Comparison of polymerase chain reaction with culture and serology for diagnosis of murine experimental Lyme borreliosis

Age-Related Differential Stimulation of Immune Response by Babesia microti and Borrelia burgdorferi During Acute Phase of Infection Affects Disease Severity

Lyme disease is the most prominent tick-borne disease with 300,000 cases estimated by CDC every year while ~2,000 cases of babesiosis occur per year in the United States. Simultaneous infection with Babesia microti and Borrelia burgdorferi are now the most common tick-transmitted coinfections in the U.S.A., and they are a serious health problem because coinfected patients show more intense and persisting disease symptoms. B. burgdorferi is an extracellular spirochete responsible for systemic Lyme disease while B. microti is a protozoan that infects erythrocytes and causes babesiosis. Immune status and spleen health are important for resolution of babesiosis, which is more severe and even fatal in the elderly and splenectomized patients. Therefore, we investigated the effect of each pathogen on host immune response and consequently on severity of disease manifestations in both young, and 30 weeks old C3H mice. At the acute stage of infection, Th1 polarization in young mice spleen was associated with increased IFN-γ and TNF-α producing T cells and a high Tregs/Th17 ratio. Together, these changes could help in the resolution of both infections in young mice and also prevent fatality by B. microti infection as observed with WA-1 strain of Babesia. In older mature mice, Th2 polarization at acute phase of B. burgdorferi infection could play a more effective role in preventing Lyme disease symptoms. As a result, enhanced B. burgdorferi survival and increased tissue colonization results in severe Lyme arthritis only in young coinfected mice. At 3 weeks post-infection, diminished pathogen-specific antibody production in coinfected young, but not older mice, as compared to mice infected with each pathogen individually may also contribute to increased inflammation observed due to B. burgdorferi infection, thus causing persistent Lyme disease observed in coinfected mice and reported in patients. Thus, higher combined proinflammatory response to B. burgdorferi due to Th1 and Th17 cells likely reduced B. microti parasitemia significantly only in young mice later in infection, while the presence of B. microti reduced humoral immunity later in infection and enhanced tissue colonization by Lyme spirochetes in these mice even at the acute stage, thereby increasing inflammatory arthritis.

Comparison of MKP and BSK-H media for the cultivation and isolation of Borrelia burgdorferi sensu lato

The isolation of B. burgdorferi sensu lato requires the use of complex cultivation media. The aim of the study was to compare the usefulness of BSK-H (a commercial medium produced by HiMedia, India) and MKP medium. MKP and BSK-H media were prepared in accordance with the relevant protocols. Borrelia strains and skin culture biopsies were simultaneously inoculated into both media, incubated and checked for growth. Borrelial growth characteristics, isolation rates and characteristics of the isolated borreliae were analysed and compared. Initially, numbers of spirochaetes were higher in BSK-H than in MKP; however, in comparison with MKP, the strains subcultured in BSK-H medium were more frequently irregular, thin and non-motile, and rapidly died. In addition, the borrelial isolation rate from erythema migrans skin samples was higher in MKP than in BSK-H medium (108/171, 63.2% versus 70/171, 40.9%; p<0.0001). The far most frequently isolated species was Borrelia afzelii (92.9% and 97.2% strains isolated from BSK-H and MKP, respectively). Comparison of strains cultured from individual patients in both media showed differences in plasmid contents in 9/46 (19.6%) strain pairs, and protein profiles differed in 30/43 (69.8%) strain pairs, most often in the expression of OspC (in 27/28 patients OspC was expressed only in strains growing in MKP). BSK-H medium supports the growth of borrelial strains but MKP is superior with regard to the isolation rate, morphology and motility of strains. BSK-H medium supports fast initial growth of borreliae but this is followed by rapid deformation and death of the spirochaetes.

Tick saliva affects both proliferation and distribution of Borrelia burgdorferi spirochetes in mouse organs and increases transmission of spirochetes to ticks

Ixodes ricinus tick saliva-activated transmission of Borrelia burgdorferi sensu stricto spirochetes was studied on the C3H/HeN mouse model. The influence of the feeding of uninfected nymphs on the proliferation and distribution of intradermally inoculated spirochetes was compared with the effect of co-inoculated saliva or salivary gland extract (SGE), respectively. Spirochete loads in murine tissues were evaluated using real-time q-PCR. SGE induced significantly increased spirochete numbers in the skin on the days 4 and 6 post-infection (p.i.). On the other hand, decreased bacterial load in the heart of SGE-treated mice was demonstrated in comparison with control animals. The inoculation of tick saliva increased spirochete load in the urinary bladder on day 6 p.i., while the number of spirochetes in the heart declined on day 6 p.i. The feeding of I. ricinus nymphs raised the spirochete load in the bladder on the days 4 and 6 p.i. On day 6, the number of spirochetes found in the heart was significantly lower than in controls. The prevalence of spirochetes in ticks infected by feeding on mice was more than 10 times higher when the mice were infected with the mixture of spirochetes and saliva or SGE, in comparison with spirochetes alone. The presence of SGE in the infectious inoculum increased the spirochete burden per tick from 0 to almost 28,000. Taken together, these results show a very early effect of tick saliva on the proliferation and distribution of Borrelia spirochetes in the host, probably due to the effect of saliva on the host innate immunity mechanisms.

Lyme neuroborreliosis: infection, immunity, and inflammation

Lyme neuroborreliosis (LNB), the neurological manifestation of systemic infection with the complex spirochaete Borrelia burgdorferi, can pose a challenge for practising neurologists. This Review is a summary of clinical presentation, diagnosis, and therapy, as well as of recent advances in our understanding of LNB. Many new insights have been gained through work in experimental models of the disease. An appreciation of the genetic heterogeneity of the causative pathogen has helped clinicians in their understanding of the diverse presentations of LNB.

Comparison of isolation rate of Borrelia burgdorferi sensu lato in MKP and BSK-II medium

Different media have been utilized for borrelial cultivation. The aim of the present study was to evaluate the isolation rate of Borrelia burgdorferi sensu lato from two commonly used media, i.e. modified Kelly-Pettenkofer (MKP) and Barbour-Stoenner-Kelly II (BSK-II) medium, and to compare the isolated strains with regard to their phenotypic and genotypic characteristics. Skin biopsy specimens of 2 x 2 x 4 mm were taken from the peripheral site of human solitary erythema lesions and were divided in two pieces, one of which was inoculated into MKP and the other one into BSK-II medium. Species analysis of the obtained strains was performed and their plasmid and protein profiles were determined. Borrelia strains were isolated from 48/96 patients (50%) with erythema migrans. We obtained in 26/48 patients (54%) from MKP as well as from BSK-II, in 11 patients (23%) only from MKP, and in another 11 (23%) only from BSK-II medium a positive result. B. afzelii was isolated from 43 patients (23 were positive in both media, nine in MKP only and 11 in BSK-II medium only), while B. garinii was isolated from five patients (in three from both media, in two from MKP only). All strains of the obtained strain pairs were identical according to species and the type within the species. Plasmid profiles were identical in 17/21 B. afzelii strain pairs (81%) and in 1/3 B. garinii strain pairs; in 6/24 strain pairs, distinctions in the number of plasmids or in their molecular mass were present. Differences in the protein profile were found in 7/24 strain pairs (29%). The distinctions were uniform and were limited to the expression of OspC. In conclusion, our study showed comparable Borrelia isolation rates from MKP and BSK-II medium. The results of the present study indicate that human patients with Lyme borreliosis may simultaneously harbor heterogeneous B. burgdorferi s.l. strains.

Genotype determines phenotype in experimental Lyme borreliosis

Borrelia burgdorferi sensu lato, the causative organism of Lyme borreliosis, is a heterogeneous group of spirochetes, consisting of at least three pathogenic species. To test the hypothesis that the genetic heterogeneity is the reason for the clinical differences, we investigated whether the experimental disease induced by European isolates is different from that induced by American isolates. Two American isolates of species B. burgdorferi sensu stricto were compared with three European isolates, two of species B. garinii, and one of species B. afzelii. The patterns of infection, immunity, and inflammation induced by the different species was distinctive. Inflammatory cells and levels of antibody in B. garinii- and B. afzelii-infected animals were lower than in B. burgdorferi s.s.-infected animals, whereas levels of spirochetal infection in the skin and nervous system were higher in the former group of animals. These data demonstrate that B. burgdorferi s.s. strains are more infective and inflammatory, whereas B. garinii and B. afzelii strains can survive the adaptive immune response to a greater degree and persist at greater numbers in the skin and nervous system. The results explain to a large extent the disparities between LNB in humans in the United States and Europe.

Lyme borreliosis in rhesus macaques: effects of corticosteroids on spirochetal load and isotype switching of anti-borrelia burgdorferi antibody

Experimental Borrelia burgdorferi infection of rhesus monkeys is an excellent model of Lyme disease and closely parallels the infection in humans. Little is known about the interaction of host immunity with the spirochete in patients with chronic infection. We hypothesized that rapid development of anti-B. burgdorferi antibody in immunocompetent nonhuman primates (NHPs) is the major determinant of the reduction of the spirochetal load in Lyme borreliosis. This hypothesis was tested by measurement of the spirochetal load by PCR in association with characterization of the anti-B. burgdorferi humoral immune response in immunocompetent NHPs versus that in corticosteroid-treated NHPs. Although anti-B. burgdorferi immunoglobulin G (IgG) antibody was effectively inhibited in dexamethasone (Dex)-treated NHPs, anti-B. burgdorferi IgM antibody levels continued to rise after the first month and reached levels in excess of IgM levels in immunocompetent NHPs. This vigorous production of anti-B. burgdorferi IgM antibodies was also studied in vitro by measurement of antibody produced by B. burgdorferi-stimulated peripheral blood mononuclear cells. Despite these high IgM antispirochetal antibodies in Dex-treated NHPs, spirochetal loads were much higher in these animals. These data indicate that Dex treatment results in interference with isotype switching in this model and provide evidence that anti-B. burgdorferi IgG antibody is much more effective than IgM antibody in decreasing the spirochetal load in infected animals.

Cardiac myocytes of hearts from patients with end-stage dilated cardiomyopathy do not contain Borrelia burgdorferi DNA

OBJECTIVE

To determine if end-stage dilated cardiomyopathy (DCM) is associated with the presence of Lyme disease causing spirochete Borrelia burgdorferi in the myocardium, we used nested polymerase chain reaction to detect B burgdorferi DNA in myocardial samples from explanted hearts of patients with end-stage DCM. Patients originated from endemic areas for Lyme disease (Bavaria, Lower Saxony, Germany).

METHODS AND RESULTS

This was a retrospective study. Polymerase chain reaction was used to detect the specific B burgdorferi recombinant outer surface protein A (OspA) gene in myocardial tissue from 68 patients with end-stage DCM who had undergone heart transplantation. The clinical history of Lyme disease, the presence of Borrelia burgdorferi OspA, and antibodies against OspA in myocardial tissue and serum were investigated. B burgdorferi DNA was not detected in any of the 68 human hearts. Immunoglobulin G antibodies against specific B burgdorferi antigens were observed in 3 (12.5%) of 24 patients. In contrast, 4 hearts from rats experimentally infected with B burgdorferi were all positive for OspA DNA as measured by polymerase chain reaction.

CONCLUSION

Our data show that cardiac myocytes of hearts obtained from subjects with end-stage DCM did not contain B burgdorferi DNA as investigated by polymerase chain reaction. However, B burgdorferi shows a high affinity for myocardial tissue as shown by the animal studies, indicating that myocardial infections are nevertheless possible.

Detection of active infection in nonhuman primates with Lyme neuroborreliosis: comparison of PCR, culture, and a bioassay

Ideally a diagnosis of infection of the central nervous system (CNS) is made by culture of the etiologic pathogen, but Borrelia burgdorferi, the causative agent of Lyme neuroborreliosis (LNB), is rarely cultured from the cerebrospinal fluid (CSF). PCR and measurement of specific antibody in the CSF also have their limitations. The role of available assays for LNB has not been studied carefully in a comparative investigation. There is a need to assess the reliability of assays and to increase the ability to document active infection in the CNS. The recent development of the nonhuman primate (NHP) model of LNB allowed us to address this need in a faithful model of human LNB. In this study we compared the abilities of PCR and culture to detect the presence of spirochetes in the CSF and brain tissue of infected NHPs and related these measures of infection to the development of anti-B. burgdorferi antibody. We also tested a bioassay, the mouse infectivity test (MIT), in this model. Fourteen of 16 CSFs from four NHPs were positive by at least one of these techniques. Detection of spirochetes in the CSF by PCR, the MIT, and culture was inversely related to the concomitant presence of anti-B. burgdorferi antibody intrathecally. The performance of any particular test was associated with the strength of the host immune response. In early CNS infection, when anti-B. burgdorferi antibody had not yet appeared, or in immunocompromised hosts, the MIT compared favorably to culture and PCR for infected NHPs; antibody in the CSF was the most useful assay for immunocompetent NHPs.

In vivo activities of ceftriaxone and vancomycin against Borrelia spp. in the mouse brain and other sites

Borrelia burgdorferi, the agent of Lyme disease, and B. turicatae, a neurotropic agent of relapsing fever, are susceptible to vancomycin in vitro, with an MIC of 0.5 microgram/ml. To determine the activity of vancomycin in vivo, particularly in the brain, we infected adult immunocompetent BALB/c and immunodeficient CB-17 scid mice with B. burgdorferi or B. turicatae. The mice were then treated with vancomycin, ceftriaxone as a positive control, or normal saline as a negative control. The effectiveness of treatment was assessed by cultures of blood and brain and other tissues. Ceftriaxone at a dose of 25 mg/kg of body weight administered every 12 h for 7 to 10 days eliminated cultivable B. burgdorferi or B. turicatae from all BALB/c or scid mice in the study. Vancomycin at 30 mg/kg administered every 12 h was effective in eliminating infection from immunodeficient mice if treatment was started within 3 days of the onset of infection. If treatment with vancomycin was delayed for 7 days or more, vancomycin failed to eradicate infection with B. burgdorferi or B. turicatae from immunodeficient mice. The failure of vancomycin in eradicating established infections in immunodeficient mice was associated with the persistence of viable spirochetes in the brain during antibiotic treatment.

The immune response to infectious diseases of the central nervous system: a tenuous balance

The outcome of CNS infection is dependent on both the organism and host. Acute infections are usually cleared with minimal residua. However, chronic infections of the CNS, such as HIV, PML, HSV, polio, Lyme neuroborreliosis, and neurosyphilis, are becoming increasingly recognized as a cause of severe neurological morbidity, and are poorly understood. We will need to learn more about the CNS as an immune compartment to increase our knowledge of these infections.

Neuroborreliosis in the nonhuman primate: Borrelia burgdorferi persists in the central nervous system

Neurological involvement in Lyme disease is common, and is frequently difficult to diagnose and treat. Little is known about the fate of the causative spirochete Borrelia burgdorferi in the central nervous system (CNS). To determine the frequency of parenchymal infection and to determine localization of the organism, polymerase chain reaction/hybridization assays were performed in a newly described model of Lyme neuroborreliosis in nonhuman primates infected with B. burgdorferi. Polymerase chain reaction/hybridization of CNS tissues from 5 infected nonhuman primates was performed. Substantial amounts of B. burgdorferi DNA were detected in the CNS in all infected animals, with a predilection toward subtentorial structures. These data suggest that Lyme neuroborreliosis represents persistent infection with B. burgdorferi.

Comparison of in vitro culture, immunohistochemical staining, and PCR for detection of Borrelia burgdorferi in tissue from experimentally infected animals

An avidin-biotin-amplified immunophosphatase staining method with a purified polyclonal rabbit anti-Borrelia burgdorferi hyperimmune serum was developed for identification of B. burgdorferi in tissue specimens. The diagnostic efficacy was compared with those of in vitro culture and PCR with fresh and fixed, paraffin-embedded tissues. A nested PCR assay was developed for identification of a 276-bp fragment of the B. burgdorferi flagellin gene. The diagnostic sensitivities of the different techniques were evaluated with spleen, renal, and urinary bladder tissues from eight experimentally infected gerbils. A systemic infection was verified by positivity of 23 of 24 (96%) organ cultures. B. burgdorferi was visualized immunohistochemically in 9 of 23 (39%) of the specimens. Among these nine specimens, an average of 33% of the 15 sections examined were positive. The spirochetes accumulated in discrete clusters and were associated with focal lymphocytic infiltration. The diagnostic sensitivity obtained by PCR with fixed, paraffin-embedded tissue was 21%, considerably lower than that with fresh tissue (71%). Thus, the reliable demonstration of B. burgdorferi by immunohistochemical staining is possible but extremely laborious, and considering the fact that the density of B. burgdorferi in human tissue is even lower than that in experimentally infected animals, the method is not useful in a clinical setting. It may, however, still be valuable in pathogenetic research. Detection of B. burgdorferi DNA by PCR should be performed with fresh tissue specimens and not with fixed, paraffin-embedded specimens.

Evaluation of the polymerase chain reaction for the detection of Borrelia burgdorferi in cerebrospinal fluid of children with acute peripheral facial palsy

Neuroborreliosis occasionally represents a diagnostic problem, especially in the early stage of the infection. The polymerase chain reaction (PCR) offers an attractive alternative to antibody testing. The aim of our study was to investigate the diagnostic potential of PCR in comparison to antibody tests in CSF of children with facial palsy. In contrast to other manifestations of neuroborreliosis, facial palsy is a well-defined clinical entity in which CSF findings allow an early distinction according to aetiology. The study included 17 children with neuroborreliosis, defined by the detection of specific IgM antibodies in CSF, and 20 children with facial palsy of unknown cause. Primers used for the nested PCR were generated from conserved sequences of the OspA-gene. Most of the cases in both subgroups have been examined within a few days after the onset of the paresis. Only in 2 out of 17 cases with neuroborreliosis could specific DNA be amplified. The PCR gave negative results in all cases of the control group.

CONCLUSION

The IgM capture ELISA is superior to PCR to support the clinical diagnosis of neuroborreliosis.

Evaluation of the detection of Borrelia burgdorferi DNA in urine samples by polymerase chain reaction

It is difficult in some cases to identify an infection caused by Borrelia burgdorferi and to monitor the effect of therapy. Seropositivity will persist even after successful treatment and therefore may suggest ongoing infection. For direct detection of B. burgdorferi DNA in human urine samples, the polymerase chain reaction (PCR) was evaluated. A published primer system was selected, which amplifies a 259 bp fragment from the gene encoding the 23S rRNA. The lower detection limit of the primer system was 10 fg of extracted B. burgdorferi DNA. Several methods for the pretreatment of urine samples were tested. Of these, the Geneclean kit (Bio 101, USA) showed the best results. A total of 114 urine samples from 74 patients belonging to three clinical groups was investigated: (i) 51 samples from 26 patients with active Lyme disease, (ii) 36 samples from 27 patients with previous infection but no symptoms at the time the urine was collected, and (iii) 27 samples from 21 seronegative control patients without Lyme disease. B. burgdorferi DNA was detected in 25 urine samples of 17 patients with active disease, whereas 26 samples from this group of patients were negative. Only one asymptomatic case with previous infection showed a positive result, and the urine samples of the patients without Lyme disease were uniformly negative. Two of four patients from whom samples before and directly after onset of therapy were available converted from negative to positive PCR results after initiation of therapy, accompanied by the symptoms of a Jarisch-Herxheimer reaction.(ABSTRACT TRUNCATED AT 250 WORDS)

Early disseminated Lyme disease: Lyme meningitis

Lyme meningitis is the direct result of invasion of the nervous system by Borrelia burgdorferi. Occurring within the first few months of infection, it initially presents as a chronic basilar meningitis. Much about the pathogenesis of Lyme meningitis has been learned from animal models, the best being the adult Rhesus macaque. Injection of these animals with a highly infective strain of B. burgdorferi has led to a very predictable course of events: erythema migrans within the first few weeks after injection, development of anti-B. burgdorferi antibody, detection of spirochetemia in weeks 3 and 4, and central nervous system (CNS) invasion within 1 month with cerebrospinal fluid (CSF) pleocytosis. In humans, facial palsy is the earliest clinical indicator. Headache and meningismus are symptoms of inflammation of the subarachnoid space. Severe fatigue and arthralgia are common extra-CNS symptoms. Culture is not generally useful for detecting or confirming Lyme meningitis. False-positive serologic tests may occur in patients with other infections, inflammatory processes, or malignancies. Immunoblotting will differentiate true-from false-positive antibody reactivity. Lack of a consistently positive serum antibody titer should make the diagnosis of Lyme meningitis suspect. Positive CSF antibody is almost universal in patients with Lyme meningitis. Polymerase chain reaction is a direct test that is highly specific and sensitive. The antibiotic treatment of choice is intravenous (i.v.) cephalosporins or penicillin for 2-3 weeks. If the clinical picture is anything less than absolutely classic, a lumbar puncture and Western blot of serum should be obtained in a seropositive patient before initiating intravenous antibiotic therapy. There is no role at this time for long-term (> 1 month) intravenous antibiotics. Nonsteroidal antiinflammatory agents can also be of benefit.

Inoculation of nonhuman primates with the N40 strain of Borrelia burgdorferi leads to a model of Lyme neuroborreliosis faithful to the human disease

We injected rhesus macaques with a highly infective strain of Borrelia burgdorferi to assess whether experimentally inoculated nonhuman primates (NHPs) could serve as models of human Lyme neuroborreliosis (LNB). The animals developed biopsy-confirmed erythema migrans in the area of the inoculations. ELISA testing of sera revealed strong antibody reactivity to B burgdorferi antigens, and Western blotting showed that 16-, 22-, 31-, 34-, and 41-kd proteins of the spirochete were major antigens recognized by antibody. Culture and polymerase chain reaction (PCR) testing of serial CSF specimens revealed that chronic infection of the CNS occurred in all NHPs injected. CSF pleocytosis occurred concurrently with CNS infection. Brain MRI revealed intense meningeal inflammation in one NHP as manifested by gadolinium uptake by the dura at the base of the temporal lobes. All animals had measurable antibody in the CSF after invasion. These studies are the first to demonstrate that experimental LNB in NHPs is a reliable model faithful to the human disease, with spirochetal invasion of the subarachnoid space. This also is the first report of CSF samples positive by culture in experimental LNB. Inflammation in the CNS as manifested by CSF pleocytosis and MRI findings was also correlated with the presence of spirochetal DNA detected by PCR. These data support the hypothesis that the pathogenesis of LNB is associated with direct spirochetal invasion, and provide evidence that CNS involvement is more common than heretofore thought.

Comparison of different strains of Borrelia burgdorferi sensu lato used as antigens in enzyme-linked immunosorbent assays

Eight strains of Borrelia burgdorferi sensu lato were tested with serum samples from persons who had Lyme borreliosis or syphilis in class-specific enzyme-linked immunosorbent assays (ELISAs). Antigens of B. burgdorferi sensu stricto, of Borrelia garinii, and of Borrelia spirochetes in group VS461 were prepared from cultured bacteria isolated from ticks, a white-footed mouse (Peromyscus leucopus), or human tissues in North America, the former Soviet Union, and Japan. Nearly all of the serum specimens that contained immunoglobulins to strain 2591, a Connecticut isolate, were also positive in antibody tests with the other seven strains. In general, all eight strains reacted similarly and were suitable as coating antigens in class-specific ELISAs. Assay sensitivities ranged from 82.6 to 100% in analyses for immunoglobulin M and G antibodies. Compared with reference antigen strain 2591, strains 231 (a tick isolate from Canada) and NCH-1 (a human skin isolate from Wisconsin) resulted in higher antibody titers in an ELISA. Syphilitic sera cross-reacted in all tests regardless of the antigen used. Key immunodominant proteins are shared among the closely related strains of B. burgdorferi sensu lato tested, but it is suspected that variations in antigen compositions among these spirochetes may sometimes affect assay performance for detecting serum antibodies.

Detection of Borrelia burgdorferi in urine of Peromyscus leucopus by inhibition enzyme-linked immunosorbent assay

An inhibition enzyme-linked immunosorbent assay was developed to detect Borrelia burgdorferi, the etiologic agent of Lyme borreliosis, in urine from white-footed mice (Peromyscus leucopus). Of the 87 urine specimens tested from 87 mice collected in widely separated tick-infested sites in Connecticut, 57 (65.5%) contained detectable concentrations of spirochetal antigens. Forty-seven (62.7%) of 75 serum samples analyzed contained antibodies to B. burgdorferi. In culture work with tissues from bladders, kidneys, spleens, or ears, 50 of 87 mice (57.5%) were infected with B. burgdorferi. Thirty-eight (76%) of 50 infected mice had antigens of this spirochete in urine, while 36 (72%) individuals had infected bladders. Of those with infected bladders, 24 (66.7%) mice excreted subunits or whole cells of B. burgdorferi into urine. Successful culturing of B. burgdorferi from mouse tissues, the presence of serum antibodies to this bacterium, and detection of antigens to this spirochete in urine provide further evidence that multiple assays can be performed to verify the presence of B. burgdorferi in P. leucopus.

The polymerase chain reaction in the diagnosis of Lyme neuroborreliosis

The polymerase chain reaction is sensitive and specific in the detection of defined DNA sequences and holds promise for diagnosing the presence of fastidious microorganisms in human infectious diseases. We developed a methodology for nested polymerase chain reaction and hybridization analysis of the cerebrospinal fluid using primers from a genomic Borrelia burgdorferi sequence and applied it to the cerebrospinal fluid (CSF) of patients suspected of having Lyme neuroborreliosis and other diseases. Polymerase chain reaction and hybridization demonstrated extremely high sensitivity for spirochetal DNA, and was highly specific, with a false-positivity rate of less than 3%. However, the results were negative or indeterminate in 54% of CSF samples from patients with definite or probable disease, indicating an absence, or extremely low level, of spirochetes or spirochetal DNA in a significant percentage of patients with Lyme neuroborreliosis. Polymerase chain reaction and hybridization of the CSF can thus be considered a useful adjunct in diagnosis, but its negativity does not rule out Lyme neuroborreliosis.