MR Imaging: An Increasingly Important Tool in the Early Diagnosis of Wernicke Encephalopathy

Letters to the Editor Letters to the Editor

Published online before print May 10, 2012, doi: 10.3174/ajnr.A3152
AJNR 2012 33: E92

G. Zuccolia
aDepartment of Radiology
University of Pittsburgh Medical Center
Children’s Hospital of Pittsburgh
Pittsburgh, Pennsylvania

N. Pipitoneb
bRheumatology Unit, Department of Internal Medicine
Azienda Ospedaliera ASMN
Istituto di Ricovero e Cura a Carattere Scientifico
Reggio Emilia, Italy

The recent article by Ha et al published in the American Journal of Neuroradiology1has rekindled the debate sparked by previous studies24 that had linked atypical brain MR imaging findings to the nonalcoholic (NA) variant of Wernicke encephalopathy (WE). In unselected patients with WE, the anatomic regions most frequently involved by MR imaging are the medial thalami and the periventricular regions of the third ventricle.3 However, atypical MR imaging findings may also be observed, including symmetric alterations of the cerebellum, cerebral cortex, and cranial nerve nuclei (CNN).3,4 Atypical MR imaging findings usually occur in association with the typical MR imaging findings of WE.5 In the largest case series published to date encompassing 56 patients with WE, we detected atypical MR imaging changes more commonly in NA compared with patients with alcoholism (AL).4 In particular, involvement of CNN was seen in 32% of NA versus none of the AL patients.

In contrast to our findings, Ha et al1 found no significant differences in the distribution of typical and atypical MR imaging findings in AL and NA patients with WE. Both their1 and our studies are retrospective in design, and thus prone to incurring a selection bias due to the lack of predefined entry criteria. Therefore, the study populations may differ in some characteristics that cannot be determined a posteriori.

There are, however, some differences in the studies that may help to explain, at least in part, their different conclusions. First, our study included more than twice as many patients as the study by Ha et al.1 Sample size is invariably a critical issue because all other things being equal, studies with larger numbers of patients are more likely to arrive at significant results than those with fewer patients. In particular, if we consider only NA patients, our study included 3 times as many patients (n = 30) as the study by Ha et al (n = 11). Second, in our patients, MR imaging was performed in the acute stage of WE, whereas in the study by Ha et al, the mean interval between the onset of manifestations and performance of MR imaging was 4.5 days. This delay may have potentially resulted in some differences in the brain changes depicted by MR imaging. Third, 43% of our patients fulfilled the classic diagnostic triad of WE compared with 17% of the patients investigated by Ha et al, suggesting that our patients may have had, on average, more severe disease and thus a higher likelihood of having abnormal MR imaging findings. Fourth, Ha et al did not specifically identify CNN lesions except in 1 NA patient with involvement of CNN IX. However, they did show that 14 NA patients and 10 AL patients had active lesions in the dorsal medulla or in the periventricular gray matter of the fourth ventricle, which are sites where many CNN are located.1 Therefore, although CNN were not formally identified in the study by Ha et al,1 the findings of their study may, nevertheless, support the concept that CNN involvement is more common in NA patients, in agreement with our own3,4,6 and the findings of others.2,7 The involvement of CNN IX reported by Han et al is a particularly intriguing finding, both because this specific CNN has not previously been shown to be involved in WE4,8 and because CNN IX is notoriously difficult to distinguish from neighboring nuclei. It would be interesting to have a chance to review the images on the basis of which CNN IX involvement was diagnosed.

We concur with Ha et al1 that thiamine deficiency is a crucial component in the pathogenesis of WE and that prompt treatment with thiamine can avert a dismal prognosis. At risk patients should thus receive thiamine regardless of whether they are hospitalized. However, we would also like to suggest that other factors, including alcohol intake, may modulate the expression of WE.5 Until data from prospective studies become available, we think that the current body of evidence still supports the notion that MR imaging findings in NA patients differ, at least in part, from those of AL patients with WE. Most important, both our study4 and the one by Ha et al1 clearly demonstrate that the spectrum of radiographic alterations is broader than that of “classic” changes. Therefore, radiologists should be aware that WE may present with both typical and atypical findings. At least equally important, despite the partial discrepancies in the results published, the role of MR imaging in clinching an early diagnosis of WE is fully confirmed.

References

  1. Ha ND, Weon YC, Jang JC, et al. Spectrum of MR imaging findings in Wernicke encephalopathy: are atypical areas of involvement only present in nonalcoholic patients? AJNR Am J Neuroradiol 2012 Mar 1. [Epub ahead of print]
  2. Bae SJ, Lee HK, Lee JH, et al. Wernicke’s encephalopathy: atypical manifestation at MR imaging. AJNR Am J Neuroradiol 2001; 22: 1480–82 » Abstract/FREE Full Text
  3. Zuccoli G, Gallucci M, Capellades J, et al. Wernicke encephalopathy: MR findings at clinical presentation in 26 alcoholic and nonalcoholic patients.AJNR Am J Neuroradiol 2007; 28: 1328–31 » Abstract/FREE Full Text
  4. Zuccoli G, Santa CD, Bertolini M, et al. MR imaging findings in 56 patients with Wernicke encephalopathy: nonalcoholics may differ from alcoholics.AJNR Am J Neuroradiol 2009; 30: 171–76  » Abstract/FREE Full Text
  5. Zuccoli G, Pipitone N. Neuroimaging findings in acute Wernicke’s encephalopathy: review of the literature. AJR Am J Roentgenol 2009; 192:501–08  » Abstract/FREE Full Text
  6. Zuccoli G, Motti L. Atypical Wernicke’s encephalopathy showing lesions in the cranial nerve nuclei and cerebellum. J Neuroimaging 2008; 18: 194–97 » Medline
  7. Hygino da Cruz LC Jr., Domingues RC, Vilanova I, et al. MR imaging findings in Wernicke encephalopathy: nonalcoholics may be similar to alcoholics.AJNR Am J Neuroradiol 2010; 31: E54–55 » FREE Full Text
  8. Santos AC, Tavares LL, da Graca Morais MM, et al. Non-alcoholic Wernicke’s encephalopathy: broadening the clinicoradiological spectrum. Br J Radiol2010; 83: 437–46 » Abstract/FREE Full Text

Reply

Published online before print May 10, 2012, doi: 10.3174/ajnr.A3164
AJNR 2012 33: E93

N. Du Haa and Y. Cheol Weona
aDepartment of Radiology
Ulsan University Hospital
University of Ulsan College of Medicine
Dong-gu, Ulsan, South Korea

We thank Dr. Zuccoli and Dr. Pipitone for their interest in our article.1 In our study, we evaluated the MR (1.5T or 3T) imaging findings of 23 patients with Wernicke encephalopathy (WE) at a university hospital: 13 nonalcoholic (NA) and 10 alcoholic (AL) patients. Although only 17% of the patients showed the classic symptom triad of WE, this percentage did not differ from that reported by other authors (16%–19%).2,3Thus, MR imaging could be an important tool for early diagnosis and thus help reduce the associated morbidity and mortality, particularly when patients present with unclear clinical manifestations.4

We agree that the difference in the mean interval between symptom onset and MR imaging in the 2 studies may be responsible for some of the differences in brain MR imaging findings; in our study, the mean interval was 4.5 days,1 whereas in the study by Zuccoli et al, MR imaging was performed during the acute stage of WE.5 In our study, 14 patients underwent MR imaging within 3 days, 6 patients between 4 and 7 days, and 3 patients after 8 days following symptom onset. The involvement of typical and atypical sites, however, did not differ between the NA and AL groups at these time intervals. Little is known regarding the temporal progression in WE observed on MR images; in this regard, a large prospective study is warranted.

Although cranial nerve nuclei (CNN) are located in the dorsal medulla, we could not specifically differentiate each nucleus from the parts of the dorsal medulla that were involved; therefore, we simply reported signal alteration in the dorsal medulla. In our study, the involvement of the dorsal medulla and the periventricular gray matter of the fourth ventricle—the sites of many CNN—was observed in 14 NA patients and 10 AL patients, and Zuccoli et al5 reported that CNN involvement was observed in 32% of NA patients but in none of the AL patients. Thus, CNN involvement may by more common in NA patients, but our study did not show a statistical difference between NA and AL patients in this regard. Furthermore, in our study, the involvement of other atypical sites, such as cortical involvement, was observed in both groups. These results are concordant with those of some other studies.6,7

We agree with Zuccoli et al4,5 that atypical MR imaging findings usually occur in association with the typical MR imaging findings of WE and that prompt treatment with thiamine can avoid a dismal prognosis. Therefore, radiologists need to be aware of the spectrum of both typical and atypical findings. Although the MR imaging findings did not differ between AL and NA patients with WE in our study, MR imaging could still be a helpful tool for supporting the early diagnosis of WE in both the AL and NA groups.

References

  1. Ha ND, Weon YC, Jang JC, et al. Spectrum of MR imaging findings in Wernicke encephalopathy: are atypical areas of involvement only present in nonalcoholic patients? AJNR Am J Neuroradiol 2012 Mar 1 [Epub ahead of print]
  2. Harper CG, Giles M, Finlay-Jones R. Clinical signs in the Wernicke-Korsakoff complex: a retrospective analysis of 131 cases diagnosed at necropsy. J Neurol Neurosurg Psychiatry 1986; 49: 341–45 » Abstract/FREE Full Text
  3. Vasconcelos MM, Silva KP, Vidal G, et al. Early diagnosis of pediatric Wernicke’s encephalopathy. Pediatr Neurol 1999; 20: 289–94 » CrossRefMedline
  4. Zuccoli G, Pipitone N. Neuroimaging findings in acute Wernicke’s encephalopathy: review of the literature. AJR Am J Roentgenol 2009; 192:501–08 » Abstract/FREE Full Text
  5. Zuccoli G, Santa Cruz D, Bertolini M, et al. MR imaging findings in 56 patients with Wernicke encephalopathy: nonalcoholics may differ from alcoholics. AJNR Am J Neuroradiol 2009; 30: 171–76 » Abstract/FREE Full Text
  6. Hygino da Cruz LC Jr., Domingues RC, Vilanova I, et al. MR imaging findings in Wernicke encephalopathy: nonalcoholics may be similar to alcoholics.AJNR Am J Neuroradiol 2010; 31: E54–55; author reply E56 » FREE Full Text
  7. Sugai A, Kikugawa K. Atypical MRI findings of Wernicke encephalopathy in alcoholic patients. AJR Am J Roentgenol 2010; 195: W372–73 » FREE Full Text
MR Imaging: An Increasingly Important Tool in the Early Diagnosis of Wernicke Encephalopathy