Sheila A. Lukehart

Invasion of the Central Nervous System by Treponema pallidum: Implications for Diagnosis and Treatment

STUDY OBJECTIVES To determine the prevalence of Treponema pallidum in cerebrospinal fluid (CSF) of patients with syphilis, to determine the effect of concurrent HIV infection on central nervous system involvement by T. pallidum, and to examine the efficacy of conventional therapy for asymptomatic neurologic involvement. PATIENTS Fifty-eight patients with untreated syphilis who consented to lumbar puncture, representing approximately 10% of new cases of syphilis during the study period. INTERVENTIONS Lumbar puncture was done on all patients. Rabbit inoculation was used to test cerebrospinal fluid for viable T. pallidum. Patients with normal fluid received recommended benzathine penicillin therapy according to the stage of syphilis; patients with CSF abnormalities were offered 10-day therapy for neurosyphilis. RESULTS Treponema pallidum was isolated from the CSF of 12 (30%) of 40 patients (95% CI, 17 to 46) with untreated primary and secondary syphilis; isolation of T. pallidum was significantly associated (P = 0.008) with the presence of two or more abnormal laboratory variables (among leukocyte count, protein concentration, and CSF-Venereal Disease Research Laboratory [VDRL] test). Two (67%) of 3 early latent (CI, 13 to 100) and 3 (20%) of 15 late latent syphilis patients (CI, 5 to 47) also had reactive CSF-VDRL tests and elevated cell and protein levels, although T. pallidum was not isolated. Concurrent infection with the human immunodeficiency virus (HIV) was not associated with isolation of T. pallidum, increased number of CSF abnormalities, or reactive CSF serologic tests for syphilis, although CSF pleocytosis was commoner in subjects infected with HIV. Treatment with conventional benzathine penicillin G (2.4 mIU) failed to cure 3 of 4 patients with secondary syphilis from whom T. pallidum was isolated before therapy; all 3 patients in whom treatment failed were HIV seropositive when treated or seroconverted during follow-up. CONCLUSIONS Central nervous system invasion by T. pallidum is common in early syphilis, and is apparently independent of HIV infection. Examination of the CSF may be beneficial in patients with early syphilis, and therapy should be guided by knowledge of central nervous system involvement. Conventional benzathine penicillin G therapy may have reduced efficacy in patients with early syphilis who are also infected with HIV.

Cerebrospinal Fluid Abnormalities in Patients with Syphilis: Association with Clinical and Laboratory Features

OBJECTIVE To define clinical and laboratory features that identify patients with neurosyphilis. METHODS Subjects (n=326) with syphilis but no previous neurosyphilis who met 1993 Centers for Disease Control and Prevention criteria for lumbar puncture underwent standardized history, neurological examination, venipuncture, and lumbar puncture. Neurosyphilis was defined as a cerebrospinal fluid (CSF) white blood cell count >20 cells/ microL or reactive CSF Venereal Disease Research Laboratory (VDRL) test result. RESULTS Sixty-five subjects (20.1%) had neurosyphilis. Early syphilis increased the odds of neurosyphilis in univariate but not multivariate analyses. In multivariate analyses, serum rapid plasma reagin (RPR) titer > or =1 : 32 increased the odds of neurosyphilis 10.85-fold in human immunodeficiency virus (HIV)-uninfected subjects and 5.98-fold in HIV-infected subjects. A peripheral blood CD4+ T cell count < or =350 cells/ microL conferred 3.10-fold increased odds of neurosyphilis in HIV-infected subjects. Similar results were obtained when neurosyphilis was more stringently defined as a reactive CSF VDRL test result. CONCLUSION Serum RPR titer helps predict the likelihood of neurosyphilis. HIV-induced immune impairment may increase the risk of neurosyphilis.

Biological Basis for Syphilis

SUMMARY Syphilis is a chronic sexually transmitted disease caused by Treponema pallidum subsp. pallidum. Clinical manifestations separate the disease into stages; late stages of disease are now uncommon compared to the preantibiotic era. T. pallidum has an unusually small genome and lacks genes that encode many metabolic functions and classical virulence factors. The organism is extremely sensitive to environmental conditions and has not been continuously cultivated in vitro. Nonetheless, T. pallidum is highly infectious and survives for decades in the untreated host. Early syphilis lesions result from the hosts immune response to the treponemes. Bacterial clearance and resolution of early lesions results from a delayed hypersensitivity response, although some organisms escape to cause persistent infection. One factor contributing to T. pallidums chronicity is the paucity of integral outer membrane proteins, rendering intact organisms virtually invisible to the immune system. Antigenic variation of TprK, a putative surface-exposed protein, is likely to contribute to immune evasion. T. pallidum remains exquisitely sensitive to penicillin, but macrolide resistance has recently been identified in a number of geographic regions. The development of a syphilis vaccine, thus far elusive, would have a significant positive impact on global health.

The Response of Symptomatic Neurosyphilis to High-Dose Intravenous Penicillin G in Patients with Human Immunodeficiency Virus Infection

BACKGROUND Infection with the human immunodeficiency virus (HIV) may affect both the natural course of syphilis and the response to treatment. We examined the response to treatment with high-dose penicillin G in HIV-infected patients with symptomatic neurosyphilis. METHODS Neurosyphilis was defined by reactivity in serum treponemal tests for syphilis, neurologic manifestations consistent with neurosyphilis, and a positive Venereal Disease Research Laboratory (VDRL) test on cerebrospinal fluid. We identified 11 HIV-infected patients with symptomatic neurosyphilis; 5 had been treated previously for early syphilis with penicillin G benzathine. Patients were treated with 18 million to 24 million units of penicillin G per day administered intravenously for 10 days. Cerebrospinal fluid was examined approximately 6 and 24 weeks after treatment, when the polymerase chain reaction and rabbit inoculation were used to detect Treponema pallidum. RESULTS In four of the seven patients studied 24 weeks after treatment, the serum titers on rapid plasma reagin (RPR) testing decreased by at least two doubling dilutions, and four patients had reductions in the cerebrospinal fluid titers on VDRL testing or reverted to nonreactive results. In two patients there was no normalization or improvement in serum titers on RPR testing or cerebrospinal fluid titers on VDRL testing, cell counts, or protein concentrations. One patient relapsed with meningovascular syphilis six months after therapy. T. pallidum was detected by the polymerase chain reaction in cerebrospinal fluid from 3 of 10 patients before treatment, but in none of the 10 post-treatment specimens. CONCLUSIONS In patients with early syphilis who are also infected with HIV, therapy with penicillin G benzathine may fail, and neurosyphilis may develop. The regimen of high-dose penicillin recommended for neurosyphilis is not consistently effective in patients infected with HIV.

Photochemical treatment of platelet concentrates with amotosalen and long-wavelength ultraviolet light inactivates a broad spectrum of pathogenic bacteria

BACKGROUND:  Bacterial contamination of platelet (PLT) concentrates can result in transfusion‐transmitted sepsis. A photochemical treatment (PCT) process with amotosalen HCl and long‐wavelength ultraviolet light (UVA), which cross‐links nucleic acids, was developed to inactivate bacteria and other pathogens in PLT concentrates.

The endemic treponematoses.

Treponemal diseases comprise venereal syphilis (Treponema pallidum subsp. pallidum) and the endemic (non-venereal) treponematoses, i.e. yaws (T. pallidum subsp. pertenue), endemic syphilis (T. pallidum subsp. endemicum) and pinta (T. carateum). Treponemal diseases are distinguished on the basis of epidemiological characteristics and clinical manifestations. They are at present indistinguishable by morphological, immunological or serological methods. Several minor genetic differences have been identified among the subspecies. The endemic treponematoses have not yet been eliminated and are currently thought to affect at least 2.5 million persons. Renewed action towards the elimination of these diseases should be undertaken.

Syphilis: using modern approaches to understand an old disease

Syphilis is a fascinating and perplexing infection, with protean clinical manifestations and both diagnostic and management ambiguities. Treponema pallidum subsp. pallidum, the agent of syphilis, is challenging to study in part because it cannot be cultured or genetically manipulated. Here, we review recent progress in the application of modern molecular techniques to understanding the biological basis of this multistage disease and to the development of new tools for diagnosis, for predicting efficacy of treatment with alternative antibiotics, and for studying the transmission of infection through population networks.

Azithromycin-Resistant Syphilis Infection: San Francisco, California, 2000–2004

BACKGROUND The incidence of syphilis has been increasing in the United States since reaching a nadir in 2000. Several clinical trials have demonstrated that treatment with oral azithromycin may be useful for syphilis control. After reports of azithromycin treatment failures in San Francisco, we investigated the clinical and epidemiologic characteristics of patients with syphilis due to azithromycin-resistant Treponema pallidum infection. METHODS We reviewed city-wide case reports and conducted molecular screening for patients seen at the San Francisco metropolitan STD clinic (San Francisco City Clinic) to identify patients who did not respond to azithromycin treatment for syphilis or who were infected with azithromycin-resistant T. pallidum. We conducted an epidemiologic investigation and retrospective case-control study to identify risk factors for acquiring syphilis due to azithromycin-resistant T. pallidum. RESULTS From January 2000 through December 2004, molecular screening of 124 samples identified 46 azithromycin-resistant T. pallidum isolates and 72 wild-type T. pallidum isolates. Six instances of treatment failure were identified through record review. In total, we identified 52 case patients (one of whom had 2 episodes) and 72 control patients. All case patients were male and either gay or bisexual, and 31% (16 of 52) were infected with human immunodeficiency virus. Investigation of patient-partner links and a retrospective case-control study did not reveal a sexual network or demographic differences between cases and controls. However, 7 case patients had recently used azithromycin, compared with 1 control patient. Surveillance data demonstrated that azithromycin-resistant T. pallidum prevalence increased from 0% in 2000 to 56% in 2004 among syphilis cases observed at the San Francisco City Clinic. CONCLUSIONS Azithromycin-resistant T. pallidum is widespread in San Francisco. We recommend against using azithromycin for the management of syphilis in communities where macrolide-resistant T. pallidum is present and recommend active surveillance for resistance in sites where azithromycin is used.

Opsonic Potential, Protective Capacity, and Sequence Conservation of the Treponema pallidum subspecies pallidum Tp92

By means of a differential screening technique, a 92-kDa antigen, designated Tp92, was identified from Treponema pallidum subspecies pallidum. This protein is similar in sequence to the protective surface antigens D15 from Haemophilus influenzae and Oma87 from Pasteurella multocida. Amino acid sequence analyses revealed a cleavable N-terminal signal sequence and predicted the outer membrane location for Tp92. In support of this, antiserum raised against recombinant Tp92 promotes opsonization and phagocytosis of T. pallidum by rabbit macrophages, and anti-Tp92 reactivity is absent from washed treponemal preparations presumed to be lacking outer membranes. The Tp92 amino acid sequence is 95.5%-100% conserved among 11 strains representing 4 pathogenic treponemes, and immunization with recombinant Tp92 partially protected rabbits from subsequent T. pallidum challenge. These results demonstrate that Tp92 is an invariant, immunoprotective antigen that may be present on the surface of T. pallidum and may represent a potential vaccine candidate for syphilis.

Normalization of cerebrospinal fluid abnormalities after neurosyphilis therapy: does HIV status matter?

To identify factors that affect normalization of laboratory measures after treatment for neurosyphilis, 59 subjects with neurosyphilis underwent repeated lumbar punctures and venipunctures after completion of therapy. The median duration of follow-up was 6.9 months. Stepwise Cox regression models were used to determine the influence of clinical and laboratory features on normalization of cerebrospinal fluid (CSF), white blood cells (WBCs), CSF protein concentration, CSF Venereal Disease Research Laboratory (VDRL) reactivity, and serum rapid plasma reagin (RPR) titer. Human immunodeficiency virus (HIV)-infected subjects were 2.5 times less likely to normalize CSF-VDRL reactivity than were HIV-uninfected subjects. HIV-infected subjects with peripheral blood CD4+ T cell counts of < or =200 cells/ mu L were 3.7 times less likely to normalize CSF-VDRL reactivity than were those with CD4+ T cell counts of >200 cells/ mu L. CSF WBC count and serum RPR reactivity were more likely to normalize but CSF-VDRL reactivity was less likely to normalize with higher baseline values. Future studies should address whether more intensive therapy for neurosyphilis is warranted in HIV-infected individuals.