Copyright © 2008 Pelidou et al, publisher and licensee Dove Medical Press Ltd. Multiple sclerosis presented as clinically isolated syndrome: the need for early diagnosis and treatment Correspondence: Sotirios Giannopoulos Dept., of Neurology, University of Ioannina School of Medicine, University Campus Ioannina, 45110, Greece Tel +30 26510 97514 Fax +30 26510 97011 Email sgiannop/at/uoi.gr | ||||
Abstract Objective To aid in the timely diagnosis of patients who present with clinically isolated syndrome (CIS).Patients and methods We studied 25 patients (18 women, 7 men), originally presented in our clinic with a CIS suggestive of multiple sclerosis (MS). All patients underwent the full investigation procedure including routine tests, serology, cerebrospinal fluid (CSF) examinations, evoked potentials (EPs), and magnetic resonance imaging (MRI) of brain and cervical spinal cord. Patients were imaged at baseline, and every three months thereafter up to a year.Results The CIS was consisted of optic neuritis in 12 cases, incomplete transverse myelitis (ITM) in 7 cases, Lhermitte sign in 2 cases, internuclear ophthalmoplegia (INO) in 2 cases, mild brainstem syndrome in 1 case, and tonic-clonic seizures in 1 case. Using the baseline and three-month scans 18/25 (72%) patients developed definite MS in one year of follow up while 7 (28%) had no further findings during this observation period. Immunomodulatory treatments were applied to all definite MS patients.Conclusion In light of new treatments available, MRIs at 3 month intervals are helpful to obtain the definite diagnosis of MS as early as possible.Keywords: multiple sclerosis, clinically isolated syndrome, optic neuritis, transverse myelitis
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Introduction Multiple sclerosis (MS) is a clinical diagnosis based on the dissemination of lesions of the central nervous system (CNS) in time and space (Poser and Brinar 2001). Recent proposed diagnostic criteria for MS utilize MRI findings to document dissemination of CNS lesions in time and space (McDonald et al 2001; Polman et al 2005). Optic neuritis (ON) may be the heralding manifestation of MS (ONSG 1991; Hickman et al 2002). More than 50% of adult patients who present with isolated ON will eventually develop other signs of MS (ONSG 1997). The risk stratification for the future development of MS in patients presenting with ON can be assessed by the number of white matter lesions on the baseline cerebral MRI study (Bhatti et al 2005). The risk is increased in women and in those patients who have oligoclonal bands (OCB) in the cerebrospinal fluid (CSF) (Ghezzi et al 1999). Incomplete transverse myelitis (ITM) can be the presenting feature of MS. Patients with ITM who develop MS are more likely to have asymmetric clinical findings, predominant sensory symptoms with relative sparing of motor systems, spinal cord lesions extending over less than two spinal segments, abnormal brain MRI, and OCB in the CSF (Miller et al 1989; TMC 2002). Measurement of spinal cord atrophy that reflects destructive, irreversible pathology in patients presenting with ITM has important implications for the early treatment of MS (Lin et al 2004). Central nervous system involvement in MS may be difficult to differentiate from other autoimmune diseases such as systemic lupus erythematosus (SLE), antiphospholipid syndrome (APS), and Sjogren syndrome (SS). Thus, a large number of patients with APS or SLE may be misdiagnosed as MS, but the exact proportion is unknown and may receive inappropriate treatment (Ferreira et al 2005). A retrospective study in 82 patients with primary Sjogren syndrome reported that 40.2% had brain involvement, 15.8% optic neuropathy, and 35.4% spinal cord involvement (Delalande 2004). Thus, the differential diagnosis may require careful assessment of all clinical and MRI findings, serological results, and CSF analysis (Reske et al 2005). Our objective was to aid in the timely diagnosis of MS in patients who presented with CIS and thus employ the proper treatment early during the course of the disease. | ||||
Patients and methods We studied 25 consecutive patients (18 women, 7 men), age 30.6 (range: 17–49) presented in our clinic with CIS suggestive of MS. The inclusion and exclusion criteria of the CIS patients are listed in Table 1. The clinical, laboratory, and imaging findings were studied in all patients. Laboratory investigations included complete blood count, serum values of liver enzymes, bilirubin, albumin, glucose, creatinine, and urine analysis. In addition, erythrocyte sedimentation rate, C-reactive protein, antinuclear antibodies (ANA), double-stranded DNA (ds-DNA), complement C3/C4, and anti-cardiolipin (ACL) antibodies were also perfomed. All patients were evaluated for MS with CSF serology (cells, protein, glucose, IgG index), visual evoked potentials (VEPs), somatosensory evoked potentials (SEPs), and brain and cervical spinal cord MRI. Patients were imaged at baseline, at three month intervals, and one year. CSF oligoclonal bands were not included in the evaluation since it is not an available test in our hospital laboratory. For MS diagnosis, the revised McDonald criteria were employed (Polman et al 2005). Dissemination in space was demonstrated by either MRI alone when three of the following conditions were met: a) at least one gadolinium-enhancing lesion or nine T2 hyperintense lesions if there was no gadolinium enhancing lesion; b) at least one infratentorial lesion; c) at least one juxtacortical lesion; and d) at least three periventricular lesions, or two or more MRI-detected lesions consistent with MS plus elevated CSF IgG index. Dissemination in time was demonstrated by either MRI (detection of gadolinium enhancing abnormality at least 3 months after the onset of the initial clinical event and if not at the site corresponding to the initial event detection of a new T2 lesion if it appeared at any time compared with the baseline scan performed at least 30 days after the onset of the initial clinical event), or by a second clinical attack. None of the studied patients had history of head trauma, neuropsychiatric disorder, diabetes mellitus, hypertension, thalassemia, iron and B12 deficiency, cardiac, hepatic and renal failure (Table 1). Finally, the protocol was approved by the Institutional Review Board Committee. | ||||
Results
The characteristics of all CIS patients are depicted in Table 2. There were 25 patients (18 women, 7 men), of 30.6 years mean age (range 17–49). The mean age of patients at onset of CIS varied from 26.9 years for ON to 29.2 years for the patient with seizures. The mean follow-up time was 18.9 months in patients with ON, 17.5 months in patients with ITM, 18 months in patients with brainstem syndrome. The mean disease severity on the expanded disability status scale (EDSS) performed at least one month after the CIS varied from 0.41 to 1. Only 12 woman had isolated ON, 7 had ITM, 3 had mild brainstem syndrome (2 with internuclear ophthalmoplegia (INO), 1 with dysarthria), and 1 had sudden onset of tonic-clonic seizures. The predominant neurological examination findings during the acute phase of the CIS were: reduced unilateral visual acuity in the patients with ON, paraparesis, Lhermitte sign, sensory symptoms, diplopia, dysarthria, and hemiparesis as shown in Table 3. The paraclinical data of the patients are shown in Table 4. Twenty four patients had abnormal brain MRI consisted of periventricular MS-like white matter lesions and 9 (36%) patients had evidence of myelitis. Both brain and cervical cord MRI were positive in 7 cases (28%). VEP’s were abnormal in 16 (64%) and SEP’s in 6 (24%) patients. Nineteen patients (76%) had increased IgG index, while in 6 patients it was normal. Serological features of the patients are demonstrated in Table 5. ANA were positive in 5 (20%) and anti-ds-DNA in 2 (8%) of patients, but no patient had low complement (C3 or C4). ACL-ab was positive in only 3 (12%) patients. Using the baseline and three-month MRI scans and the clinical and paraclinical data, 72% of patients with CIS developed definite MS according to the revised McDonald’s criteria within one year, while 28% had no further neurological and MRI findings during this observation period. | ||||
Discussion Patients with CIS may develop MS (Miller et al 2005). Clinically the identification of patients with a CIS at high risk to develop clinically definite MS remains difficult (Kieseier et al 2005). Monthly brain MRI scans in patients with CIS showed that the majority of patients with an abnormal baseline scan were diagnosed with MS after three months (Pestalozza et al 2005). Application of the new McDonald criteria to patients with CIS suggestive of MS doubled the rate of diagnosis of MS within one year of presentation (Dalton et al 2002). It has been suggested that monthly triple-dose Gd-enhanced MRIs accurately detected inflammation which is an important factor in the pathogenesis of brain tissue loss in CIS patients (Paolillo et al 2004). Although a CIS could be indicative of MS, it might occasionally be the first manifestation of systemic autoimmune diseases such as SLE, APS, and SS. In these cases not only the clinical presentation but the MRI findings may be similar (Theodoridou and Settas 2006). Thus, serology tests, eg, ANA, C3, C4, and antiphospholipid antibodies, could help in the differential diagnosis of MS from the various connective tissue diseases. In the present study 20% of CIS patients had positive ANA and a few patients had other autoantibodies but there were no other findings to indicate evidence of SLE, primary SS, and APS according to the currently used criteria (Tan et al 1982; Wilson et al 1999; Vital et al 2002). Presence of various autoantibodies such as ANA in the serum of patients with MS is a frequent finding (Specaile et al 2000). Brain MRI can be inconclusive in patients with CIS but intrathecal synthesis of OCB are helpful in establishing the diagnosis of MS (Sastre-Garriga et al 2003; Rot and Mesec 2006), thus the lack of OCB measurements is a limitation of our study. A new OCB test may also improve the conversion of a CIS to MS (Masjuan et al 2006). Prediction of conversion from CIS to MS can be improved if CSF markers (either elevated tau or neurofilaments [NfHSMI35] are combined with MRI findings (Brettschneider at al 2006). On the contrary, serum antimyelin antibodies did not seem to permit earlier diagnosis of MS (Lim et al 2005). Intrathecal B-cell clonal expansion in the CSF of patients with CIS, often precedes both OCB and multiple MRI lesions and is associated with a high rate of conversion to definite MS (Qin et al 2003). | ||||
Conclusion Patients with MS deserve an accurate diagnosis, because new effective immunomodulatory treatments could modify the disease progression. It is obvious that definite diagnosis of MS must be obtained as early as possible in order to initiate early immunomodulatory treatment. We believe that frequent MRI scans during the first year after the CIS facilitate the early and accurate diagnosis of definite MS. | ||||
References
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