America, B. hermsii, B. turicatae, and B. parkeri cause mild and sporadic fever cases, although several outbreaks have been reported (3). Relapsing fevers in disease-nonendemic countries are infrequently diagnosed and probably underdiagnosed (4). We report 3 patients with relapsing fever diagnosed in France in travelers from disease-endemic countries.

Patient 1, a 29-year-old French man, was admitted to Hotel-Dieu in Paris for a fourth recurrence of a flulike syndrome. Three weeks earlier, he had traveled through Spain and Morocco, when high-grade fever, chills, myalgia, and arthralgia suddenly developed. Symptoms quickly resolved after treatment with salicylate and acetaminophen, but 3 relapses occurred within 20 days. He had a low-grade fever and persisting myalgia. Results of a clinical examination were normal. Analyses showed elevated levels of C-reactive protein (CRP) (368 mg/L), creatine kinase (269 IU/L), and lactate dehydrogenase (1,149 IU/L). Because of previous travel in Africa, Giemsa-stained blood smears were examined for malaria parasites. They showed helical bacteria suggestive of Borrelia. Polymerase chain reaction (PCR) of a blood sample and sequencing of the 16S rRNA gene identified this bacterium as B. hispanica. Cefotaxime was administered for 72 hours and replaced with doxycycline, 100 mg twice a day for 10 days. One month later, the patient was free of symptoms.

Patient 2, a 21-year-old Malian woman, was admitted to Hopital de Mantes in Mantes-la-Jolie and delivered a normal baby with the gestational age of 36.2 weeks. One month earlier, she experienced a spontaneously resolving fever with myalgia. Biologic analyses of the mother showed anemia (hemoglobin 9.8 g/dL) with an inflammatory syndrome (CRP 164 mg/L). Giemsa-stained blood smears showed spirochetes. Molecular analyses identified these as B. crocidurae. Results of this analysis in the newborn were negative. The patient was treated with doxycycline, 100 mg twice a day for 10 days, and quickly recovered.

Patient 3, a 21-year-old Mauritanian woman, was admitted to Avicenne Hospital in Bobigny with a febrile illness that lasted 4 days. She had been traveling for 2 months through Senegal and Mauritania. The day of her return to France, high-grade fever (temperature 41[degrees]C), chills, headache, diarrhea, and arthralgia developed. Results of a clinical examination were normal. Laboratory investigations showed anemia (hemoglobin 9.8 g/dL) and thrombocytopenia (64,000 platelets/p.L). Giemsastained blood smears showed spirochetes. Molecular analyses identified this bacterium as B. crocidurae. The patient was treated with doxycycline, 100 mg twice a day for 10 days, and the patient quickly recovered.

Relapsing fevers caused by Borrelia spp. are rarely reported in travelers from disease-endemic countries. Because most infections are benign, cases are probably neglected. Since cultivation of the causative agents can be difficult, diagnosis relies on microscopic detection of helical bacteria in stained blood smears. Blood samples should be obtained during febrile episodes, but as shown in patient 2, spirochetes may be visualized on blood smears when the patient is no longer febrile. Quantitative buffy-coat analysis that increases detection sensitivity has been reported (5). Serologic tests are being developed to diagnose infection with B. recurrentis (6).

Detection of Borrelia DNA by PCR amplification from the blood is highly sensitive and specific. Identification can be achieved by sequencing the 16S rRNA gene (7) (Figure). Given the high level of sequence conservation (7), mutations can be informative. The identifying nucleotides for B. crocidurae, B. hispanica, and B. duttoni were at positions 65, 181,381, and 596. Therefore, sequence analysis of the first 600 nucleotides (nt) in the 16S rRNA gene is sufficient to differentiate B. crocidurae, B. hispanica, and B. duttonii.

The complete Borrelia sequence obtained from the patient 1 showed 99.93% identity with B. hispanica (1 nt difference), 99.79% with B. crocidurae (3 nt differences), and 99.72% identity with B. duttonii (4 nt differences). This patient was infected with B. hispanica during his travel through Spain or Morocco, which is consistent with the distribution of this species. Comparison of 1,430 nt from sequences from patients 2 and 3 showed 99.93% identity with the sequence of B. crocidurae (1 nt difference). B. crocidurae occurs mostly in sub-Saharan countries of West Africa (Senegal, Mali, and Mauritania), where patients 2 and 3 were likely to have been infected.

Physicians should be alert for relapsing fever in travelers, and this diagnosis should be considered in febrile patients from disease-endemic regions. Diagnosis relies upon examination of stained blood smears. Where available, molecular methods are highly efficient to detect and identify bacterial species. Other tickborne infections (e.g., those with Rickettsia spp.) should also be considered in patients returning from disease-endemic countries (8). The recommended treatment is doxycycline, although it can cause a Jarish-Herxheimer reaction in some patients.

Benjamin Wyplosz, * Liliana Mihaila-Amrouche, * Marie-Therese Baixench, * Marie-Laure Bigel, ([dagger]) Liliane Berardi-Grassias, ([dagger]) Camille Fontaine, ([double dagger]) Michele Hornstein, ([double dagger]) Arezki Izri, ([double dagger]) Guy Baranton, ([section]) and Daniele Postic ([section])

* Hotel-Dieu, Paris, France; ([dagger]) Hopital de Mantes, Mantes-la-Jolie, France; ([double dagger]) Hopital Avicenne, Bobigny, France; and ([section]) Institut Pasteur, Paris, France

References

(1.) Barclay AJG, Coulter JBS. Tick-borne relapsing fever in central Tanzania. Trans R Soc Trop Med Hyg. 1990;84:852-6.

(2.) Trape JF, Godeluck B, Diatta G, Rogier C, Legros F, Albergel J, et al. The spread of tick-borne borreliosis in West Africa and its relationship to sub-Saharan drought. Am J Trop Med Hyg. 1996;54:289-93.

(3.) Schwan TG, Policastro PF, Miller Z, Thompson RL, Damrow T, Keirans JE. Tick-borne relapsing fever caused by Borrelia hermsii, Montana. Emerg Infect Dis. 2003;9:1151-4.

(4.) McConnell J. Tick-borne relapsing fever under-reported. Lancet Infect Dis. 2003;10:604.

(5.) van Dam AP, van Gool T, Wetsteyn JC, Dankert J. Tick-borne relapsing fever imported from west Africa: diagnosis by quantitative buffy coat analysis and in vitro culture of Borrelia crocidurae. J Clin Microbiol. 1999;37:2027-30.

(6.) Porcella SF, Raffel SJ, Schrumpf ME, Schriefer ME, Dennis DT, Schwan TG. Serodiagnosis of louse-borne relapsing fever with glycerophosphodiester phosphodiesterase (GIpQ) from Borrelia recurrentis. J Clin Microbiol. 2000;38:3561-71.

(7.) Marti Ras N, Lascola B, Postic D, Cutler SJ, Rodhain F, Baranton G et al. Phylogenesis of relapsing fever Borrelia spp. Int J Syst Bacteriol. 1996;46:859-65.

(8.) Jensenius M, Fournier PE, Kelly P, Myrvang B, Raoult D. African tick bite fever. Lancet Infect Dis. 2003;3:557-64.

Address for correspondence: Daniele Postic, Laboratoire des Spirochetes, Institut Pasteur, 28 Rue du Dr Roux, 75724 Paris CEDEX 15, France; fax: 33-1-40-61-30-01; email: dpostic@pasteur.fr

COPYRIGHT 2005 U.S. National Center for Infectious Diseases
COPYRIGHT 2005 Gale Group

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