OBJECTIVES To determine the occurrence of celiac disease in a population of ataxic patients without definite diagnosis and to characterise distinctive features which may help to differentiate cerebellar ataxia with and without celiac disease.
METHODS Twenty four ataxic patients without definite diagnosis (group A) and 23 ataxic patients with definite diagnosis (group B) were screened for antigliadin (AGAs) and antiendomysium antibodies (EMAs). Patients with a positive AGA or EMA test underwent endoscopic biopsy of the duodenal mucosa.
RESULTS There was an increased prevalence of celiac disease in group A (3/24) compared with group B (0/23). None of the celiac patients presented gastrointestinal symptoms or malabsorption signs. None of the ataxic patients with celiac disease had early onset ataxia.
CONCLUSIONS Celiac disease is associated with ataxic syndromes without definite diagnosis, suggesting that it plays a part in the pathogenesis of some ataxic syndromes. The absence of distinctive neurological features in ataxic patients with celiac disease suggests that a search should be made for celiac disease markers in all ataxic patients without definite diagnosis.
- celiac disease
- antigliadin antibodies
- antiendomesium antibodies
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Celiac disease is a malabsorption syndrome characterised by intolerance to dietary gluten and typical lesions of the small intestine.1 2 Neurological complications occur in about 8%-10% of patients with the disease3 4 including peripheral neuropathy,5 6 progressive multifocal leucoencephalopathy,7 cerebellar ataxia,4 8 9 progressive myoclonic ataxia,10 11 dementia,12 and myopathy.13 These disorders have been generally described as associated with the classic celiac disease featuring weight loss and diarrhoea.4 5 14 15
Gobbi et al 16 reported high frequency of celiac disease in patients affected by epilepsy with cerebral calcifications; gastrointestinal symptoms were absent in most of them at the time of duodenal biopsy. Recently, high frequency of gluten sensitivity was found in patients affected by nervous system diseases without definite diagnosis, in the absence of apparent signs and symptoms of classic celiac disease.17
The aims of the present study were (1) to determine the occurrence of celiac disease in a population of ataxic patients without definite diagnosis and (2) to characterise distinctive features, both clinical and instrumental, which may help to differentiate cerebellar ataxia with and without celiac disease. We screened patients affected by ataxic syndromes without definite diagnosis for antigliadin (AGAs) and antiendomysium antibodies (EMAs), which are markers of celiac disease. We also compared these patients with those affected by ataxia with definite diagnosis, including Friedreich’s ataxia and autosomal dominant cerebellar ataxia.
Patients and methods
Forty seven ataxic patients (29 men and 18 women) attending our neurological unit were enrolled in the study and divided into two groups. Group A consisted of 24 patients with ataxic syndromes without definite diagnosis (13 late onset and 11 early onset cerebellar ataxia); group B consisted of 23 patients with definite diagnosis (six autosomal dominant cerebellar ataxia, 17 Friedreich’s ataxia). All the patients with autosomal dominant cerebellar ataxia carried a CAG expansion within the SCA2 gene18; all the patients with Friedreich’s ataxia were homozygous for the GAA expansion in the X25 gene.19 Patients were personally examined by the authors. For each patient pyramidal signs were considered positive when the patient presented Babinski’s sign or hyperreflexia plus spasticity; signs of peripheral neuropathy were considered positive when the patient showed absence or reduction of distal reflexes associated with reduced vibratory sense. All patients took part in a semistructural interview investigating any gastrointestinal complaint or malabsorption symptom (diarrhoea, weight loss, flatulence, constipation). Indicators of malabsorption, including haemoglobin, folate, iron, and calcium, were screened in both groups. IgG and IgA AGAs were detected by enzyme linked immunosorbent assay (ELISA; Alfa-Gliatest, Eurospital, Trieste, Italy) in duplicate 5 μl serum samples. The upper limit of the normal range was 20 AU for both IgA and IgG AGAs. The EMAs were measured by indirect immunofluorescence.20
Subjects with a positive AGA or EMA test underwent endoscopic biopsy of the duodenal mucosa. Diagnosis of celiac disease was made in patients with presence of AGAs or EMAs in serum samples and a jejunal biopsy, proving the existence of subtotal or total atrophy of the mucosa according to the criteria of Marsh.21
In all patients with pathologically confirmed diagnosis of celiac disease, serum vitamin E and vitamin B12 concentrations, antiPurkinje cell, antigranular cell, antiGolgi cell, and antimolecular layer cell antibodies were detected. All patients gave informed consent.
Tables 1 and 2 show clinical, neurophysiological, and neuroradiological findings of ataxic patients included in group A (without definite diagnosis) and group B (with definite diagnosis) respectively.
Three out of 24 patients of group A (12.5%) had raised AGAs in their serum samples; two of them had raised IgG AGA alone, in the absence of IgA deficiency; the third patient had raised IgG and IgA AGAs and was EMA positive. Duodenal biopsies disclosed features typical of celiac disease with villous atrophy, elongated crypts, and an inflammatory infiltrate in the lamina propria associated with increased number of intraepithelial lymphocytes in all AGA positive patients. Interestingly, gastrointestinal complaints or malabsorption signs, which are the commonest presentation in patients with celiac disease, were absent in these cases, and were reported in eight out of 21 of the non-celiac patients in group A. Vitamin E and B12concentrations were in the normal range. Anticerebellar antibodies were absent in the three patients with celiac disease.
No differences were found in the clinical features and symptoms at onset between group A patients with and without celiac disease. However, none of the patients with celiac disease had early onset ataxia, whereas onset was before 20 years in eight out of 21 of the remaining patients of group A. Magnetic resonance imaging of patients with disease showed cerebellar atrophy (patient 3 and patient 19; figure A, B); and cerebellar, brainstem, and cortical cerebral atrophy (patient 17; figure C). Similar neuroimaging abnormalities were found in other ataxic patients without celiac disease.
None of the patients with celiac disease had clinical signs of peripheral neuropathy; however, in two of them we found neurophysiological abnormalities mainly consisting of a decrease of sensory and motor conduction velocities (table 3). Similar neurophysiological abnormalities were found in the other seven ataxic patients of group A.
Patients of group B (control group) showed clinical, neurophysiological, and neuroradiological features consistent with the diagnosis. Gastrointestinal complaints, including constipation, dyspepsia, and alternating constipation and diarrhoea occurred in seven out of 23 patients; one patient had iron deficiency. However, none of the patients in group B was AGA or EMA positive.
We found a prevalence of three of 24 patients with celiac disease among ataxic patients without definite diagnosis compared with none of 23 among those with definite diagnosis. The frequency of celiac disease in the first group (12.5%) is at least 20 times higher than that in large scale population studies.22 23 Recently, Hadjivassiliou et al 17 reported an increased frequency (16%) of celiac disease in patients established by biopsy with nervous system diseases (especially ataxia and peripheral neuropathy) without definite diagnosis. In this study we confirmed the increased prevalence of celiac disease in a population of ataxic patients without definite diagnosis. Furthermore, Hadjivassiliouet al 17 reported in their study that nine out of 25 ataxic patients of their population had a gluten sensitivity (AGA or EMA positivity without histological changes of celiac disease). In our study, however, we found no case of gluten sensitivity in the absence of histological changes of celiac disease.
The present study is the first attempt to correlate clinical and instrumental features of ataxic patients with the presence of celiac disease. We failed to find any clinical difference between ataxic patients with celiac disease and other ataxic patients without definite diagnosis, with the exception that none of the patients with celiac disease presented an early onset ataxia compared with the remaining patients. In addition, MRI and neurophysiological findings did not help to differentiate ataxic patients with and without celiac disease.
Frequent but anecdotical reports have described the association of ataxia and classic celiac disease, in which gastrointestinal symptoms preceded or were concomitant with neurological signs.4 8 9 15 24 25 Two single cases of cerebellar ataxia associated with unsuspected celiac disease were reported by Hermanzeski et al 26 and Kristoferitsch et al 27respectively. Similarly, in our patients the ataxic syndrome was the main clinical manifestation in the absence of any finding suggestive of malabsorption (subclinical celiac disease).
Mauro et al 9 and Battistiet al 28 described single cases of cerebellar ataxia and vitamin E deficiency in the course of classic celiac disease; cerebellar symptoms improved after vitamin E supplementation, suggesting that selective vitamin E malabsorption was the cause of the neurological manifestations. On the other hand, Ackermann et al 24 described one patient with classic celiac disease featuring ataxia, tetraparesis, sensory neuropathy, and vitamin E deficiency who did not improve with vitamin E supplementation. Muller et al 29 reported four patients with neurological complications of celiac disease; three of them presented an ataxic syndrome. Vitamin E concentration was normal in the first patient, just below the lower limit in the second patient, who did not improve after vitamin E supplementation. Vitamin E concentration was not assessed in the third patient. Ward et al 8and Ghezzi et al 25 reported single cases of ataxic syndrome and classic celiac disease with normal vitamin E concentrations. In our patients vitamin E concentration was normal, suggesting that vitamin E deficiency is not necessarily responsible for the ataxic syndrome in celiac disease.
Several reports have described the association of classic celiac disease and peripheral neuropathy, including demyelinating sensorimotor neuropathy,29 axonal neuropathy,5 14 and mononeuropathy multiplex.6 A wide range of neuropathic disorders, including sensorimotor axonal and motor axonal neuropathy, mononeuropathy multiplex, and demyelinating polineuropathy, has been recently described in eight patients with subclinical celiac disease.30 In our study two of the three celiac patients had a slight sensorimotor neuropathy.
The mechanisms responsible for neurological complications of celiac disease remain uncertain. The first proposed mechanism is the overt or occult malabsorption of nutrients exerting neurotrophic and neuroprotective effects,14 but dietary gluten restriction and vitamin supplementation rarely improve the neurological deficits.5 9 More recently an immunological mechanism is given more credit in the literature: AGAs have been suggested to be directly or indirectly neurotoxic.12 17 31 In our patients with celiac disease we excluded known anticerebellar antibodies as having involvement in the pathogenesis of ataxic syndrome, further supporting AGA neurotoxicity. In conclusion, we suggest that celiac disease plays a part in the pathogenesis of some ataxic syndromes, which is not mediated by malabsorption. The lack of distinctive features of ataxia associated with celiac disease suggests that celiac disease markers should be sought for in all patients with an ataxic syndrome of unknown cause.
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