Abstract

Background

Multiple sclerosis (MS) is an inflammatory, degenerative, demyelinating disease that ranges from benign to rapidly progressive forms. A striking characteristic of the disease is the clinical-radiological paradox.

Objectives

The present study was conducted to determine whether, in our cohort, the clinical-radiological paradox exists and whether lesion location is related to clinical disability in patients with MS.

Methods

Retrospective data from 95 patients with MS (60 women and 35 men) treated at a single center were examined. One head-and-spine magnetic resonance imaging (MRI) examination from each patient was selected randomly, and two independent observers calculated lesion loads (LLs) on T2/fluid attenuation inversion recovery sequences manually, considering the whole brain and four separate regions (periventricular, juxtacortical, posterior fossa, and spinal cord). The LLs were compared with the degree of disability, measured by the Kurtzke Expanded Disability Status Scale (EDSS), at the time of MRI examination in the whole cohort and in patients with relapsing-remitting (RR), primarily progressive, and secondarily progressive MS.

Results

High LLs correlated with high EDSS scores in the whole cohort (r = 0.34; p< 0.01) and in the RRMS group (r = 0.27; p= 0.02). The EDSS score correlated with high regional LLs in the posterior fossa (r = 0.31; p= 0.002) and spinal cord (r = 0.35; p= 0.001).

Conclusions

Our results indicate that the clinical-radiological paradox is a myth and support the logical connection between lesion location and neurological repercussion.

Keywords
Multiple Sclerosis; Magnetic Resonance Imaging; Demyelinating Diseases

Resumo

Antecedentes

A esclerose múltipla (EM) é uma doença inflamatória, degenerativa e desmielinizante que varia de formas benignas a rapidamente progressivas. Uma característica marcante da doença é o paradoxo clínico-radiológico.

Objetivos

O presente estudo foi realizado para determinar, se na nossa amostragem, o paradoxo clínico-radiológico existe e se a localização das lesões está relacionada à incapacidade clínica em pacientes com EM.

Métodos

Foram examinados retrospectivamente dados de 95 pacientes com EM (60 mulheres e 35 homens) atendidos em um único centro. Um exame de ressonância magnética de cada paciente foi selecionado aleatoriamente, e dois observadores independentes calcularam as cargas lesionais (CLs) em sequências T2 e FLAIR manualmente, considerando todo o cérebro e quatro regiões separadamente (periventricular, justacortical, fossa posterior e medula espinhal). As CLs foram comparadas com o grau de incapacidade, medido pela Escala de Status expandido de incapacidade (EDSS, na sigla em inglês) de Kurtzke, no momento do exame de ressonância magnética (RM) em toda a coorte e em pacientes com as formas surto remissão (SR), primariamente progressiva (PP), e secundariamente progressiva (SP) da EM.

Resultados

Cargas lesionais elevadas foram correlacionadas com altos índices de EDSS considerando toda a coorte (r = 0.34; p< 0.01) e no grupo SR (r = 0.27; p= 0.02). O EDSS foi correlacionado com CLs altas na fossa posterior (r = 0.31; p= 0.002) e na medula (r = 0.35; p= 0.001).

Conclusões

Nossos resultados indicam que o paradoxo clínico-radiológico é um mito e apoiam a conexão lógica entre a localização da lesão e a repercussão neurológica.

Palavras-chave
Esclerose Múltipla; Imageamento por Ressonância Magnética; Doenças Desmielinizantes

INTRODUCTION

Multiple sclerosis (MS) is an inflammatory and neurodegenerative demyelinating disease that affects the central nervous system (CNS). It may vary from heterogeneous phenotypes, which consist of few physical disabilities even after years of having the disease, to the rapidly progressive forms that present significant physical disability since the diagnosis.¹1 Healy BC, Buckle GJ, Ali EN, et al. Characterizing Clinical and MRI Dissociation in Patients with Multiple Sclerosis. J Neuroimaging 2017;27(05):481-485. Doi: 10.1111/jon.12433
https://doi.org/10.1111/jon.12433... One of the striking characteristics of the disease is the so-called clinical-pathological paradox. This term was created to describe the discrepancy found in many patients who did not present disease severity but showed a vast number of post-mortem brain lesions. In other patients, the exact opposite occurred.²2 Lumsden CE. The neuropathology of multiple sclerosis. (1970) In: Vinken PJ, Bruyn GW, eds. Handbook of Clinical Neurology, 1970; Vol. 9. Amsterdam: North-Holland Publishing Company, pp 217 ± 309.

Since the image can represent an in vivo biomarker of the severity of the pathology, a natural derivation arose: the so-called clinical-radiological paradox.³3 Barkhof F. MRI in multiple sclerosis: correlation with expanded disability status scale (EDSS). Mult Scler 1999;5(04):283-286. Doi: 10.1177/135245859900500415
https://doi.org/10.1177/1352458599005004... ,⁴4 Barkhof F. The clinico-radiological paradox in multiple sclerosis revisited. Curr Opin Neurol 2002;15(03):239-245. Doi: 10.1097/ 00019052-200206000-00003
https://doi.org/10.1097/00019052-2002060... The MRI findings play an important role in the diagnostic and follow-up of MS patients, having also been used as predictive data of the effect of the treatment on clinical relapses.⁵5 Sormani MP, Bruzzi P. MRI lesions as a surrogate for relapses in multiple sclerosis: a meta-analysis of randomised trials. Lancet Neurol 2013;12(07):669-676. Doi: 10.1016/S1474-4422(13)70103-0
https://doi.org/10.1016/S1474-4422(13)70...

The objective of the present work is based on the following questions: Does such a clinical-radiological paradox exist? Or is it just a myth? Is the location of the lesions directly related to the clinical manifestations of the disease?

The strategy to answer these questions consisted of selecting a group of patients with MS, choosing a random period in the timeline, and correlating the load lesion (LL) in the T2/FLAIR (fluid-attenuated inversion recovery) sequences, which represents the radiological manifestation of the disease, with the degree of disability of each patient, measured by the Kurtzke Expanded Disability Status Scale (EDSS).⁶6 Kurtzke JF. Rating neurologic impairment in multiple sclerosis: an expanded disability status scale (EDSS). Neurology 1983;33(11): 1444-1452. Doi: 10.1212/wnl.33.11.1444
https://doi.org/10.1212/wnl.33.11.1444...

The LL was subdivided into total load lesion (TLL) and regional lesion load (RLL), considering periventricular, juxtacortical, posterior fossa, and spinal cord sites, according to the McDonald criteria of 2017.⁷7 Thompson AJ, Banwell BL, Barkhof F, et al. Diagnosis of multiple sclerosis: 2017 revisions of the McDonald criteria. Lancet Neurol 2018;17(02):162-173. Doi: 10.1016/S1474-4422(17)30470-2
https://doi.org/10.1016/S1474-4422(17)30...

METHODS

Patients

We retrospectively analyzed the data of 95 MS patients (60 women and 35 men) who were diagnosed in both clinical and laboratory bases, during their follow-ups at the outpatient clinic and during the periods of hospitalization, occurring in the last 15 years, at the Hospital Universitário Clementino Fraga Filho of the Universidade Federal do Rio de Janeiro (HUCFF-UFRJ, in the Portuguese acronym), Rio de Janeiro, state of Rio de Janeiro, Brazil. All individuals met the 2017 McDonald criteria for MS diagnosis. According to the disease clinical phenotype, MS was classified as relapsing-remitting (RRMS), primarily progressive (PPMS), and secondarily progressive (SPMS).

Magnetic resonance imaging from patients > 71 years old was not included because of the common hyperintense lesions that are the natural processes of aging that could be interpreted as MS lesions.

The National Research Ethics Council approved the present study (No. 1265), and written informed consent was obtained from all participants.

For each patient, a single MRI examination of the skull and spine (neuroaxis) was chosen for comparison with the clinical situation at that moment. The duration of the disease, the interval between the onset of MS symptoms, and the MRI examination was also studied.

All clinical evaluations were performed by the team of neurologists of the HUCFF-UFRJ, using the Kurtzke EDSS as a reference.⁶6 Kurtzke JF. Rating neurologic impairment in multiple sclerosis: an expanded disability status scale (EDSS). Neurology 1983;33(11): 1444-1452. Doi: 10.1212/wnl.33.11.1444
https://doi.org/10.1212/wnl.33.11.1444... The information used was extracted from the records of the patients.

Assessment by magnetic resonance imaging

Magnetic resonance imaging was performed in a 1.5-T (Magneton Avanto; Siemens, Munich, Germany) with a 12-channel head coil using a conventional protocol (►Table 1).

The presence, size, and location of hyperintense lesions in T2/FLAIR were determined. Following the modified McDonald criteria of 2017, lesion locations were subdivided as periventricular, juxtacortical, posterior fossa, and spinal cord.⁷7 Thompson AJ, Banwell BL, Barkhof F, et al. Diagnosis of multiple sclerosis: 2017 revisions of the McDonald criteria. Lancet Neurol 2018;17(02):162-173. Doi: 10.1016/S1474-4422(17)30470-2
https://doi.org/10.1016/S1474-4422(17)30...

Two observers with 25 and 10 years of experience, respectively, without access to patient information, counted and measured the lesions by the visual method/manually. The discrepancies were solved by consensus.

After this evaluation, hyperintense T2/FLAIR lesions were classified according to size (0-4.9 mm, 5-9.9 mm, 10-19.9 mm, and > 20 mm). Based on the measurement, their estimated mean volumes were determined by considering them as ovaloid figures (0-4.9 mm = 0.01 ml; 5-9.9 mm = 0.27 ml; 10-19.9 mm = 1.76 ml; and > 20mm = 4.18ml). Examples of manual lesion segmentation and measurement in different locations are shown in ►Figure 1.

The TLL was calculated by multiplying the number of lesions by their respective estimated average volumes and summing the results. The RLL was calculated separately, according to the locations of the lesions: periventricular, juxtacortical, posterior fossa, and spinal cord. All comparisons of TLL and RLL between the groups were adjusted by age, sex, and duration of the disease.

Statistical analysis

The database containing patient information was entered in Microsoft Excel (Microsoft Corporation, Redmond, WA, USA) and was subsequently exported to the SPSS Statistics for Windows, version 14.0 (SPSS Inc., Chicago, IL, USA). The data were separated by category, according to the clinical classification of the patients. These data distributed according to proportions was compared using the chi-squared test (Fisher or Yates, depending on the need). Since the present study involves unequal variables, the Tamhane T2 test was performed to compare the mean of the multiple groups. P-values < 0.05 were considered significant.

RESULTS

Demographic data

Seventy-three patients presented the clinical forms of RRMS (77%), 9 PPMS (9%), and 13 SPMS (14%). Of the total number of patients, 83.5% (61 patients) were female. Considering the different clinical forms, we found 49 women and 24 men in RRMS, 2 women and 7 men in PPMS, 10 women and 3 men in SPMS. Considering the entire sample, the average time of disease was 17.5 months. Regarding clinical forms, the average time was 17 months in RRMS, 15 months in PPMS, and 21 months in SPMS. The mean age of the patients was 45 years old in RRMS form, 54 years old in PPMS, and 53 years old in SPMS (►Table 2).

EDSS-based clinical data

The mean of the EDSS, considering the whole sample, was 3.9. The EDSS mean in clinical forms was: 3.3 in RRMS, 5.1 in PPMS, and 6.8 in SPMS, and a statistically significant difference was observed between RRMS and PPMS clinical forms (p< 0.04) and between RRMS and SPMS (p< 0.001) (►Table 2).

Load lesion measured by MRI

The mean RLL of the posterior fossa, comparing the PPMS and SPMS groups, showed a significant difference (p< 0.05). The mean TLL was 21.9 ml (±21.8) in RRMS, 34.1 ml (±44.1) in PPMS, and 66.8 ml (±109) in SPMS (►Table 2). No statistically significant difference in TLL was demonstrated between the three clinical subgroups (►Table 2).

Correlation between EDSS and TLL

The TLL had a statistically significant correlation with EDSS in all patients studied, regardless of the clinical form of the disease (r = 0.34; p< 0.01) (►Table 3). Analyzing the correlation between TLL and EDSS in the different clinical forms separately, a significant correlation was found only with the clinical form RRMS (r = 0.27; p= 0.02) (►Table 3).

Correlation between EDSS and RLL

Considering all sampling, regardless of the clinical form, a statistically significant relationship between EDSS and RLL with the posterior fossa was found (r = 0.31; p= 0.002), as well as between EDSS and RLL in the spinal cord (r = 0.35; p= 0.001) (►Table 4). When the RLL (from the posterior fossa and the spinal cord) was compared with the EDSS, in the different clinical forms, only a statistically significant correlation with the clinical form RRMS was observed (in the posterior fossa [p= 0.01] and in the medulla [p= 0.12]) (►Table 4).

DISCUSSION

Correlation between EDSS and TLL

In the present study, we found a statistically significant but weak correlation (considering Spearman correlation degrees, ranging from r = 0.3-0.5 [weak] to 0.9-1.0 [very strong]) between the TLL and the EDSS, considering the whole sample (r = 0.34; p< 0.01). Several studies in the studied literature show similar results.

A review carried out by Barkoff cites studies in which the degree of correlation found varied from r = 0.15 to 0.69.⁴4 Barkhof F. The clinico-radiological paradox in multiple sclerosis revisited. Curr Opin Neurol 2002;15(03):239-245. Doi: 10.1097/ 00019052-200206000-00003
https://doi.org/10.1097/00019052-2002060... The author pointed out possible factors that would justify the discrepancy of results in the analysis of the TLL and EDSS ratio, such as the reduction of EDSS variability through the establishment of inclusion criteria for patients in the cohort (in our study, we did not use EDSS degrees in the inclusion criteria).

Studies with a more homogeneous duration of the disease showed a stronger correlation. An example is a study by Morrissey et al.,⁸8 Morrissey SP, Miller DH, Kendall BE, et al. The significance of brain magnetic resonance imaging abnormalities at presentation with clinically isolated syndromes suggestive of multiple sclerosis. A 5- year follow-up study. Brain 1993;116(Pt 1):135-146. Doi: 10.1093/brain/116.1.135
https://doi.org/10.1093/brain/116.1.135... in which the correlation was r = 0.55. In another study, in which the topographic analysis of lesions was performed and LL was measured related explicitly to the corticospinal tract, the correlation obtained was from r = 0.60 to 0.69.⁹9 Riahi F, Zijdenbos A, Narayanan S, et al. Improved correlation between scores on the expanded disability status scale and cerebral lesion load in relapsing-remitting multiple sclerosis. Results of the application of new imaging methods. Brain 1998; 121(Pt 7):1305-1312. Doi: 10.1093/brain/121.7.1305
https://doi.org/10.1093/brain/121.7.1305...

Because this is not a prospective study and because we selected a random moment in the timeline of the disease in each patient, the variable duration of illness was not homogeneous, although there was no statistically significant difference of this variable between the different clinical forms studied.

A stronger correlation between TLL x EDSS (r = 0.48) was also found in a study by Schreiber et al.¹⁰10 Schreiber K, Sørensen PS, Koch-Henriksen N, et al. Correlations of brain MRI parameters to disability in multiple sclerosis. Acta Neurol Scand 2001;104(01):24-30. Doi: 10.1034/j.1600-0404.2001.00041.x
https://doi.org/10.1034/j.1600-0404.2001... when compared to the present study. However, the mean duration of the disease and EDSS were much higher than ours (13.6 years and 6 years, respectively). Ciccarelli et al.,¹¹11 Ciccarelli O, Brex PA, Thompson AJ, Miller DH. Disability and lesion load in MS: a reassessment with MS functional composite score and 3D fast FLAIR. J Neurol 2002;249(01):18-24. Doi: 10.1007/pl00007843
https://doi.org/10.1007/pl00007843... comparing the use of the 3D FLAIR sequence with the T2 sequence, also found a correlation between the TLL and the EDSS (r = 0.53). Their sample, which consisted of 86 patients, presented a homogeneous duration of the disease (this was a prospective study in which the patients were analyzed for 14 years, since the beginning of the disease).

In another prospective study carried out by Brex et al.,¹²12 Brex PA, Ciccarelli O, O’Riordan JI, Sailer M, Thompson AJ, Miller DH. A longitudinal study of abnormalities on MRI and disability from multiple sclerosis. N Engl J Med 2002;346(03):158-164. Doi: 10.1056/NEJMoa011341
https://doi.org/10.1056/NEJMoa011341... with a cohort of 71 patients, a moderate correlation (r = 0.60) was also found among the TLL in the first 5 years, with a long-term clinical deficit.

Correlation between EDSS and LL in different clinical forms

When the TLL was analyzed separately in the different clinical subgroups, a significant correlation was found between the TLL and the EDSS only in the RRMS form. No significant correlation was found in the progressive forms of the disease. A similar result was also found in some studies (Ciccarelli et al.¹¹11 Ciccarelli O, Brex PA, Thompson AJ, Miller DH. Disability and lesion load in MS: a reassessment with MS functional composite score and 3D fast FLAIR. J Neurol 2002;249(01):18-24. Doi: 10.1007/pl00007843
https://doi.org/10.1007/pl00007843... using an n= 7 and Molyneux et al.,¹³13 Molyneux PD, Filippi M, Barkhof F, et al. Correlations between monthly enhanced MRI lesion rate and changes in T2 lesion volume in multiple sclerosis. Ann Neurol 1998;43(03):332-339. Doi: 10.1002/ana.410430311
https://doi.org/10.1002/ana.410430311... using an n= 27). A possible explanation for this would be the low number of patients with PPMS and SPMS forms, both in their respective cohorts and in the sample of the present study.

In a study presented by Ammitzbøll et al.,¹⁴14 Ammitzbøll C, Dyrby TB, Lyksborg M, et al. Disability in progressive MS is associated with T2 lesion changes. Mult Scler Relat Disord 2018;20:73-77. Doi: 10.1016/j.msard.2017.12.010
https://doi.org/10.1016/j.msard.2017.12.... in which a significant correlation was observed between the TLL and EDSS in progressive forms of the disease, the author gathered patients with PPMS and SPMS forms in a single group (n= 93) to obtain a larger cohort of patients, thus generating greater statistical force.

Molyneux et al.¹⁵15 Molyneux PD, Barker GJ, Barkhof F, et al; European Study Group on Interferon Beta-1b in Secondary Progressive MS. Clinical-MRI correlations in a European trial of interferon beta-1b in secondary progressive MS. Neurology 2001;57(12):2191-2197. Doi: 10.1212/wnl.57.12.2191
https://doi.org/10.1212/wnl.57.12.2191... demonstrated in a prospective study with > 600 patients presenting the SPMS form that, like in the RRMS form, the correlation between the TLL and the EDSS was also significant. Schreiber, in 2003, found a correlation between TLL and EDSS in the SPMS form (n= 52), whose patients were sufficient for a substantial expression of this correlation.

Nijeholt et al.¹⁶16 Nijeholt GJ, van Walderveen MA, Castelijns JA, van Waesberghe JH, Polman C, Scheltens P, Rosier PF, Jongen PJ, Barkhof F. Brain and spinal cord abnormalities in multiple sclerosis. Correlation between MRI parameters, clinical subtypes and symptoms. Brain. 1998 Apr;121 (EN 4):687-97. Doi: 10.1093/brain/121.4.687. PMID: 9577394.
https://doi.org/10.1093/brain/121.4.687.... found a significant correlation between EDSS and MRI findings in their sample. In the SPMS form, the TLL was higher than in the PPMS and RRMS forms, which differs from our results, perhaps due to the difference in the distribution of the number of patients in the clinical subgroups. In this work, the n was RRMS = 28, PPMS = 31, and SPMS = 32, while in our work it was RRMS = 73, PPMS = 9, and SPMS = 13.

However, there are also examples in the studied literature that suggest a lack of correlation between the TLL and EDSS. Rocca et al.¹⁷17 Rocca MA, Absinta M, Filippi M. The role of advanced magnetic resonance imaging techniques in primary progressive MS. J Neurol 2012;259(04):611-621. Doi: 10.1007/s00415-011-6195-6
https://doi.org/10.1007/s00415-011-6195-... reported a weak correlation between EDSS and the alterations observed through conventional MRI (T2 lesions and contrast lesions).

Despite the irreversible accumulation of neurological deficit, most patients with the PPMS form showed a relatively low TLL and low disease activity. Rocca reviewed the main results of the quantitative and structural studies of unconventional MRI and concluded that studies with quantitative MRI support the notion that tissue damage (which goes unnoticed in conventional MRI) affects the white matter of normal appearance and the cortex of these patients.¹⁷17 Rocca MA, Absinta M, Filippi M. The role of advanced magnetic resonance imaging techniques in primary progressive MS. J Neurol 2012;259(04):611-621. Doi: 10.1007/s00415-011-6195-6
https://doi.org/10.1007/s00415-011-6195-...

Correlation between EDSS and RLL

We found a significant correlation between RLL and EDSS in the posterior fossa and in the medulla in the analysis of the whole sample, regardless of the clinical subgroup (►Table 4).

Several authors, such as Goodin,¹⁸18 Goodin DS. Magnetic resonance imaging as a surrogate outcome measure of disability in multiple sclerosis: have we been overly harsh in our assessment? Ann Neurol 2006;59(04):597-605. Doi: 10.1002/ana.20832
https://doi.org/10.1002/ana.20832... also found a correlation between the lesions observed in MRI, separated by regions, and the EDSS. The authors used mathematical models to verify this relationship. They considered two types of lesions: "critical," located in the motor fibers of both the internal capsule and the medulla, and "noncritical," located in periventricular regions, corpus callosum, juxtacortical, and deep white matter.

Kerbrat et al.¹⁹19 Kerbrat A, Gros C, Badji A, et al. Multiple sclerosis lesions in motor tracts from brain to cervical cord: spatial distribution and correlation with disability. Brain 2020;143(07):2089-2105. Doi: 10.1093/brain/awaa162
https://doi.org/10.1093/brain/awaa162... published a study with 290 patients from 8 different centers, where lesions were found along the corticospinal tract, from the cortex to the cervical spinal cord. A significant correlation was demonstrated between the EDSS and the volume of lesions in the corticospinal tract in the brain (r = 0.31; p< 0.0001), in the brain stem (r = 0.45; p< 0.0001) and in the cervical medulla (r = 0.57; p< 0.0001), the latter being the most severe impact on motor deficit in patients with multiple sclerosis.

The analysis within the clinical subgroups shows a significant correlation between EDSS and RLL in the spinal cord and in the posterior fossa only in the RRMS clinical form (►Table 4). Possibly, the same explanation for the absence of correlation between the TLL and EDSS serves for the RLL and EDSS; that is, a small number of patients with SPMS and PPMS forms results in the lack of appearance of possible genuine relationships due to the lack of statistical power.

Nijeholt et al., studying 28 patients with the RRMS form, 32 with the SPMS, and 31 with the PPMS, observed that the symptoms associated with spinal cord injuries were more evident in the PPMS and SPMS forms. He concluded that, in the RRMS and SPMS forms, both spinal cord injuries and brain injuries contribute as a tool for monitoring MS. Still, in the PPMS form, the clinicoradiological correlation is weak.¹⁶16 Nijeholt GJ, van Walderveen MA, Castelijns JA, van Waesberghe JH, Polman C, Scheltens P, Rosier PF, Jongen PJ, Barkhof F. Brain and spinal cord abnormalities in multiple sclerosis. Correlation between MRI parameters, clinical subtypes and symptoms. Brain. 1998 Apr;121 (EN 4):687-97. Doi: 10.1093/brain/121.4.687. PMID: 9577394.
https://doi.org/10.1093/brain/121.4.687....

Kearney et al.²⁰20 Kearney H, Altmann DR, Samson RS, et al. Cervical cord lesion load is associated with disability independently from atrophy in MS. Neurology 2015;84(04):367-373. Doi: 10.1212/WNL.0000000000001186
https://doi.org/10.1212/WNL.000000000000... also found a significant correlation between spinal cord injury load and EDSS (p< 0.001) in a study with 120 patients: 34 RRMS, 29 SPMS, 29 PPMS. In contrast to our research, he found a higher lesion load on the spinal cord in progressive forms of the disease when compared with RRMS. Perhaps we did not observe this finding due to the lower number of patients studied. In our study, the lesion load in the posterior fossa was significantly higher in the RRMS form compared with the PPMS form.

Our findings agree with the results of different studies that include MRI lesions located in the posterior fossa and in the spinal cord as a predictive risk for greater disability, especially in cervical topography. The ideal would be to analyze the disease time interval to reach higher levels of disability measured by the EDSS, but even in prospective studies that considered these joint outcome variables, the location of the MRI lesions, such as those here related to greater disability, were equally correlated with predictive disability risk factor.

Despite new quantitative MRI techniques, they have not yet been incorporated into daily clinical practice. T2, FLAIR, and pre- and postcontrast T1-weighted sequences are still the most frequently utilized.²¹21 Filippi M, Rocca MA. Conventional MRI in multiple sclerosis. J Neuroimaging 2007;17(Suppl 1):3S-9S. Doi: 10.1111/j.1552-6569.2007.00129.x
https://doi.org/10.1111/j.1552-6569.2007... Hypersignal lesions on FLAIR and T2-weighted sequences are observed in different clinical forms of the disease, in both early and late stages, and translate into inflammatory edema, demyelination, gliosis, and axonal loss. This range of pathological processes generates the nonspecificity of lesions with a hyper signal on T2-weighted sequences. However, as shown above, even with conventional MRI analysis, we found a significant correlation between MRI and clinical deficit.

A meta-analysis with 18,901 RRMS patients indicates that the effects of a treatment on relapses can be accurately predicted by the effect of that therapy on MRI lesions.²¹21 Filippi M, Rocca MA. Conventional MRI in multiple sclerosis. J Neuroimaging 2007;17(Suppl 1):3S-9S. Doi: 10.1111/j.1552-6569.2007.00129.x
https://doi.org/10.1111/j.1552-6569.2007... Also regarding the importance of MRI in the management of MS, it is important to highlight the association of the findings of imaging with the genetic characteristics of the patients. In their cohort, Noro et al. demonstrated that the presence of the HLA-DQA1*04:01 allele with a higher lesion load on T2/Flair MRI sequences is associated with the risk of greater MS severity.²²22 Noro F, Alves-Leon SV, Fontes-Dantas FL, et al. HLA-DQA1*04:01 is related to a higher multiple sclerosis lesion load on T2/Flair MRI sequences. Arq Neuropsiquiatr 2021;79(12):1109-1115. Doi: 10.1590/0004-282X-ANP-2020-0487
https://doi.org/10.1590/0004-282X-ANP-20...

Study limitations

• ● This is a retrospective study;

• ● The lack of clinical and imaging evolution because we chose only a single random moment of the disease of each patient;

• ● The failure to consider other types of lesions observed in MS, which, in theory, correlate with EDSS, such as atrophy of the brain, and grey matter lesions, which had their importance proven concerning the degree of clinical disability (Rocca, 2016).

• ● Although the analysis of the imaging parameters was performed by two experienced radiologists, separately, away from clinical information, and in double reading, no automated study was used. The detection and measurement of the lesions were performed manually, and it usually means a difficulty to replicate the study.

In conclusion, the statistically significant correlation between the TLL evaluated by MRI in the CNS and clinical deficit allows us to conclude that the so-called clinical-radiological paradox may be only a myth in our study.

The statistically significant correlation between the brainstem and spinal cord LL and clinical deficit proves the logic between lesion topography and neurological repercussion.

The lack of correlation between the neurological deficit and periventricular and juxtacortical lesions allows us to understand the origin of the paradox myth.

References

Publication Dates

History