Journal of Neuro-Ophthalmology, June 2005, Volume 25, Issue 2

Reactive Lyme Serology in Optic Neuritis

BACKGROUND: Establishing a causal relationship between optic neuritis and Lyme disease (LD) has been hampered by technical limitations in serologic diagnosis of LD. Even so, there is a general impression that optic neuritis is a common manifestation of LD. METHODS: Retrospective case analysis of Lyme serology in 440 patients with optic neuritis examined between 1993 and 2003 in a single neuro-ophthalmic practice at Stony Brook University Medical Center, Suffolk County, New York, a region hyper-endemic for LD. RESULTS: Lyme enzyme-linked immunosorbent assay (ELISA) was positive in 28 (6.4%) patients with optic neuritis, three of whom had syphilis with cross-reactive antibodies. Among the remaining 25 ELISA-positive patients, optic neuritis could be confidently attributed to LD in only one case, a patient with papillitis. The other 24 cases had reactive Lyme serologies related to a history of LD years earlier, asymptomatic exposure, false-positive results, or non-specific humoral expansion. The ELISA in these 24 cases were weakly positive and the Western blots were negative by Centers for Disease Control criteria. There were no significant clinical differences between the 25 seropositive optic neuritis cases and 50 seronegative optic neuritis cases. CONCLUSIONS: Based on these cases and a review of the literature, there is insufficient evidence for a causal link between LD and retrobulbar optic neuritis or neuroretinitis. There is sufficient evidence to establish a causal link between LD and papillitis and posterior uveitis.

ORIGINAL CONTRIBUTION Reactive Lyme Serology in Optic Neuritis Patrick Sibony, MD, John Halperin, MD, P. K. Coyle, MD, and Kartik Patel, DO Background: Establishing a causal relationship between optic neuritis and Lyme disease ( LD) has been hampered by technical limitations in serologic diagnosis of LD. Even so, there is a general impression that optic neuritis is a common manifestation of LD. Methods: Retrospective case analysis of Lyme serology in 440 patients with optic neuritis examined between 1993 and 2003 in a single neuro- ophthalmic practice at Stony Brook University Medical Center, Suffolk County, New York, a region hyper- endemic for LD. Results: Lyme enzyme- linked immunosorbent assay ( ELISA) was positive in 28 ( 6.4%) patients with optic neuritis, three of whom had syphilis with cross- reactive antibodies. Among the remaining 25 ELISA- positive patients, optic neuritis could be confidently attributed to LD in only one case, a patient with papillitis. The other 24 cases had reactive Lyme serologies related to a history of LD years earlier, asymptomatic expo­sure, false- positive results, or non- specific humoral expan­sion. The ELISA in these 24 cases were weakly positive and the Western blots were negative by Centers for Disease Control criteria. There were no significant clinical differ­ences between the 25 seropositive optic neuritis cases and 50 seronegative optic neuritis cases. Conclusions: Based on these cases and a review of the literature, there is insufficient evidence for a causal link between LD and retrobulbar optic neuritis or neuroretinitis. There is sufficient evidence to establish a causal link be­tween LD and papillitis and posterior uveitis. ( J Neuro- Ophthalmol 2005; 25: 71- 82) The clinical manifestations of Lyme disease ( LD) were first described in 1977 ( 1). Anecdotal descriptions of associated ocular manifestations began to appear in the mid 1980s. Early reports on the ophthalmic manifestations relied on indirect immunofluorescence or enzyme- linked immunosorbent assay ( ELISA). Limitations in the serolog- Department of Ophthalmology and Neurology ( PS, PKC, KP), State University of New York at Stony Brook and the Department of Neurology at North Shore University Hospital ( JH), Manhasset, New York. Address correspondence to Patrick Sibony, MD, Department of Ophthalmology, Health Sciences Center, Level 11- 152, SUNY Stony Brook, Stony Brook, NY 11794; E- mail: psibony@ notes. cc. sunysb. edu ical diagnosis of LD have cast doubts about a link between LD and optic neuritis ( 2- 6). Even so, there is a widespread impression that optic neuritis is a well- documented and common manifestation of LD ( 7- 14). Based on a review of optic neuritis cases in our practice in a region hyper- endemic for LD and a thorough review of the published literature, this impression is largely unjustified. METHODS We retrospectively identified 632 cases coded for a diagnosis of optic neuritis ( retrobulbar neuritis, papillitis, or neuroretinitis) between 1993 and 2003 in the database of Stony Brook University Medical Center, a tertiary refer­ral center that predominantly serves residents of Suffolk County on eastern Long Island, New York, a region hyper-endemic for LD. All patients were from Long Island. The Institutional Review Board at University Medical Center approved the study. We excluded 192 cases because the charts were in­complete ( no follow- up after the initial encounter, charts or serologies unavailable or incomplete, or a diagnosis in­consistent with optic neuritis). Complete medical records, including serological testing for Borrelia burgdorferi, were available in 440 cases. We performed a detailed analysis of the clinical and serological features of all cases with a positive Lyme ELISA who underwent a confirmatory Western blot. All cases underwent a complete neuro- ophthalmic eval­uation and were specifically questioned for a history of tick bite, erythema migrans ( EM), and other symptoms and signs of LD. Of the 440 cases of optic neuritis, 361 ( 82%) had retrobulbar neuritis, 55 ( 12.5%) had papillitis, and 24 ( 5.5%) had neuroretinitis. The diagnosis of optic neuritis required a history of rapid vision loss over hours to weeks, an afferent pupillary defect or optic disc edema in association with diminished visual acuity, dyschromatopsia, or a visual field defect not otherwise attributable to retinal disease. Cases were sub-categorized as retrobulbar neuritis if the onset was rapid ( hours to days), usually in association with pain and a normal or mildly congested optic disc; papillitis if the same features occurred with significant disc edema; and neuroretinitis if the disc was swollen with stellate macular exudates with or J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 71 J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 Sibony et al without posterior vitreous cells. We encountered five cases with bilateral disc edema, with relatively normal vision and intracranial hypertension caused by LD meningitis. We considered them separately as papilledema. Awti- B. burgdorferi antibodies were measured by ELISA and Western blot performed in the Clinical Immu­nology Laboratory at University Hospital, Stony Brook. The ELISA result, expressed as optical density ( OD), was considered positive if it exceeded the mean OD of a seronegative control panel by s3.0 standard deviations ( negative cutoff). We expressed serum Lyme ELISA as the ratio of the patient's OD to the negative cutoff; a ratio s 1 was considered positive. Western blots were interpreted based on Centers for Disease Control ( CDC) criteria ( 15,16). IgM blots were considered positive if at least two of the following three bands were present: 23, 39, or 41 kD, and developed within 1 month of the onset of vision loss. IgG blots were considered positive if at least five of the following 10 bands were present: 18, 23, 28, 30, 39, 41, 45, 58, 66, or 93 kD. Cerebrospinal fluid ( CSF) was examined for local production of anti- S. burgdorferi antibodies, with correction for CSF and serum immunoglobulin concentra­tion. A CSF- to- serum Lyme antibody index of s 1.0 was considered indicative of intrathecal antibody production ( 17- 19). Criteria to Establish Causation To assess whether optic neuritis was caused by LD in our cases and in the published literature, we incorporated surveillance criteria used by the Centers for Disease Con­trol ( 15,16). This approach is similar to one previously described by Halperin et al ( 19) to evaluate the central nervous system manifestations of LD. Category I. Definitive proof requires culture or histologic demonstration of B. burgdorferi in the CSF or optic nerve of a patient with active LD and optic neuritis. Category II. Strong evidence requires the following core elements: optic neuritis, endemic exposure, negative Venereal Disease Research Laboratory Slide Test ( VDRL) or Rapid Plasma Reagin ( RPR), exclusion of definite multiple sclerosis ( MS) by Poser criteria ( 20), and a positive serum Lyme titer ( ELISA or Indirect Fluorescent Antibody [ IFA]), in association with at least one of the following: ( a) en­cephalitis or meningitis with CSF pleocytosis, intrathecal antibody production, or CSF polymerase chain reaction ( PCR) positive fori?, burgdorferi DNA, and a positive West­ern blot; ( b) recent signs of LD, such as facial nerve palsy, arthritis, or radiculoneuritis, with positive serum ELISA confirmed by Western blot; and ( c) recent physician-diagnosed EM, usually with flu- like symptoms. Category III. Possible connection would include the core elements described and one of the following: ( a) central nervous system involvement that does not meet grade Ha criteria ( lack of a confirmatory positive Western blot or the absence of intrathecal antibodies); ( b) compelling clinical signs of LD without a positive Western blot or documented syphilis serologies ( this group would include cases of " possible EM" that was not physician- diagnosed); and ( c) seropositivity by ELISA and Western blot without symp­toms or signs of LD. Category IV. Causal linkage is unlikely because the sero­logical or clinical evidence is lacking ( IVa) or an alternative diagnosis such as MS or syphilis is more likely ( IVb). Category V. There is insufficient information on the optic neuropathy or the diagnosis of LD. RESULTS Among the 440 cases with optic neuritis in whom serological tests for LD were available, 28 ( 6.4%) cases had reactive Lyme serologies by ELISA. Three of the 28 had papillitis with cross- reactive antibodies because of syph­ilis ( cases 26- 28). Among the 25 remaining cases, 20 ( 80%) had retrobulbar neuritis, 4 ( 16%) had papillitis, and 1 ( 4%) had bilateral neuroretinitis. There were 5 cases with papilledema caused by LD meningitis ( cases 29- 33). The clinical and serological findings on all cases are summarized in Table 1. No cases with retrobulbar neuritis or neuroretinitis met criteria for category I (" definitive proof") or category II (" strong evidence") of a causal link to LD. One case with bilateral papillitis ( Case 1) and a very high Lyme ELISA ratio met category II evidence for a causal link to LD. Two patients with retrobulbar neuritis ( Cases 2 and 3) who met category III criteria had a history of LD treated 9 to 13 years before the onset of optic neuritis. Although their ELISA were positive ( Fig. 1) when they presented with optic neuritis, their Western blots were negative. Optic neuritis developed many years after antibiotic treatment ( in one case with IV ceftriaxone) and vision improved before they were retreated with antibiotics. Neither had other signs of LD at the time optic neuritis developed. Twelve cases ( Cases 4- 15) met category IVa (" causal linkage unlikely because serological or clinical evidence is lacking"), all with negative Western blots. None had a history of EM, facial nerve palsy, radiculoneuritis, or arthritis. One case ( Case 12) had a questionable history of a tick bite followed by arthralgias that had resolved without treatment 7 years earlier. Another case ( Case 8) had four IgG bands on Western blot, had worked outdoors, and had a history of back pains and periodontal disease. Among 72 © 2005 Lippincott Williams & Wilkins Lyme Serology in Optic Neuritis J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 TABLE 1. Clinical and serologic features of Lyme titer- positive patients with idiopathic optic neuritis, syphilitic optic neuritis, and Lyme meningitis with papilledema Clinical Case Category Age/ gender Optic neuropathy Associated history or clinical findings Optic neuritis 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Syphilis 26 27 28 II III III IVa IVa IVa IVa IVa IVa IVa IVa IVa IVa IVa IVa IVb IVb IVb IVb IVb IVb IVb IVb IVb IVb IVb IVb IVb Papilledema 29 30 31 32 33 II II II II II 76/ M 52/ F 35/ F 40/ F 21/ F 42/ F 46/ F 27/ M 43/ F 46/ M 14/ M 67/ M 66/ M 18/ F 47/ F 18/ F 23/ M 34/ F 20/ M 28/ F 28/ F 35/ F 34/ F 41/ F 36/ M 73/ M 35/ M 46/ M 9/ M 7/ M 9/ M 6/ M 11/ F Papillitis ( OU) Retrobulbar Retrobulbar Retrobulbar Retrobulbar Retrobulbar Retrobulbar Retrobulbar Retrobulbar Neuroretinitis ( OU) Papillitis ( OU) Retrobulbar Papillitis Retrobulbar Retrobulbar Retrobulbar Retrobulbar Retrobulbar Retrobulbar Retrobulbar Papillitis Retrobulbar ( OU) Retrobulbar Retrobulbar Retrobulbar Papillitis ( OU) Papillitis Papillitis/ Vitritis Optic disc edema ( OU) Optic disc edema ( OU) Optic disc edema ( OU) Optic disc edema ( OU) Optic disc edema ( OU) Headaches, confusion, rapid vision loss ( 20/ 200 OU), amaurotic pupils and disc edema OU; Improved on IV ceftriaxone; CSF PCR positive for Lyme 2 y prior: EM, treated with doxcycycline 13 y prior: tick bite, EM; doxycycline, then iv ceftriaxone 9 y prior: flu, arthritis, + Lyme titer; doxycycline, resolved 2 y later: recurrent optic neuritis None None None Outdoor worker, back pains, periodontal disease Periodontal disease Antecedent viral syndrome, Bartonella titer ( 1: 1024) Antecedent viral syndrome 8m later: recurrence OS; 7 y prior: ? Tick bite and arthralgias, no rx Periodontal disease Antecedent pharyngitis, + Monospot Bilateral sequential optic neuritis Definite MS** Definite MS Definite MS; 7 y prior: ? EM, no rx, resolves Definite MS Definite MS Definite MS Definite MS Definite MS Definite MS Definite MS 4 mo hx of progressive painless vision loss; bilateral central scotomas CSF VDRL 1: 128 Gonorrhea, tonsillitis, genital lesions. Non- reactive CSF VDRL Homosexual encounters. Non- reactive CSF VDRL 3 wk prior: flu- like illness, EM Headaches, diplopia, sixth cranial nerve palsy 1.5 mo prior: fatigue and blurry vision Headaches, diplopia, and sixth cranial nerve palsy 1 mo hx of horizontal diplopia and headaches; divergence paresis 2 mo prior: tick bite then arthralgias. Sixth cranial nerve palsy Tick bite followed by headache, seventh cranial nerve palsy ( continued on next page) three cases with antecedent febrile syndromes ( cases 10, 11, 14), Case 14 had pharyngitis with a positive Monospot and Case 10 had bilateral neuroretinitis with a positive Bartonella titer. Three cases ( Cases 8,9,13) had a history of periodontal disease. Ten cases ( Cases 16- 25) were categorized as IVb (" causal linkage unlikely because an alternative diagnosis is more likely") because they met Poser criteria for defi­nite MS ( 20). Despite relapsing neurologic events, none of the nine patients who underwent lumbar puncture had intrathecal production of anti- S. burgdorferi antibody. Only one case ( Case 16) had a positive Western blot ( 5 IgG bands) but no suggestive symptoms or signs of LD. One case ( Case 25) who had 4 IgG bands on Western blot had 73 J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 Sibony et al TABLE 1. ( continued) Clinical and serologic features of Lyme titer- positive patients with idiopathic optic neuritis, syphilitic optic neuritis, and Lyme meningitis with papilledema 28 IVb Case Category Idiopathic optic 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 II III III IVa IVa IVa IVa IVa IVa IVa IVa IVa IVa IVa IVa IVb IVb IVb IVb IVb IVb IVb IVb IVb IVb Syphilis 26 27 IVb IVb Age/ gender neuritis 76/ M 52/ F 35/ F 40/ F 21/ F 42/ F 46/ F 27/ M 43/ F 46/ M 14/ M 67/ M 66/ M 18/ F 47/ F 18/ F 23/ M 34/ F 20/ M 28/ F 28/ F 35/ F 34/ F 41/ F 36/ M 73/ M 35/ M Lyme titer Ratio 4.68 1.13 1.51 1.07 1.08 1.12 1.19 1.12 1.29 1.29 1.48 1.67 1.79 1.93 2.76 1.03 1.04 1.05 1.05 1.23 1.23 1.85 1.97 2.29 2.61 5.68 5.51 IgM Serology Western blot ( kD) 23, 41, IgG: 18 23 28 39 41 45 58 IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM IgM Not IgM neg, IgG: 23, 41 23, IgG: neg neg, IgG neg, IgG neg, IgG neg, IgG 41 41 neg 28 39 93 41, IgG: 28 41 45 93 neg, IgG: 41 58 93 23, IgG: 41 46 neg, IgG: 41, 45 neg, IgG: 30 41 41, IgG: 41 41, IgG: 41, 23 neg, IgG: neg 41, IgG: 18 41 45 66 93 41, IgG: 41 60 23, 41, IgG: 18 41 58 neg, IgG: neg 41, IgG: 41 58 66 neg, IgG: 18 23 41 66 nsb 41, IgG: 30 41 66 41 23, IgG: neg neg, IgG: neg neg, IgG: 28 41 45 93 done 41, IgG: 41 with non specific VDRL FTA nr, nr nr, - nr, nr nr, nr nr, nr nr, nr nr, - nr, nr nr, nr nr, nr nr, nr nr, nr nr, nr nr, - nr, nr nr, nr nr, nr nr, nr nr, nr nr, + nr, nr nr, - nr, - nr, nr nr, nr 1: 128, 1: 128 1: 256, + Protein 199 56 38 35 24 17 28 27 56 28 41 28 45 37 35 33 30 35 81 60 97 55 Cell count 398 2 28 1 2 1 1 2 1 1 2 4 1 1 1 10 1 29 10 44 43 0 Spinal Tap Intrathecal Ab index 2.49 0.15 0.26 0.12 0.22 0.39 0.36 0.67 0.62 0.54 0.43 0.63 0.45 0 0.86 0.42 0.37 0.06 0.3 nd 0.6 OP 120 190 170 120 150 OCB + - + + --- --- ----- + - + - + nd nd IgG index 1.03 0.46 0.74 0.42 0.36 0.50 - - - - 0.91 - 0.49 - 0.84 0.51 1.32 0.80 1.31 nd nd MRI WMH, ONE WMH ONE WMH, ONE Normal WMH ONE Normal WMH Normal ONE CT, normal WMH WMH WMH WMH WMH WMH, ONE Normal WMH WMH, ONE WMH, ONE WMH WMH WMH normal normal 46/ M Papilledema 29 II 30 II 31 II 32 II 33 II 9/ M 7/ M 9/ M 6/ M 11/ F 9.70 6.75 8.13 8.19 9.02 bands between 50 - 72 kD 5.01 IgM: 41, IgG: 18, 41 1: 64, 4- Not done nr, - IgM: 41, IgG: 18 28 30 39 41 45 nr, - IgM: 23 39 41, IgG: 23 28 39 nr, - 41 66 93 IgM: 23 41, IgG: 18 23 28 39 41 93 nr, nr IgM: 23 39 41, IgG: 18 23 28 39 41 nr, - 45 93 43 105 35 50 25 34 16 24 48 19 5 0.82 0.94 1.12 0.88 0.79 0.65 130 nd nd normal 280 nd 240 nd 240 nd 310 nd 360 nd nd normal nd WMH nd normal - normal nd normal " Definite MS based on Poser diagnostic criteria ( 20). Category, level of evidence for causal link between optic neuropathy and LD; ON, optic neuritis; M, male; F, female; y, year; m, month; wk, weeks; EM, erythema migrans; nr, non- reactive; nd, not done; WMH, white matter hyperintensities on MRI; ONE, optic nerve enhancement on MRI; OCB, oligoclonal bands; OP, opening pressure. 74 © 2005 Lippincott Williams & Wilkins Lyme Serology in Optic Neuritis J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 E « & o II III IVa IVb Seropositive idiopathic optic neuritis ( n = 25) IVb Syphilitic optic neuritis < n = 3) D - O- _ CL Papilledema with Lyme meningitis ( n = 5 ) FIG. 1. Lyme ELISA serology ratio in patients who had idiopathic optic neuritis, syphilitic optic neuritis, or Lyme meningi­tis with secondary increase in intracranial pressure causing papilledema. A ratio of > 1 is considered positive. Note that Lyme ELISA ratios are normal or only mildly positive among patients with idio­pathic optic neuritis ( with one exception, case 1), higher in those with syphilitic optic neuritis ( false- positives), and very high in those with Lyme meningitis and papilledema. Roman numerals indicate our criteria for strength of evidence of causal link between Lyme disease and optic neuritis. I, definite proof; II, strong evidence; III, possible; IV, unlikely. a longstanding history of relapsing neurologic episodes that included brainstem and cerebellar signs at different times. He had been treated previously with intravenous ceftriax­one and never had arthritis, EM, facial nerve paresis, or radiculoneuritis. One case ( Case 21) with papillitis had four IgG bands on Western blot with a 3- week episode of limb weakness and paresthesias 3 months before the onset of optic neuritis. These manifestations were followed 6 months later with new white matter lesions on brain MRI. One case ( Case 23) had two IgM bands on Western Blot alone, but had a 13- year history of relapsing and progressive weak­ness, paresthesias, ataxia, and optic neuritis. Another case ( Case 18) with definite MS had two IgM bands and three IgG bands on Western blot and a questionable history of LD based on the patient's description of an EM- like rash 7 years before the onset of optic neuritis. The remaining five pa­tients with MS had Western blots that were unequivocally negative. Three cases with papillitis ( Cases 26- 28) that had significantly elevated Lyme ELISA ratios met criteria for syphilis ( Fig. 1). One case ( Case 28) had an associated vitreitis. All three had a positive VDRL and FTA. Only one case had CSF pleocytosis with a positive CSF VDRL. Lyme Western blots, performed in two cases, were negative. Five cases with LD ( 4 boys, 1 girl, aged 6- 11 years) had bilateral optic disc edema associated with meningitis and increased intracranial pressure ( Cases 29- 33). Each had normal acuity, pupils, and color vision and visual field enlargement of the blind spots. The optic disc edema was diagnosed as papilledema in these five cases. Four had headaches, four had diplopia caused by sixth cranial nerve palsy or divergence paresis, and one had a facial nerve palsy. Lyme ELISA ratios in each case were elevated between 6.75 and 9.70 ( Fig. 1). Four of the five had undergone Western blot testing, three of whom were positive for both IgM ( 2- 3 bands) and IgG ( 6- 7 bands); one was positive for IgG ( 6 bands) alone. The case that did not have a Western blot performed had EM diagnosed by an experienced physician. Opening pressures on lumbar puncture ranged between 240 and 360 mm water, and cerebrospinal protein was elevated in two of four patients. Cerebrospinal fluid pleocytosis was present in all but one patient ( 16- 48 cells/ mm3); intrathecal antibody index was elevated in one patient. All symptoms and signs resolved after treatment with intravenous ceftriaxone; there were no recurrences. Table 2 compares the demographic, clinical, and labo­ratory features of the 25 seropositive optic neuritis patients to 50 seronegative optic neuritis cases. There were no sta­tistically significant differences between the two groups with respect to age, gender, eye involvement, follow- up, pain, visual acuities at presentation and follow- up, or the fre­quency of papillitis, MRI abnormalities, CSF abnormali­ties, and MS. Vision improved spontaneously or before initiation of antibiotic treatment of LD in 17 ( 68%) of the 25 seropositive cases. DISCUSSION Establishing a causal relationship between optic neuritis and LD requires a rigorous and restrictive analysis of the evidence ( 19,21- 24). Despite a number of case re­ports claiming an association, strong evidence of a causal relationship has only been clearly established for papillitis ( Table 3, and see Literature Review). Our experience, accu­mulated more than 10 years in a region hyper- endemic for LD, indicates that optic neuritis is an exceedingly uncom­mon manifestation of LD. During this time, we encountered only one case- a patient with papillitis- that could be con­fidently attributed to active B. burgdorferi infection. Nota­bly, asymptomatic seropositivity to B. burgdorferi in an endemic region such as Suffolk County is 5% to 10%, 75 J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 Sibony et al TABLE 2. Seropositive vs seronegative optic neuritis Seropositive optic neuritis Patients 25 Eyes 29 Seronegative optic neuritis 50 51 Demographics Age Mean SD Gender Male Female Eye involvement OD OS OU Follow- up ( months) Mean SD Clinical features Pain Visual acuity At presentation 20/ 40 or better 20/ 50 - 20/ 100 20/ 200 or worse At follow- up 20/ 40 or better 20/ 50- 20/ 100 20/ 200 or worse Optic disc Papillitis MRI n = Normal T2 hyperintensities Optic nerve enhancement Cerebrospinal fluid n = Normal Pleocytosis > 5 cells Protein > 45 Oligoclonal bands IgG index Intrathecal antibody Multiple sclerosis 37.5 15.6 9 16 10 11 4 14.2 16.1 17 8 6 15 25 2 2 5 5 17 7 9 6 5 6 7 1 10 36% 64% 40% 44% 16% 68% 28% 21% 52% 86% 7% 7% 20% 24 21% 71% 29% 21 43% 29% 24% 29% 33% 40% 36.1 12.0 13 37 22 27 1 13.1 19.7 42 14 15 22 43 3 5 9 17 21 10 8 6 6 5 6 12 26% 74% 44% 54% 2% 84% 27% 29% 43% 84% 6% 10% 18% ns ns 47 36% 45% 21% 16 50% 38% 38% 31% 38% > t tested 24% ns ns ns ns ns ns ns ns Continuous variables: 2- sample t test. Categorical data: Fisher exact test. ns, not significant; SD, standard deviation. 76 © 2005 Lippincott Williams & Wilkins Lyme Serology in Optic Neuritis J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 TABLE 3. Reported cases Papilledema Raucher HS, 198592 Bendig JWA, 198794 lacobson DM, 198993 Lesser RL, 199053 Kan L, 199895 Rothermel H, 200143 Present study Papillitis Wu G, 198648 Schechter S, 198645 Farris BK et al, 198888 Gustafson R, 1988s6 Arnold RW, 199347 Bouat et al, 199544 Fedorowski ]], 199649 Morales et al, 200046 Rothermel H et al, 200143 Burkhard C, 200142 Present study Neuroretinitis Bialasiewicz et al, 198964 Winterkorn IMS, 19902 Lesser RL, 199053 Schoneherr U, 1991s5 Smith IL, 1991s0 Lesser RL, 19986a Lochhead I et al, 200150 Present study Retrobulbar optic neuritis Lesser RL et al, 199053 lacobson DM et al, 1991, 200351' 52 Strominger et al, 199484 Scott IU et al, 199754 Present study Ischemic optic neuropathy Winward KE, 198989 Pizzarello LD, 1989101 Optic atrophy Winward KE, 198989 Bertuch AW, 1988s7 Morales et al, 200046 of Lyme disease with optic nerve I ( Definitive) II ( Strong) 1,2 1 3 29- 33 l, 2,4a 1 1 involvement by categories of evidence III ( Possible) 1 1 1 lc lb la 1 3a 5 la 2,3,5 3 1 2,3 IV ( Unlikely) 1 lb 11, 13,21 [ 26- 28e] ld 1 6 1 1 4,2,1 1 4- 9, 12, 14- 20, 22- 25 4 1 3 V ( Insufficient information) 1 10 1 2 The entry in each cell is the author's case number, categorized based on the definitions described in the methods section of this article. If the author's terminology differed from the category used in this Table or if the case did not clearly fall into a specific group, the superscript indicates an alternative categorical description, e. g., papillitis with intracranial hypertension; ischemic optic neuropathy; cneuroretinitis; uveitic papillitis. Papillitis cases 26- 28e from the present study were caused by syphilis. ( 25,26), matching the 5.7% ( 25 of 440) seropositivity of our gory III cases ( Cases 2 and 3) and possibly two category optic neuritis patients. IV cases ( Cases 12 and 18) in subjects who may have had A positive serology does not differentiate between LD 7 to 13 years before optic neuritis developed. The active infection and previous exposure. Patients may re- remote history ofLD, the absence of any coexistent signs of main seropositive for years, even after adequate antibiotic recurrent infection, the negative Western blots at the time treatment ( 16,27,28). This probably explains the two cate- of vision loss, and visual improvement without antibiotic 77 J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 Sibony et al treatment suggest that the optic neuritis was probably unrelated. False- positive Lyme serologies can occur in patients with other spirochetal infections ( syphilis, periodontal disease, and relapsing fever) ( 29- 32). This was evident in three of our cases with syphilis ( Cases 26- 28) who had quite elevated ELISA ratios (> 5.00). Three seropositive category IVa patients ( cases 8, 9, 13) had a history of periodontal disease. Serum Lyme ELISA may also be non-specifically elevated in patients with autoimmune diseases and other infections ( 33,34). Three of the category IVa cases ( Cases 10, 11, 14) had false- positive Lyme serologies caused by previous exposure or non- specific humoral expansion from an unrelated viral or bacterial infection. Lyme- seropositive optic neuritis in a patient with MS is often incorrectly attributed to Lyme disease. To qualify for a diagnosis of Lyme disease, such patients, who generally have longstanding and persistent immune CSF abnormalities, should have evidence of a specific CSF immune response to B. burgdorferi ( 35- 39). Because none of our 10 patients with MS ( Cases 16- 25) had evidence of intrathecal production of anti- S. burgdorferi antibody or a clinical history compatible with LD, we believe that a causal relationship to LD is unlikely. Although case 16 had a positive Western blot, there were no other manifes­tations of LD and vision recovered before antibiotic treat­ment was instituted. The reactive Lyme serology in this patient presumably reflected a previous unrelated exposure. Whereas the Western blot has eliminated many of the difficulties in the interpretation of the ELISA, it still has limitations. Although its specificity is high, its sensitivity is not. Interpretation is somewhat subjective and the pro­cedure lacks standardization across laboratories. IgM cri­teria are only considered meaningful in cases with acute disease ( 16,19,33,34,40,41). Cases with non- Lyme spiro­chetal infections may have false- positive Western blots ( 31,33,34). Nonetheless, we found the Western blot useful to confirm neurologic LD with optic neuritis. Blots were pos­itive in the only category II patient ( Case 1) with papillitis and in all four patients ( Cases 30- 33) with papilledema in whom the Western blot test was performed. Each of these had ELISA ratios of more than 4.0 and positive Western blots that exceeded the minimum CDC requirements. In contrast, the two cases with syphilitic papillitis ( Cases 27 and 28) in whom Western blots were obtained, and 18 of the remaining 24 optic neuritis patients, had ELISA ratios less than 3.00 and Western blots that were unequivocally negative (^ 1 IgM band, ^ 3.0 IgG bands). Among five remaining cases ( Cases 8, 18, 21, 23, 25) with formally negative Western blots ( 2 IgM bands and longstanding neu­rologic disturbances or 4 IgG bands), four had MS ( Cases 18, 21, 23, 25). Literature Review There are several reported cases of papillitis that appear to meet category II evidence for a causal link to LD. Burkhard ( 42) described a 59- year- old woman with EM, facial nerve palsy, lymphocytic meningitis, and " papil­ledema." Although the lumbar puncture opening pressure was not reported, a central scotoma in one eye and an arcuate scotoma in the other were more typical of papillitis than papilledema. Similarly, Rothermell et al ( 43) described three compelling cases of unilateral and bilateral papillitis in children with high serum titers, positive Western blots with 8 to 10 IgG bands, and other signs of LD. Several additional case reports of papillitis caused by LD fall short of category II requirements ( 44- 49) because syphilis serologies were not reported ( 45, 48), serum titers were negative ( 49), or Western blot was either not reported ( 44,45,48) or did not meet CDC criteria ( 47,46). These category III cases, considered individually, would not be sufficient to establish a causal linkage, but taken as a whole, support the category II cases of papillitis. Four previously reported cases had features of both papilledema and papillitis, characterized by rapid vision loss, bilateral optic disc edema, and intracranial pressures ranging between 240 to 570 mm ( 43,46,47,50). Some of these cases might be grouped with the papilledema-meningitis cases, but the rapidity and severity of vision loss was more typical of papillitis. Among the nine published cases of retrobulbar neu­ritis reportedly caused by LD ( 51- 54), none meets rigorous criteria for a causal link to LD. Jacobson ( 51) described four patients with typical retrobulbar optic neuritis and positive serological and CSF findings of LD. However, in a follow- up letter to the editor 12 years later ( 52), two of the original four patients ultimately had MS diagnosed, and another, in retrospect, was believed to have a questionable link of LD. Although the remaining case nearly satisfied category II criteria, the IgG Western blot ( with 3 bands) does not meet CDC requirements. Apart from a history of tick exposure, the patient had no features suggesting LD. Lesser ( 53) described three patients ( his cases 2, 3, and 5) with painless retrobulbar optic neuropathies and significantly elevated Lyme titers. The clinical evidence for LD in his cases 3 and 5 is compelling. However, these cases predate the widespread use of the Western blot, syphilis se­rologies were not reported, the single patient who under­went a lumbar puncture only showed nonspecific spinal fluid abnormalities and vision loss developed despite anti­biotic treatment. Scott ( 54) reported a 10- year- old girl with arthralgias and unilateral painful retrobulbar optic neuropathy, chiasmal MRI enhancement, elevated Lyme IgG IFA of 1: 512, and four bands on the IgG Western blot. Spinal fluid 78 © 2005 Lippincott Williams & Wilkins Lyme Serology in Optic Neuritis J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 and intrathecal antibody assays were negative. The clinical manifestations did not improve after antibiotic treatment. This case is similar to three of our cases ( Cases 8, 21, 25) who had 4 IgG bands on Western blot. MS developed in two of them ( Cases 21, 25). It is likely that all three had been previously exposed to the Lyme spirochete and the optic neuritis was probably not caused by LD. Strominger and Slamovits ( 84) described a 58- year- old seronegative woman with subclinical retrobulbar optic neuropathy, chronic radiculoneuritis, a positive CSF PCR and T cell proliferation assay, and a Herxheimer reaction. However, this case does not meet the CDC criteria for the diagnosis of LD. Based on the published literature, the causal link between neuroretinitis and LD has not been clearly estab­lished. Analysis is complicated by the varying clinical criteria used for diagnosis. Neuroretinitis ( Leber's idio­pathic stellate neuroretinitis) is strictly denned as a form of papillitis characterized by disc edema, stellate macular exudates, and posterior vitreous cells. The occurrence of non- inflammatory macular star with disc edema in severe papilledema, ischemic optic neuropathy, or acute hyper­tensive retinopathy, may be confused with neuroretinitis ( 55- 58). Some authors have also applied the term neuro­retinitis to any type of disc edema with uveitis or retinitis, even in the absence of a macular star ( 59- 64), a condition we call " uveitis." The detection of B. burgdorferi DNA by PCR in the vitreous of a patient with pars planitis ( 65), the observation and culture of B. burgdorferi from intraocular specimens of patients with panuveitis ( 66), and its demonstration in the eye of an animal model with spirochetemia ( 67,68) all meet category I criteria and establish that B. burgdorferi can cause intraocular inflammation. Although neither we nor others ( 69,70) have seen cases of Lyme uveitis, these ex­perimental studies, together with many reports on a variety of uveitic syndromes implicating LD ( 65,66,70- 81), are sufficient to establish a plausible linkage between LD and uveitis ( 60,62,64,81- 84). The case for classically denned neuroretinitis is less clear. Our series included only one case of Lyme- seropositive neuroretinitis. The negative Western blot, the positive Bartonella titer, and the absence of any other clinical signs of LD make it unlikely that this patient had LD. Our case is similar to most of the other reported seropositive cases of neuroretinitis ( 2,6a, 53,64,80,85). Although some had sys­temic prodromes consisting of fatigue ( 80), arthralgias ( 53,80) fever ( 2,85), or mild CSF pleocytosis ( 79), these findings cannot be used to support a diagnosis of LD because such findings are common in patients with neuroretinitis. Reactive Lyme serologies in these cases may represent previous exposure or a virus- related humoral expansion. One case ( 50) meets category III criteria for a neuroretinitis link to LD, that of a 7- year- old with a facial nerve palsy, followed 5 weeks later by acute vision loss, meningeal symptoms, bilateral disc edema, and " macular exudates" ( but no posterior vitreous cells). The case had elements of both papillitis and papilledema, with intracra­nial pressure of 400 mm H20, acellular CSF, positive serum and CSF Lyme antibody tests, and a positive CSF Lyme PCR. Western blot testing was not reported. This case unquestionably had LD but it was unclear if the macular exudates were the result of classic neuroretinitis or severe papilledema. Some published cases that describe the ophthalmic manifestations of LD have omitted serological testing for syphilis ( 53,86,87). In others, serological testing indicated that syphilis was at least as likely to be the cause of the optic neuropathy ( 88,89). Our three cases of luetic papillitis un­derscore the importance of obtaining syphilis serologies in cases with optic neuropathies and reactive Lyme serologies. Because spirochetes share common antigens, serological tests frequently cross- react. Depending on the method, Lyme ELISAs may be positive in approximately 20% to 60% of cases with syphilis, whereas 20% of cases with LD may have a weakly positive FTA- ABS ( usually < 1: 10). Re-aginic tests, such as the RPR or VDRL, are usually negative inLD ( 31,90,91). In contrast to most of our cases with optic neuritis, the five cases with papilledema consistently met category II evidence of a causal link to LD, with very high Lyme ELISAs, positive Western blots, or a physician- diagnosed EM ( 29). Among seven previously published case reports that provided detailed eye findings, four cases ( 43,92,93) meet category II criteria and three cases ( 53,94,95) meet category III criteria. In addition, at least five published series described " papilledema" in patients with neuro-borreliosis, ( 96- 100), although these reports did not always provide the opening pressure or the specifics about the eye findings. In some reported cases of LD with intracranial hypertension, the CSF protein concentration and cell count were normal, presumably because the spinal tap was per­formed either before or after a transient pleocytosis ( 53,92). In two cases ( 92) with initially normal CSF, lumbar punc­ture was repeated and demonstrated a pleocytosis in one case and elevated protein in the other. This may explain why some LD patients have a " pseudotumor- like" syn­drome ( 53). The occurrence of papilledema in patients with Lyme meningitis is well- established and consistent with our experience. In summary, there seems little doubt that LD can affect the optic nerve. The most common manifestation occurs in children with early disseminated disease: Lyme meningitis, intracranial hypertension, and papilledema. These patients have high serum Lyme ratios and unequiv­ocally positive Western blots. Optic neuritis in LD is rare and usually expressed as a unilateral or bilateral papillitis 79 J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 Sibony et al during the early disseminated stage. Optic disc edema in posterior uveitis can also be caused by LD, although we have encountered this clinical presentation in only one patient with syphilis with a false- positive Lyme titer. There is no convincing evidence that LD causes retrobulbar neuritis. Although there is suggestive evidence ( 51,53,54) that a painless retrobulbar optic neuropathy may occur in chronic neuroborreliosis, this requires further confirmation. LD may ultimately be shown to cause classic neuroretinitis but compelling evidence of a causal linkage is lacking. Nonetheless, the workup for neuroretinitis should include testing for LD, particularly if there are signs of intraocular inflammation. Optic neuropathy in LD does not generally occur in isolation; it is usually accompanied by meningeal symp­toms, antecedent febrile illness, EM, facial nerve palsy, or arthritis. Positive Lyme serology in patients with isolated retrobulbar optic neuritis in the absence of other signs, or in patients with otherwise typical MS, may be misleading. Acknowledgment The authors are particularly grateful to Marc G. Golightly, PhD, Director of the Clinical Immunology Laboratory at University Medical Center, Stony Brook, for his invaluable technical advice and support. REFERENCES 1. Steere AC, Malawista SE, Snydman DR, et al. Lyme arthritis: an epidemic of oligoarticular arthritis in children and adults in three Connecticut communities. Arthritis Rheum 1977; 20: 7- 17. 2. Winterkorn JM. Lyme disease: neurologic and ophthalmic manifestations. Surv Ophthalmol 1990; 35: 191- 204. 3. Jacobson DM. Neuro- ophthalmic aspects of Lyme disease. Ophthalmol Clin North Am 1991; 4: 463- 78. 4. Balcer LJ, Winterkorn JM, Galetta SL. Neuro- ophthalmic manifes­tations of Lyme Disease. JNeuro- ophthalmology 1992; 17: 108- 21. 5. Wittpenn JR, Sibony PA, Dattwyler RJ. Lyme Borreliosis. In: Pepose JS, Holland GN, Wilhelmus KR, et al, eds. Ocular Infections and Immunity. St Louis: Mosby; 1995: 1469- 79. 6. Wittpenn JR, Sibony PA. Ophthalmic manifestations. In: Coyle PK, ed. Lyme Disease. St Louis: Mosby Yearbook; 1993: 93- 100. 6a. Lesser RL. Spirochetes and the spirochetoses. Miller NR, Newman NJed. Walsh andHoyt's ClinicalNeuro- Ophthalmology Baltimore: Williams and Wilkins; 1998: Chapter 67: 4779^ 832. 7. Reik L. Lyme disease and the nervous system. New York: Thieme Medical Publishers; 1991: 57, 59. 8. Reik L Neurologic aspects of North American Lyme disease. In: Coyle PK, ed. Lyme Disease. St Louis: Mosby Yearbook; 1993: 104. 9. Bergloff J, Gasser R, Feigl B. Ophthalmic manifestations of Lyme Borreliosis. JNeuro- ophthalmol 1994; 14: 15- 20. 10. MacDonald AB. Lyme disease: A neuro- ophthalmologic view. J Clin Neuro- ophthalmol 1987; 7: 185- 90. 11. Kanski JJ, Bolton A. Illustrated tutorials in Clinical Ophthalmol­ogy. Oxford: Butterworth Heinemann; 2001: 350. 12. Newman SA, Arnold AC, Friedman DI, et al. Basic and Clinical Science Course: Neuro- ophthalmology- Section 5. San Francisco: Foundation of the American Academy of Ophthalmology; 2001- 2002: 347. 13. Jacobs DA, Galetta SL. Multiple sclerosis and visual system. Ophthalmol Clin North Am 2004; 17: 265- 73. 14. Swallow C. Optic neuritis [ E Medicine Website]. July 20, 2004. Available at: http:// www. emedicine. com/ radio/ topic488. htm. Ac­cessed: August 13, 2004. 15. Centers for Disease Control and Prevention. Case definitions for infectious conditions under public health surveillance. MMWR Morb Mortal Wkly Rep 1997; 46( RR- 10): 1- 55. 16. Recommendations for the test performance and interpretation from the Second National conference on Serologic Diagnosis of Lyme disease. MMWR Morb Mortal Wkly Rep 1995: 44: 590- 1. 17. Halperin JJ, Luft BJ, Anand AK, Roque CT, Alvarez O, Volkman DJ, Dattwyler RJ. Lyme neuroborreliosis: central nervous system manifestations. Neurology 1989; 39: 753- 9. 18. Halperin JJ, Volkmann DJ, Wu P. Central nervous system abnor­malities in Lyme Neuroborreliosis. Neurology 1991; 41: 1571- 82. 19. Halperin JJ, Logigian EL, Finkel MF, Pearl RA. Practice parameters for the diagnosis of patients with nervous system Lyme borreliosis ( Lyme disease). Neurology 1996; 46: 619- 27. 20. Poser CM, Paty DW, Scheinber L, et al. New Diagnostic Criteria For Mult Scler; Guidelines For Research Protocols. Ann Neurol 1983; 13: 227- 31. 21. Reid MC, Schoen RT, Evans J, Rosenberg JC, Horwitz R. The consequences of overdiagnosis and overtreatment of Lyme disease: an observational study. Ann Intern Med 1998; 128: 354- 62. 22. Steere AC, Taylor E, McHugh GL, Logigian EL. The overdiagnosis of Lyme disease. JAMA 1993; 269: 1812- 6. 23. Coyle PK. Advances and pitfalls in the diagnosis of Lyme disease. FEMS Immunol Med Microbiol 1997; 19: 103- 9. 24. Feder H Jr, Whitaker DL. Misdiagnosis of erythema migrans. Am J Med 1995; 99: 412- 9. 25. Hanrahan JP, Benach JL, Coleman JL, et al. Incidence and cumulative frequency of endemic Lyme disease in a community. J Infect Dis 1984; 150: 489- 96. 26. Steere AC, Taylor E, Wilson ML, Levine JF, Spielman A. Longitutdinal assessment of the clinical and epidemiologic features of Lyme disease in a defined population. J Infect Dis 1986; 154: 295- 300. 27. Craven RB, Quan TJ, Bailey RE, et al. Improved serodiagnostic testing for Lyme disease; results of a multi center serologic evaluation. Emerging Infect Dis 1996; 2: 136^ 0. 28. Bakken LL, Callister SM, Wand PJ, Schell RF. Interlaboratory comparison of test results for detection of Lyme disease by 516 participants in the Wisconsin State Laboratory of Hygiene/ College of American Pathologists proficiency testing program. J Clin Microbiol 1997; 35: 537^ 3. 29. Magnarelli LA, Anderson JF, Johnson RC. Cross- reactivity in serologic tests for Lyme disease and other spirochetal infections. J Infect Dis 1987; 156: 183- 8. 30. Johnson RC, Johnson BJ. Lyme disease: serodiagnosis of Borrelia burgdorferi sensu lato infection. In: Rose NR, Conway de Macario E, Folds JD et al, eds. Manual of Clinical Laboratory Immunology, 5th ed. Washington, DC: American Society for Microbiology Press; 1997: 526- 33. 31. Magnarelli LA, Miller JN, Anderson JF, Riviere GR. Cross-reactivity of nonspecific Treponema 1 antibody in serologic tests for Lyme disease. J Clin Microbiol 1990; 28: 1276- 9. 32. Schwan TG, Burgdorfer W, Rosa PA. Borrelia. In: Murray PR, Baron EJ, Pfaller MA, et al, eds. Manual of Clinical Microbiology, 6th ed. Washington DC: American Society for Microbiology Press; 1995: 626- 35. 33. Golightly MG. Antibody Assays. In: Coyle PK, ed. Lyme Disease. St. Louis: Mosby YearBook; 1993: 115- 20. 34. Golightly MG, Thomas JA, Viciana AL. The laboratory diagnosis of Lyme borreliosis. Lab Med 1990; 21: 299- 304. 35. Hansen K, Lebech AM. Lyme neuroborreliosis: a new sensitive diagnostic assay for intrathecal synthesis of B. burgdorferi- specific immunoglobulins G, A and M. Ann Neurol 1991; 30: 197- 205. 36. Pachner AR. CNS Lyme disease ( letter). Neurology 1990; 40: 189. 37. Stiernstedt GT, Granstrom M, Hederstedt B, Skoldenberg B. Diag­nosis of spirochetal meningitis by enzyme linked immunosorbent assay and indirect immunofluorescence assay in serum and cer-brospinal fluid. J Clin Microbiol 1985; 21: 819- 25. 80 © 2005 Lippincott Williams & Wilkins Lyme Serology in Optic Neuritis J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 38. Wilske B, Schierz G, Preac- Mursic V, et al. Intrathecal production of specific antibodies against B. burgdorferi in patients with lym­phocytic meningoradiculitis ( Bannwarth's syndrome). J Infect Dis 1986; 153: 304- 14. 39. Steere AC, Berardi VP, Weeks KE, Logigian EL, Ackerman R. Evaluation of the intrathecal antibody response to B. burgdorferi as a diagnositc test for Lyme neuroborreliosis. J Infect Dis 1990; 161: 1203- 9. 40. Dressier F, Whalen JA, Reinhardt BN, Steere AC. Western blotting in the serodiagnosis of Lyme disease. J Infect Dis 1993; 167: 392^ K) 0. 41. Grodzicki RL and Steere AC. Comparison of immunoblotting and indirect enzyme linked immunosorbent assay using different antigen preparations for diagnosisng early Lyme disease. J Infect Dis 1988; 157: 790- 7. 42. Burkhard C, Gleichmann M, Wilhelm H. Optic nerve lesion fol­lowing neuroborreliosis: a case report. Eur J Ophthalmol 2001; 11: 203- 6. 43. Rothermel H, Hedges TR 3rd, Steere A. Optic neuropathy in children with Lyme disease. Pediatrics 2001; 108: 477- 81. 44. Bouat C, Meyer F, Rosier S, Boitte JP, Lawani R, Bregigeon M. Un cas rare de nevrite optique bilaterale dans une neuroborreliose de Lyme. Med Trop 1995; 55: 462- 5 45. Schechter SL. Lyme disease associated with optic neuropathy. Am J Med 1986; 81: 143- 5. 46. Morales DS, Siatkowski RM, Howard CW, Warman R. Optic neuritis in Children. J Pediatric Ophthal Strabismus 2000; 37: 254- 9. 47. Arnold RW, Schriever G. Lyme amaurosis in a child. J Ped Ophthalmol Strabismus 1993; 30: 268- 70. 48. Wu G, Lincoff H, Ellsworth RM, Haik BG. Optic disc edema and lyme disease. Ann Ophthalmol 1986; 18: 252- 5. 49. Fedorowski JJ, Hyman C. Optic Disc Edema as the presenting sign of Lyme disease. Clin Infect Dis 1996; 23: 639^ 0. 50. Lochhead J, Thompson GM. Bilateral papilledema with concom­itant neuroretinitis in a 7- year old girl with Lyme disease. Eye 2001; 15: 799- 801. 51. Jacob son DM, Marx JJ, Dlesk A. Frequency and clinical signifi­cance of Lyme seropositivity in patients with isolated optic neuritis. Neurology 1991; 41: 706- 11. 52. Jacobson DM. Lyme disease and optic neuritis: long term follow- up of seropositive patients. Neurology, 2003; 60: 881- 2. 53. Lesser RL, Kornmehl EW, Pachner AR, et al. Neuro- ophthalmo-logic Manifestations of Lyme Disease Ophthalmology 1990; 97: 699- 706. 54. Scott IU, Silva- Lepe A, Siatkowski RM. Chiasmal optic neuritis in Lyme disease. Am J Ophthalmol 1997; 123: 136- 8. 55. Dreyer RF, Hopen G, Gass JD, Smith JL. Leber's Idiopathic stellate neuroretinitis. Arch Ophthalmol 1984; 102: 1140- 5. 56. Carroll DM, Franklin RM. Leber's idiopathic stellate retinopathy. Am J Ophthalmol 1982; 93: 96- 101. 57. Maitland CG, Miller NR. Neuroretinitis. Arch Ophthalmol 1984; 102: 1146- 50. 58. Suhler EB, Lauer AK, Rosenbaum JT. Prevalence of serologic evidence of Cat Scratch Disease in patients with neuroretinitis. Ophthalmology 2000; 107: 871- 6. 59. Folk JC, Weingeist TA, Corbett JJ, Lobes LA, Watzke RC. Syphilitic neuroretinitis. Am J Ophthalmol 1983; 95: 480- 6. 60. Karma A, Stenborg T, Summanen P, Immonen I, Mikkila H, Seppala I. Long- term follow- up of chronic Lyme neuroretinitis. Retina 1996; 16: 505- 9. 61. Karma A, Seppala I, Mikkila H, Kaakkola s. Viljanen M, Tarkkanen A. Diagnosis and clinical characteristics of ocular Lyme Borreliosis. Am J Ophthalmol 1995; 119: 127- 35. 62. Mikkila H, Seppala I, Leirisalo- Repo M, Immonen I, Karma A. The etiology of uveitis: the role of infections with special reference to Lyme borreliosis. Acta Ophthalmologica Scand 1997; 75: 716- 9. 63. Amiga J, Valentines J, Mauri F, et al. Neuroretinitis in acquired syphilis. Ophthalmology 1985; 92: 262- 70. 64. Bialasiewicz AA, Huk W, Druschky KF, et al. [ Borrelia burgdorferi infection with bilateral optic neuritis and intracerebral demyeliniza-tion lesions]. Klin Monatsbl Augenheilkd 1989; 195: 91^. 65. Hilton E, Smith C, Sood S. Ocular lyme borreliosis diagnosed by polymerase chain reaction on vitreous fluid. Ann Intern Med 1996; 125: 424- 5. 66. Preac- Mursic V, Pfister HW, Spiegel H, Burk, et al. First isolation of Borrelia burgdorferi from an iris biopsy. J Clin Neuroophalmol 1993; 13: 155- 61. 67. Steere AC, Duray PH, Kauffmann DJ, Wormser GP. Unilateral blindness caused by infection with the lyme disease spirochete, Borrelia burgdorferi. Ann Intern Med 1985; 103: 382^ k 68. Johnson RC, Marek N, Kodner C. Infection of Syrian hamsters with Lyme disease spirochetes. J Clin Microbiol 1984; 20: 1099- 101. 69. Rosenbaum JT, Rahn DW Prevalence of Lyme disease among patients with uveitis. Am J Ophthalmol 1991; 112: 462- 3. 70. Breeveld J, Rothova A, Kuiper H: Intermediate uveitis and Lyme borreliosis. Br J Ophthalmol 1992; 76: 181- 2. 71. Karma A, Pirttila TA, Viljanen MK, Lahde YE, Raitta CM. Secondary retinitis pigmentosa and cerebral demyelination in Lyme borreliosis. Br J Ophthalmol 1993; 77: 120- 2. 72. Mikkila HO, Seppala IJ, Viljanen MK, Peltomaa MP, Karma A. The expanding clinical spectrum of ocular Lyme Borreliosis. Ophthal­mology 2000; 107: 581- 7. 73. Mikkila HO, Seppala IJ, Leirisalo- Repo M, Immonen I, Karma A. The etiology of uveitis: the role of infections with special refer­ence to Lyme borreliosis. Acta Ophthalmologica Scand 1997; 75: 716- 9. 74. Mikkila HO, Seppala IJ, Leirisalo- Repo M, Karma A. The signif­icance of serum anti- Borrelia antibodies in the diagnositic work up of uveitis. Eur J Ophthalmol 1997; 7: 251- 5. 75. Niutta A, Barcaroli I, Palombi E. Monolateral chorioretinitis with multiple foci in one case of Lyme disease. Ann Ophthalmol 1993; 25: 257- 61. 76. Rothova A, Kuiper H, Spanjaard L, et al. Spiderweb vitritis in Lyme borreliosis. Lancet 1991; 337: 490- 1. 77. Suttorp- Schulten MS, Kuiper H, Kijlstra A, van Dam AP, Rothova A. Long term effects of ceftriaxone treatment on intraocular lyme borreliosis. Am J Ophthalmol 1993; 116: 571- 5. 78. Kuiper H, Koelman JH, Hager MJ. Vitreous clouding associated with Lyme Borreliosis. Am J Ophthalmol 1989; 108: 453^ k 79. Bialasiewicz AA, Ruprecht KW, Naumann GO, Blenk H. Bilateral diffuse choroiditis and exudative retinal detachments with evidence of lyme disease. Am J Ophthalmol 1988; 105: 419- 20. 80. Smith JL. Ocular Lyme borreliosis- 1991. Int Ophthalmol Clin 1991; 31: 17- 38. 81. Smith JL. Neuro- ocular Lyme Borreliosis. Neurol Clin 1991; 9: 35- 53. 82. Winward KE, Smith JL, Culbertson WW, Paris- Hamelin A. Ocular Lyme Borreliosis. Am J Ophthalmol 1989; 108: 651- 7. 83. Boutros A, Rahn E, Nauheim R. Iritis and papillitis as a primary presentation of Lyme disease. Ann Ophthalmol 1990; 22: 24- 5. 84. Strominger MB, Slamovits TL, Herskovitz S, Lipton RB. Transient worsening of optic neuropathy as a sequela of Jarisch- Herxheimer reaction in treatment of Lyme Disease. J Clin Neuro- ophthal 1994; 14: 77- 80. 85. Schonherr U, Lang GE, Meythaler FH. Bilaterale Lebersche Neuroretinitis stellata bei Borrelia burgdorferi- Serokonversion. Klin Mbl Augenheilk 1991; 198: 44- 7. 86. Gustafson R, Svenungsson B, Unosson- Hallnas K. Optic neurop­athy in Borrelia infection. J Infection 1988; 17: 187- 8. 87. Bertuch AW, Rocco E, Schwartz EG. Lyme disease: ocular mani­festations. Ann Ophthalmol 1988; 20: 376- 8. 88. Farris BK, Webb RM. Lyme disease and optic neuritis. J Clin Neuro- Ophthalmol 1988; 8: 73- 8. 89. Winward KE, Smith JL. Ocular disease in Caribbean patients with serologic evidence of Lyme Borreliosis. J Clin Neuro- ophthal 1989; 9: 65- 70. 90. Russell H, Sampson JS, Schmidt GP, et al. Enzyme- linked immuno­sorbent assay and indirect immunofluorescence assay for Lyme disease. J Infect Dis 1984; 149: 465- 70. 91. Hunter EF, Russell H, Farshy CE, et al. Evalution of sera from patients with Lyme disease in fluorescent Treponema 1 antibody-absorption test for syphillis. Sex Transm Dis 1986; 13: 232- 6. 81 J Neuro- Ophthalmol, Vol. 25, No. 2, 2005 Sibony et al 92. Raucher HS, Kaufman DM, Goldfarb J, Jacobson RI, Roseman B, Wolff RR. Pseudotumor cerebri and Lyme disease: a new associa­tion. J Pediatrics 1985; 107: 931- 3. 93. Jacobson DM, Frens DB. Pseudotumor cerebri syndrome associated with Lyme disease. Am J Ophthalmol 1989; 107: 81- 2. 94. Bendig JW, Ogilvie D. Severe encephalopathy associated with Lyme disease. Lancet 1987; 1: 681- 2. 95. Kan L, Sood SK, Maytal J. Pseudotumor cerebri in Lyme disease: a case report and literature review. Ped Neurol 1998; 18: 439^ 1. 96. Reik L, Burgdorfer W, Donaldson JO. Neurologic abnormalities in Lyme disease without erythema chronicum migrans. Am J Med 1986; 81: 73- 8. 97. Pfister HW, Einhaupl KM, Wilske B, Preac- Mursic V Bannwarths syndrome and the enlarged neurological spectrum of arthropod-borne borreliosis. ZentralblBakteriolMikrobiolHyp [ A] 1986; 263: 343- 7. 98. Ackermann R, Horstrup P, Schmidt R. Tick borne meningopoly-neuritis ( Garin- Bujadoux, Bannwarth). Yale J Biol Med 1984; 57: 485- 90. 99. Belman AL, Iyer MY, Coyle PK, Dattwyler R. Neurologic mani­festations in children with North American Lyme disease. Neurology 1993; 43: 2609- 14. 100. Reik L, Steere AC, Bartenhagen NH, Shope RE, Malawista SE. Neurologic abnormalities of Lyme disease. Medicine 1979; 58: 281- 94. 101. Pizzarello LD, MacDonald AB, Semlear R, DiLeo F, Berger B. Temporal arteritis associated with Borrelia infection. A case report. J Clin Neuro Ophthalmol 1989; 9: 3- 6. 82 © 2005 Lippincott Williams & Wilkins