key: cord-0751678-vdexjapn authors: Moreno‐Escobar, Maria Camila; Feizi, Parissa; Podury, Sanjiti; Tandon, Medha; Munir, Badria; Alvi, Muhammad; Adcock, Amelia; Sriwastava, Shitiz title: Acute cerebellitis following SARS‐CoV‐2 infection: A case report and review of the literature date: 2021-08-05 journal: J Med Virol DOI: 10.1002/jmv.27232 sha: 5d5df3abbb6e7b84025ebf1d64bb6f1fadc60fda doc_id: 751678 cord_uid: vdexjapn Novel coronavirus disease (COVID‐19) first described in Wuhan, China in December 2019, has rapidly spread across the world and become a global public health emergency. Literature on the neurological manifestations of COVID‐19 is limited. We report a 24‐year‐old male, who presented with vertigo, dysarthria, and bradyphrenia 3 weeks after being diagnosed with COVID‐19 on nasopharyngeal reverse transcription polymerase chain reaction. The patient was diagnosed with acute cerebellitis based on magnetic resonance imaging features and showed improvement posttreatment with intravenous methylprednisone for 5 days. The scope of this article is to highlight the importance of early identification of neurological symptoms and timely management as the outcomes may be catastrophic. the patient was found to have ataxic dysarthria with moderate bradyphrenia. The patient was admitted directly to the hospital and magnetic resonance imaging (MRI) showed nodular leptomeningeal enhancement along the bilateral cerebellar folia, more pronounced on the left. T2/FLAIR images demonstrated cortical hyperintensity in the areas of leptomeningeal enhancement. Restricted diffusion was seen on diffusion-weighted imaging/apparent diffusion coefficient (DWI/ ADC) secondary to cytotoxic edema in these same areas. Findings were concerning for cerebellitis (refer to Figure 1 ). CSF RT-PCR was negative for SARS-CoV-2. However, CSF analysis demonstrated pleocytosis (eight nucleated cells) with lymphocytic predominance 92%, protein levels of 68 mg/dl, glucose of 171 mg/dl, and serum glucose 272 mg/dl. CSF PCR was negative for herpes simplex virus 1 (HSV-1) and HSV-2, cytomegalovirus, enterovirus. Lyme panel was negative. Cryptococcal antigen was negative. CSF culture showed no growth. West Nile virus, IgM, and IgG were negative. Varicella-zoster PCR was again negative. VDRL PCR was negative. Serum and CSF paraneoplastic as well as the autoimmune panel was negative for anti-GABA B receptor, anti AMPA, anti-Yo, anti-Hu, anti-Ri, anti-Purkinje cell cytoplasmic antibody 2, antiglutamic acid decarboxylase, antimetabotropic glutamate receptor 1 (anti-mGluR1), anti-CV2, antiparaneoplastic antigen Ma 2 (anti-PNMA2), anti-N-methyl-Daspartate receptor, anticontactin-associated protein 2 (anti-CASPR2), and leucine-rich glioma-inactivated protein 1 (LGI 1). Other investigations included elevated WBC of 12.1 × 10 3 /µl, platelet of 518 × 10 3 /µl, lymphocytes of 3.60 × 10 3 /µl, C-reactive protein (2.2 mg/L), serum ferritin (388 ng/ml), lactate dehydrogenase (404 U/L), D-dimer (200 ng/ml). Chest X ray and subsequently CT of the chest were performed due to COVID-19 diagnosis, which were both unremarkable. These findings were compatible with an inflammatory CNS disorder and a diagnosis of cerebellitis was made. The patient was initially also started on acyclovir and ceftriaxone for the concern of bacterial versus viral meningoencephalitis but this was discontinued once the CSF Gram stain, culture, and HSV panel were unremarkable. Acute cerebellitis is an inflammatory syndrome associated with cerebellar swelling and dysfunction, hypothesized to be a result of infection (most commonly viral) and less commonly after vaccination. 7, 8 Patients typically present with acute cerebellar dysfunction (ataxia, nystagmus, or dysmetria), headache, nausea, and altered consciousness. It is a rare pathology that has a wide range of clinical presentations. Acute cerebellitis should be suspected in any presentation with symptoms suggestive of posterior fossa involvement. Although acute cerebellitis F I G U R E 1 MRI Brain axial FLAIR image (A) demonstrates abnormal cortical hyperintensity in the bilateral cerebellar hemispheres diffusely, left more than right (green arrow). Axial and sagittal T1 postcontrast images (B, C) show cortical and leptomeningeal enhancement involving the bilateral cerebellar hemispheres (green arrow). DWI demonstrates hyperintensity in the region of parenchymal signal abnormality on FLAIR in the bilateral cerebellar hemispheres, left more than right (D), with the corresponding hypointensity on ADC consistent with restricted diffusion secondary to cytotoxic edema (E). SWI images (F) show no evidence of signal dropout to suggest hemorrhage. ADC, apparent diffusion coefficient; DWI, diffusion-weighted imaging; MRI, magnetic resonance imaging; SWI, susceptibility weighted imaging cases are more common in children, the diagnosis should also be suspected in adults in the appropriate clinical setting as with our case. 9, 10 Infectious agents associated with acute cerebellitis include viruses such as varicella-zoster virus, Ebstein-Barr virus, HSV-1, influenza and respiratory syncytial virus, bacteria including streptococcus pneumoniae, borrelia burgdorferi, and salmonella typhi among others. 9, [11] [12] [13] Autoimmune mechanisms have also been hypothesized due to the detection of autoimmune antibodies against Purkinje cells. 14 A non-contrast head CT is often the first study performed in patients who present with acute cerebellitis. This is to assess for other etiologies for the patient's symptoms, such as infarct or he- The main differential diagnosis of acute cerebellitis is acute infarct or neoplasm. Acute infarcts will present with restricted diffusion and T2/ FLAIR signal abnormality in the affected areas. Acute cerebellitis may also present with restricted diffusion. However, leptomeningeal enhancement along the cerebellar folia is not typical in the setting of infarct and is usually seen in the setting of cerebellitis and is a helpful distinguishing factor. In addition, acute infarcts will conform to the involved vascular territories. However, FLAIR signal abnormality can become more pronounced in the setting of larger infarcts with subsequent development of vasogenic edema which can mimic cerebellitis. 12, 15, 18 In the rare chance of uncertain cases, interval follow-up is recommended. A neoplasm can usually be differentiated from cerebellitis on the initial MRI. A mass in the posterior fossa will present as a well-defined lesion typically with surrounding edema. Mass effect is not a differentiating factor as this can occur with both disease processes. If cerebellitis is complicated by hemorrhage, as in the case of the very rare pseudotumor cerebellitis with hemorrhage, 18 interval follow-up should be performed to assess for expected evolution and to exclude an underlying mass lesion. Other lesions in the cerebellum such as Lhermitte Duclos (dysplastic cerebellar gangliocytoma,) can typically be differentiated from acute cerebellitis as there is usually no restricted diffusion or enhancement in the former. 19 An altered level of consciousness due to brainstem compression resulting from cerebellar inflammation can mask the initial manifestations of cerebellar involvement. Patients can present with symptoms of raised intracranial pressure (RICP) including autonomic dysfunction and coma. This kind of presentation is known as fulminant acute cerebellitis and should be considered as a differential in patients presenting with symptoms of RICP of sudden onset as it is associated with severe irreversible sequelae and death. 20 There are several mechanisms by which Coronavirus can involve the nervous tissue and these include direct invasion, hypoxia, via ACE2, and autoimmunity. 3 and difficulty with walking due to issues with balance along with the viral respiratory symptoms. He tested positive for COVID-19 (nasopharyngeal RT-PCR, CSF RT-PCR was not performed) and was categorized under the non-severe category according to the ATS/IDSA classification. 6 On examination, the patient had dysarthria, incoordination, imbalance, and trouble reaching for items. Contrast-enhanced MRI brain was unremarkable. CSF showed pleocytosis 7/mm 3 with lymphocytic predominance, normal protein, and was negative for other viruses. 25 This patient did not fulfill strict criteria for cerebellitis 12, 15 and the diagnosis was made based on the clinical presentation. We illustrate a rare case of post-COVID-19 related acute cerebellitis. This case highlights the importance of maintaining a high clinical suspicion in the appropriate patient population (children and/or those with recent viral illness or vaccination) given that our patient was evaluated multiple times before making a diagnosis. Prompt diagnosis with MRI and early treatment with corticosteroids may reduce the MORENO-ESCOBAR ET AL. WHO. 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