key: cord-1005256-6eg7rjzj authors: Hafizi, Fatima; Kherani, Saleema; Shams, Madeeha title: Meningoencephalitis from SARS-CoV-2 Infection date: 2020-07-18 journal: IDCases DOI: 10.1016/j.idcr.2020.e00919 sha: 789bbc030bf74dee2bd1e08ce6c6df3f26695bfc doc_id: 1005256 cord_uid: 6eg7rjzj The current global pandemic of COVID-19 disease is caused by a novel coronavirus SARS-CoV-2. This typically causes severe respiratory illness, however, as cases have multiplied across the globe, protean manifestations involving multiple organ systems have been described. We report a case of a 35-year-old woman with meningoencephalitis associated with COVID-19 disease who presented with altered mental status and rhythmic limb movements. Although rare, meningoencephalitis should be considered as a possible manifestation of COVID-19 disease. The novel coronavirus, named SARS-CoV-2, is known to have emerged in Wuhan, China in late 2019. Its high infectivity has allowed it to spread across the globe, leading to a worldwide pandemic [1, 2] . While research continues to elucidate its mechanism of infection, clinical manifestations and key targets for drug therapy, a wide variety of organs have been found to be involved with SARS-CoV-2 infection. Recent reports indicate that the CNS is not spared. Headache, dysguesia and hyposmia have been reported as the common nonspecific neurologic symptoms of COVID-19 infection [3, 4, 5] , however, more serious neurologic manifestations including encephalopathy [6, 7] , Guillain Barre syndrome [8] and stroke [9, 10] are now being reported as the number of patients with COVID-19 multiplies across the globe. We report a case of meningoencephalitis associated with SARS-CoV-2 who presented with altered mental status. J o u r n a l P r e -p r o o f A 35-year-old woman with newly diagnosed diabetes presented to the emergency department (ED) with altered mental status. She had been complaining of a persistent generalized headache for one week that was partially relieved with acetaminophen and ibuprofen. Four days prior, she had developed a non-productive cough and sore throat without any documented fever. On the day of presentation, her husband noted that she was lethargic and confused. He later found her unresponsive and having random rhythmic movements of bilateral upper and lower extremities, then called emergency medical services. She did not have any tongue biting, fecal or urinary incontinence. It was reported that over the past two weeks the patient had been taking food to a COVID-19 positive family member but ensuring no close contact. Otherwise, she had no history of substance use, smoking or recent travel. Upon arrival to the ED, the patient had a Glasgow Coma Scale (GCS) of 9 (E4 V1 M4). She was afebrile with temperature 36.6ᐤC, heart rate 93, and blood pressure 133/70. She had no nuchal rigidity on physical exam, and Brudzinski and Kernig's signs were negative. Due to agitation and vomiting, endotracheal intubation was performed for airway protection. Laboratory tests showed white blood cell count of 6,900/µL and lactate of 1.1mmol/L. A head CT without contrast showed no abnormalities and a urinalysis was negative. A chest x-ray showed bilateral patchy infiltrates and a nasopharyngeal SARS-CoV-2 PCR resulted positive. Pharyngeal swab for rapid Streptococcus test was also positive for Streptococcus pyogenes. Blood cultures were drawn. Patient was empirically started on vancomycin, ceftriaxone and acyclovir. An initial lumbar puncture attempt was unsuccessful, and she was admitted to the intensive care unit. Serum inflammatory markers on admission showed elevated C-reactive protein (23.0 mg/L), erythrocyte sedimentation rate (34 mm/hr), and D-dimer (0.51 µg/mL) but normal ferritin (125.3 ng/mL), lactate dehydrogenase (267 U/L) and interleukin-6 levels (<5 pg/mL). Blood and CSF cultures finalized negative on day 5. Vancomycin was discontinued after two days. Ceftriaxone was continued for streptococcal pharyngitis and acyclovir for possible herpes simplex encephalitis. By day four, her mental status markedly improved and she was extubated. She was discharged home on day nine to complete ten days of anti-infective therapy (PO penicillin V and PO valacyclovir). The neuroinvasive nature of human coronavirus has been previously reported during the 2002-2003 SARS-CoV pandemic when viral nucleic acids were found in the human brain upon autopsies [11] . It was postulated by scientists in China that SARS-CoV-2, a novel coronavirus from the SARS-CoV family, could also infect the brain when they observed neurologic signs among J o u r n a l P r e -p r o o f patients with COVID-19 related respiratory illness [12] . A recent report from Japan described the first case presenting with SARS-CoV-2 meningoencephalitis which was associated with increased signal intensity in the hippocampus, similar to SARS-CoV encephalitis [6] . The similitude is believed to be due to similarity in the angiotensin converting enzyme 2 receptor binding domain for both viruses [12] . However, to date, there is insufficient clinical and pathophysiologic data to postulate the exact mechanism by which SARS-CoV-2 infects the nervous system. Brain imaging in our patient was performed using computed tomography. Although a subsequent MRI may have been helpful with diagnosis, it was not performed to prevent spread of SARS-CoV2 to others. Likewise, a definitive diagnosis of viral encephalitis depends on the ability to detect or culture the virus from CSF or brain tissue. This can be difficult as SARS-CoV-2 is transiently disseminated and its titer in CSF can be low [13] . Our patient had CSF findings of meningoencephalitis but all viral PCR studies resulted negative. HSV encephalitis detected with PCR has a very high specificity, but it has been found that the sensitivity is lower early in the disease process [14] . Given our patient's rapid improvement, the risks of repeating lumbar puncture to check HSV PCR outweighed the benefits. Therefore, she was empirically given a complete course of acyclovir. However, her rapid defervescence is not typical of HSV CNS infection even with the timely initiation of antiviral treatment. Therefore, we speculate that our patient had a CNS infection associated with SARS-CoV-2. Unfortunately, SARS-CoV-2 testing could not be performed due to lack of validation for the test at our facility. Testing through viral culture from CSF or brain tissue would require a biosafety level 3 lab and would be very resource intensive. Detecting SARS-CoV-2 RNA would be a much more feasible approach for the majority of hospitals. This case clearly demonstrates the need to make COVID-19 testing in CSF widely available in acute care settings. This research did not receive any grants from funding agencies in the public, commercial, or nonprofit sectors. Authors declare no conflicts of interest. 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