Mechanisms and implications of COVID-19 transport into neural tissue

The neuropathogenicity of COVID-19 was reported shortly after detection of the virus when patients began reporting symptoms of diminished taste and smell, headaches, mental status changes, and more. As the virus spread, increasing data on viral symptoms in conjunction with novel theories on COVID-19 virulence factors indicated that the virus had neurotropic properties. Several mechanisms have been proposed detailing severe acute respiratory syndrome coronavirus disease 2019 (SARS-CoV-2) transport past the blood–brain barrier and into neural tissue. This chapter offers a comprehensive review of possible neurotropic mechanisms including transport via the angiotensin-converting enzyme 2 (ACE-2) receptor, transportation directly past or through the blood–brain barrier, transsynaptic neuronal transfer, and olfactory conduction. © 2023 Elsevier Inc. All rights reserved.

Aseptic meningitis caused by Coronavirus OC43 in a child: A case report

Human coronavirus OC43 (HCoV-OC43) is one of the coronaviruses that cause the mild cold. On the other hand, extra-respiratory manifestations such as central nervous system infections with HCoV-OC43 are very rarely reported. We present a case of a previously healthy immunocompetent child with acute aseptic meningitis, as a result of HCoV-OC43 who admitted to the emergency department with a complaint of unconsciousness.. Respiratory tract and cerebrospinal fluid culture showed HCoV-OC43 in viral screening. During the follow-up period, the patient was completely asymptomatic, with normalized consciousness. The clinicians should keep in mind that HCoV-OC43 can be the etiological agent in the differential diagnosis of aseptic meningitis in immunocompetent individuals with reversible neurological symptoms.Copyright © 2022, Derman Medical Publishing. All rights reserved.

Clinical Course Associated with Aseptic Meningitis Induced by Intravenous Immunoglobulin for the Treatment of Multisystem Inflammatory Syndrome in Children.

Aseptic meningitis is a rare but potentially serious complication of intravenous immunoglobulin treatment. In this case series, meningitic symptoms following intravenous immunoglobulin initiation in patients with multisystem inflammatory syndrome were rare (7/2,086 [0.3%]). However, they required the need for additional therapy and/or readmission.

Neurological Manifestations of Multisystem Inflammatory Syndrome in Children

Multisystem Inflammatory Syndrome in Children (MIS-C) associated with COVID-19 first reported from South East London has a wide spectrum of neurological signs and symptoms including headache, impaired consciousness, aseptic meningitis, encephalitis, seizure, ataxia, and stroke. It is important to diagnose these patients as soon as possible and treat them with a multidisciplinary ap-proach. A few studies have reported post-discharge follow-up data in MIS-C patients with neurological symptoms most of whom showed neurological improvement. Long-term follow-up of MIS-C patients is required to determine possible neurological sequelae. Copyright © 2022 Ankara Pediatric Hematology Oncology Training and Research Hospital. All rights reserved.

Aseptic meningitis caused by Coronavirus OC43 in a child: A case report

Human coronavirus OC43 (HCoV-OC43) is one of the coronaviruses that cause the mild cold. On the other hand, extra-respiratory manifestations such as cen-tral nervous system infections with HCoV-OC43 are very rarely reported. We present a case of a previously healthy immunocompetent child with acute aseptic meningitis, as a result of HCoV-OC43 who admitted to the emergency department with a complaint of unconsciousness.. Respiratory tract and cerebrospinal fluid culture showed HCoV-OC43 in viral screening. During the follow-up period, the patient was completely asymptomatic, with normalized consciousness. The clinicians should keep in mind that HCoV-OC43 can be the etiological agent in the differential diagnosis of aseptic meningitis in immunocompetent individuals with reversible neurological symptoms.

A LESSON ON ANCHORING BIAS DURING A PANDEMIC: A CASE PRESENTATION

SESSION TITLE: Cases of Overdose, OTC, and Illegal Drug Critical Cases Posters SESSION TYPE: Case Report Posters PRESENTED ON: 10/17/2022 12:15 pm - 01:15 pm INTRODUCTION: Anchoring bias is a cognitive bias where one relies too heavily on initial information early on in the decision making process, affecting subsequent decisions due to future arguments being discussed in relation to the "anchor. Overemphasis on COVID-19 due to the pandemic has impacted the timely diagnosis and treatment of other diseases. CASE PRESENTATION: A 39-year-old man with a past medical history of COVID 19 in 12/2020 presents to the ED with increasing weakness, chest pain, recurrent fevers, diarrhea, and cough. CXR revealed bilateral infiltrates suggestive of pneumonia/pulmonary edema. Patient was empirically started on ceftriaxone. CT chest was suspicious of COVID-19;however repeat testing was negative. Diarrhea did not improve. Patient later admitted to recent travel to Jamaica. Ova and parasite, C-difficile, and stool culture were negative. On hospital day 8, the patient was intubated and placed on mechanical ventilation for worsening hypoxic respiratory failure Infectious disease was consulted for recurrent fevers of unknown origin and diarrhea with recent travel. Testing for typhoid fever, hantavirus, malaria, HIV, zika virus, chikungunya, dengue, and yellow fever were performed. Consent was obtained for HIV testing. HIV antibody tests were positive, CD4 count of 7, and viral load greater than 900k. Since a new diagnosis of AIDS with a CD4 count of 7 was obtained, the patient was subsequently tested for opportunistic infections such as TB. TB sputum PCR testing was positive but AFB smear was negative for TB. Antiretroviral and tuberculosis treatments were initiated. DISCUSSION: Anchoring bias can delay critical diagnoses and impede patient care if it is not recognized. According to Watson et. al, one way physicians circumvent the thought of pretest probability when ordering tests based on patient history and the subsequent list of differential diagnoses is anchoring bias. Bypassing the pretest probability also alters the sensitivity and specificity of testing because results that do not confirm or rule out a top differential diagnosis are thought to be inaccurate and are then repeated attributing the initial result to a bad specimen or an improper collection of the specimen. CONCLUSIONS: The case presented exemplifies clearly the concept of anchoring bias. Upon initial presentation, the patient had nonspecific symptoms such as weakness, chest pain, recurrent fevers, diarrhea, and cough, all of which can be symptoms of COVID 19 in the setting of a global pandemic. It is clear that the initial diagnosis based on these symptoms was COVID 19. When initial testing was negative, anchoring bias still played a role in the decision to test the patient once again, despite the first negative test. Repeat testing still did not support the diagnosis of COVID 19, which expanded the differential diagnosis and ultimately led to the correct diagnosis of AIDS with concomitant TB infection. Reference #1: Saposnik, et. Al. Cognitive Biases Associated with Medical Decisions: A Systematic Review. BMC Med Inform Decis Mak. 2016 Nov. 3. PMID: 27809908 Reference #2: Harada, et. al. COVID Blindness: Delayed Diagnosis of Aseptic Meningitis in the COVID-19 Era. Eur J Case Rep Intern Med. 2020 Oct 23. PMID: 33194872. Reference #3: Singh, et. al. The Global Burden of Diagnostic Errors in Primary Care. BMJ Qual Saf. 2016 Aug 16. PMID: 27530239. DISCLOSURES: No relevant relationships by Sagar Bhula

Aseptic meningitis in multisystem inflammatory syndrome in children associated with coronavirus disease 2019: a case report.

BACKGROUND: As the coronavirus disease 2019 infections are still ongoing, there is an increasing number of case reports and case series with various manifestations of life-threatening multisystem inflammatory syndrome in children . Our case aims to remind all providers to scrutinize for clinical manifestations, including neurological symptoms, which may mimic aseptic meningitis. CASE PRESENTATION: A 5-year-old Albanian male child with obesity was admitted to the pediatric intensive care unit due to persistent fever, headache, vomiting, abdominal pain, mucocutaneous manifestations, and fatigue. Initial laboratory results revealed high level of inflammatory markers, including C-reactive protein of 156.8 mg/l, erythrocyte sedimentation rate of 100 mm/hour, procalcitonin of 13.84, leukocytosis with neutrophilia, and lymphopenia. Liver and renal functions, and capillary blood electrolytes (Na, K, Ca), were also altered. Cerebrospinal fluid was slightly turbid, with a white blood cell count of 128/mm3 (80% mononuclear cells and 20% polymorphonuclear), consistent with aseptic meningitis. The clinical presentation with prolonged fever, multiorgan dysfunction, and elevated inflammatory markers, with no plausible alternative diagnosis, matches the case definition of multisystem inflammatory syndrome in children. Combining corticosteroid methylprednisolone with intravenous immunoglobulin was effective. CONCLUSIONS: Apart from the most common presentation of multisystem organ dysfunction, neurological manifestations of multisystem inflammatory syndrome in children such as aseptic meningitis, may be present as an immune response post-viral to coronavirus disease 2019. Given the rapid deterioration of children with multisystem inflammatory syndrome, early treatment with immunoglobulins and corticosteroids should be considered.

The epidemiology of aseptic meningitis in New Zealand children from 1991 to 2020.

AIM: Aseptic meningitis, including culture negative and viral meningitis, contributes a significant health-care burden, including unnecessary antibiotic use and hospitalisation to treat possible bacterial meningitis. This study analysed aseptic meningitis hospitalisations in New Zealand (NZ) children over 29 years. METHODS: In this population-based study, aseptic meningitis hospitalisations in NZ children <15 years old were analysed from 1991 to 2020. Incident rate ratios were calculated using Poisson regression models. Variations in hospitalisations by age, year, sex, ethnicity, geographical region and socio-economic deprivation were analysed. RESULTS: There were 5142 paediatric aseptic meningitis hospitalisations from 1991 to 2020. Most were unspecified viral meningitis (64%), followed by enterovirus (29%). Hospitalisation rates varied annually with a median of 18.4/100 000 children including a peak in 2001 of 56.4/100 000 (51.7-61.6). From 2002 to 2019, rates increased by 8.4%/year (7.2-9.5%) in infants <90 days old but decreased in all other age groups. In 2020, a reduction in hospitalisations to 9.6/100 000 (7.9-11.8) occurred, and in infants <90 days old were 0.37 times expected. Hospitalisations were 1.50 times (1.49-1.68) higher in males than females; higher in children of Maori (P < 0.001) and Pacific (P < 0.001) versus European ethnicity; and higher for children living in the most (2.44 times, (2.16-2.75)) versus least deprived households; and in northern versus southern NZ. CONCLUSIONS: Aseptic meningitis hospitalisations increased in young infants during 29 years of surveillance, apart from 2020 when admissions reduced during the COVID-19 pandemic. In contrast, hospitalisations decreased in children aged >1 year. Further investigation into reasons for higher admissions by ethnic group, geographical location and increased deprivation are required.

Mild encephalitis/encephalopathy with reversible splenial lesion after COVID-19 vaccination

Objective: To investigate the clinical features of the two cases presenting neurological syndrome after receiving COVID-19 vaccination, who were diagnosed with mild encephalitis/encephalopathy with a reversible splenial lesion (MERS). Background: Neurological symptoms can occur after COVID-19 mRNA vaccination. However, its etiology hasn't been fully revealed. Design/Methods: A 23-year-old previously healthy man (Patient 1) and a 33-year-old woman with a history of depression (Patient 2) developed neurological symptoms approximately one week after receipt of the first standard dose (0.3 mL, intramuscular injection) of COVID-19 mRNA vaccination (Coronavirus Modified Uridine RNA Vaccine (SARS-CoV-2)) (Day 1) and deteriorated over the next week. Clinical course, laboratory and MRI findings were serially analyzed. Results: Patient 1 presented with headache, low-grade fever and memory disturbance (Day 3). Intravenous acyclovir and meropenem were administered under a possible diagnosis of aseptic meningitis but not effective. Patient 2 presented with visual disturbance, headache, dysarthria, a left forearm tremor, dysesthesia of the mouth and distal limbs, and visual agnosia (Day 10). In both patients, reverse transcription polymerase chain reaction test results for severe acute respiratory syndrome coronavirus 2 were negative. Complete blood cell count, blood-chemistry including electrolytes and antibody titers, and cerebrospinal fluid test findings were unremarkable initially. However, second cerebrospinal fluid test of Patient 1 (Day 8) showed pleocytosis (942 cells/μL, normal ≤ 5 cells/μL) and elevated protein levels (181 mg/dL, normal 10-40 mg/dL). Brain MRI on Day 17 in Patient 1 and Day 15 in Patient 2 after receiving the vaccination showed high signal intensity lesions at the midline of the splenium of the corpus callosum. Based on the typical imaging features, the patients were diagnosed with MERS. Intravenous methylprednisolone therapy (1,000 mg/day for 3 days) improved their symptoms and MRI lesion disappeared. Conclusions: MERS should be considered in patients with neurological manifestation after COVID-19 vaccination, even though symptoms were mild and nonspecific.

A Case of Aseptic Meningitis Without Rash Possibly Associated With Varicella Vaccine.

Varicella-zoster virus (VZV) may cause aseptic meningitis in the pediatric age group. We describe a pediatric case of aseptic meningitis with a substantial increase of the paired serum antibody to VZV in which the child did not have skin rash during the course of illness. The patient was a 13-year-old boy without any history of exposure to VZV who was admitted with headache, vomiting, and low-grade fever. He had received one dose of varicella vaccine derived from the Oka/Biken strain (vOka) at the age of one year. Cerebrospinal fluid (CSF) analysis on admission revealed an elevated white blood cell count at 609/mm3 with 99.6% mononuclear cells. As his symptoms resolved after lumbar puncture alone, he was discharged on the seventh day of hospitalization without receiving any specific medication. Serum VZV-IgG titer was found to be substantially elevated after two weeks. VZV infection and reactivations associated with vaccination, as well as past infections, should be included in the differential diagnoses of pediatric aseptic meningitis, even in the absence of skin rash in the entire course. Polymerase chain reaction (PCR) testing for VZV DNA in CSF should be performed in all cases, if available.

Cardiac involvement in Pediatric Multisystem Inflammatory Syndrome (PIMS) triggered by pandemic COVID19

Introduction: We want to present the cardiac implication in PMIS, a new and serious SARS COV2 pandemic entity, that has similar characteristics with Kawasaki disease(KD) or Toxic Shock Syndrome and may develop a severe and potential fatal Macrophage Activation Syndrome(MAS), targeting major organs. Methods: During pandemic, 7 patients were admitted into our clinic with prolonged unremitted fever and different clinical onset, 4 female and 3 males, with ages between 4 mo and 16 yo. All patients underwent clinical examination, ECG, serial Echocardiography, abdominal ultrasound, Cardio-pulmonary X ray or CT, complex lab tests. Two tested positive for COVID antibodies. S66 Cardiology in the Young: Volume 32 Supplement 1 Results: Two patients developed incomplete Kawasaki-like disease with slight dilatation of the coronary arteries and thrombocytosis over 1 million/mm3, treated with IGIV and Aspirin. PIMS with severe MAS, a rare complication was present in 5 patients admitted for fever and: diarrhea(1), rash(2), aseptic meningitis(1), encephalitis, seizures and coma(1), ground glass pneumonia(5), generalized purpura(1), appendicitis(2), ascites(1), colonic abscesses(1), arthritis mimicking Systemic Juvenile Arthritis(1), symptoms presented in different combinations, targeting 2 or 3 organs. Hepato-splenomegaly was palpable in all 5. Cardiac involvement was present at the beginning in 2 cases: pericarditis(2), mitral insufficiency(1), mitral and aortic insufficiency(1), and rapidly after admittance in 3 cases: cardiac tamponade and severe hypotension(1), pericarditis( 1), myocarditis(1). Cardiac biomarkers: NT-proBNP and Troponins T and I were elevated in all cases, with more sensitive Troponin I. All 5 patients had: elevated CRP, Ferritin, D-Dimers, liver enzymes, triglycerides, low fibrinogen, falling ESR, leucopenia and thrombocytopenia(one patient with 5000/mm3 thrombocyte), abnormal coagulation. Interleukin 6(IL6) was high in all 7 patients, but in PIMS with MAS, the cytokine storm syndrome, was confirmed by highly elevated soluble IL2 receptor. This patients were promptly treated with IV corticotherapy, anticoagulants, IGIV and antibiotics with favorable evolution. Conclusions: Cardiac tamponade, pericarditis, myocarditis, mitral and aortic insufficiency and Kawasaki-like disease with coronary artery dilatation were found in PIMS patients. Only two cases were positive for COVID Antibodies. Rapid recognition of PIMS and aggressive treatment of MAS prevent fatalities and determined a favorable evolution.

Aseptic meningitis following AZD1222 COVID-19 vaccination.

The AZD1222 is one of the vaccines used against coronavirus disease 2019 (COVID-19), which is currently being used in many countries worldwide. Some important neurological side effects have been reported in association with this vaccine, but aseptic meningitis has not yet been reported. Herein, we report a case of aseptic meningitis in a 26-year-old health care worker, following the first dose of the AZD1222 vaccine.

Isolated Chronic Aseptic Meningitis Due to SARS-COV-2 Unresponsive to Ordinary Treatments

Serious, and sometimes, deadly complications of coronavirus disease 2019 (COVID-19) caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) are devastating. Whereas most manifestations of COVID-19 are respiratory (fever, dry cough, fatigue, pneumonia), it is getting to be progressively recognized that numerous organ functions can be affected by this disease, and the nervous system is one of them as neurological complications can affect up to 36% of adult patients. However, the prevalence and pathophysiology of these complications have yet to be fully elucidated in children. Here, we discuss an infant with neurological symptoms manifested as chronic isolated aseptic meningitis associated with COVID-19, which was unresponsive to ordinary treatments and dramatically responsive to dexamethasone. Immune-mediated reactions may have had a major pathophysiologic role in this case. © 2021, Author(s).

Aseptic Meningitis Associated to SARS Cov2 Infection and MIS-C: Pediatric Presentation of Covid-19

Background. Novel SARS CoV2 may target the central nervous system and several neurological symptoms have been reported in patients with Coronavirus disease (COVID-19). Mucocutaneous and inflammatory symptoms are important in pediatric population associated to immune dysregulation. There are few reports of clinical manifestations in children and less frequently the isolation and affection of Central Nervous System. Methods. A previously healthy four months female infant with familiar contact to SARS-CoV2 four weeks ago. Start with fever of 104°F, vomiting, maculopapular rash on the anterior thorax and upper extremities involving the palms and soles associated with edema. On physical examination, irritable, bulging anterior fontanelle, non-purulent bilateral conjunctival injection, cheilitis and rash was confirmed. Results. Laboratory findings: thrombocytopenia, elevated D-Dimer, fibrinogen, PCT, CRP, ferritin and ESR with hypoalbuminemia. MIS-C is integrated with cutaneous, gastrointestinal and neurological affections. Empirically ceftriaxone, vancomycin and acyclovir are started due to suspicion of meningoencephalitis. RT-PCR for SARS-CoV-2 positive. CSF: transparent appearance, slightly xanthochromic color, coagulation and negative film. Proteins 105 mg / dl, glucose 45 mg / dl, leukocytes 121 mm3, erythrocytes 66 mm3, PMN 8% and MNN 92%. Negative culture,PCR Herpes Virus negative,Viral load for SARS CoV2 in CSF 3,400 cop / ml and plasma 118,900 cop / ml, Aseptic meningitis is confirmed by SARS-CoV-2. Antiviral and antibiotics are discontinued and Gamma globulin and methylprednisolone are administered. Evolving favorably and egress at 6th day to complete oral steroid treatment for 3 more day. Conclusion. The mechanism by which SARS-CoV2 affects the CNS is still unknown. This findings suggests direct infection can be possible. Although it is also described vascular affection has been found that the Spike protein of the virus binds to ACE-2 receptor present in the cerebral vascular endothelium. Neurological manifestations have been described even without respiratory symptoms. A novel pediatric case with viral load for SARS-CoV-2 in CSF is demonstrated. Importance of detecting SARS-CoV-2 in children with encephalitis, which can progress satisfactorily.

Another simple pericarditis?

Background: A 19-year-old gentleman, with past history of sinusitis, aseptic meningitis upon birth & subsequent epilepsy, came back from the UK presenting with fever, sore throat, chills with myalgia, as well as pleuritic chest pain. Case: COVID-19 was ruled out. Despite appropriate medications, his chest pain worsened together with epigastric pain. Fever persisted. Urgent CT was arranged for him showing findings suspicious of pericarditis. Serial ECG after admission revealed the classical findings compatible with pericarditis. He was taken over to CCU with treatment for pericarditis started. Unfortunately, despite empirical broad spectrum antibiotics & anti-inflammatories, his symptoms worsened with borderline blood pressure, increasing tachypnoea & persistent fever. Blood tests showed sky high white cell count up to 50 with neutrophil predominance. Serial echocardiograms showed a gradual increase in posteriorly-loculated pericardial effusion with fibrin, with striking findings of constriction physiology. Significant respirophasic changes in mitral & tricuspid inflow were demonstrated. Right-sided cardiac chambers were not collapsed, rather, the RA & the IVC were dilated. CT was repeated for deteriorating hemodynamics showing a rim-enhancing pericardial effuision. Decision making: In view of the constrictive physiology demonstrated in echocardiograms, surgical intervention was deemed necessary for the patient & he was sent immediately to Queen Elizabeth Hospital Cardiothoracic Surgery team for emergency surgery. Conclusion: The classical teaching of constrictive pericarditis describes patients with prior insult to the pericardium such as surgery, previous tuberculosis infection, prior radiotherapy exposure, etc, such that the pericardium is calcified as a cage hindering the expansion of the heart. However, with the presence of purulent and fibrin-rich effusion, constrictive physiology can become evident and life-thereatening (Effusive-constrictive pericarditis) as well.

Aseptic Meningitis, Mucocutaneous Lesions and Arthritis after COVID-19 Vaccination in a 15-Year-Old Boy.

We report a 15-year-old boy who developed aseptic meningitis 10 days after administration of the second dose of the COVID-19 vaccine BNT162b2. Although accompanying aphthous mouth ulcers resembling herpetic stomatitis initially led us to suspect an underlying viral infection, broad virological and microbiological screening did not identify any causative pathogen. Gonarthritis and skin lesions, which both developed within three days after admission, extended the clinical presentation eventually resembling an acute Behçet's disease episode. This is the first description of a juvenile patient with aseptic and pathogen-negative meningitis occurring in close temporal association with vaccination against COVID-19, along with a few previously reported adult patients with isolated meningitis and a further case with meningitis and an accompanying Behçet's disease-like multisystem inflammation episode as seen in our patient. With billions of individuals being vaccinated worldwide so far and only a few cases of aseptic pathogen-negative meningitis reported in close temporal relation, causality is unclear. However, aseptic meningitis should be kept in mind in the differential diagnosis of patients with persistent or delayed onset of headache and fever following COVID-19 vaccination.

Aseptic Meningitis Following Second Dose of an mRNA Coronavirus Disease 2019 Vaccine in a Healthy Male: Case Report and Literature Review.

Vaccines are one of the most important strategies against pandemics or epidemics involving infectious diseases. With the spread of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), there have been global efforts for rapid development of coronavirus disease 2019 (COVID-19) vaccine and vaccination is being performed globally on a massive scale. With rapid increase in vaccination, rare adverse events have been reported. Well-known neurological adverse events associated with COVID-19 vaccination include Guillain-Barré syndrome, myelitis, and encephalitis. However, COVID-19 vaccine-related aseptic meningitis has rarely been reported. A 32-year-old healthy man visited our hospital with a complaint of headache for 1 week. He had received the second dose of the BNT162b2 mRNA COVID-19 vaccine 2 weeks before the onset of headache. Since the initial cerebrospinal fluid (CSF) profile suggested viral meningitis, we started treatment with an antiviral agent. However, the symptoms and follow-up CSF profile on day 7 of hospitalization showed no improvement and SARS-CoV-2 IgG antibodies were detected in the CSF. We suspected aseptic meningitis associated with the vaccination and intravenous methylprednisolone (500 mg/day) was administered for 3 days. The symptoms improved and the patient was discharged on day 12 of hospitalization.

Aseptic meningitis after BNT-162b2 COVID-19 vaccination.

The COVID-19 pandemic has had an unprecedented impact on healthcare systems globally, giving rise to significant morbidity and mortality. Vaccination has been widely regarded as the most important strategy to contain the pandemic. Whilst local side-effects of the BNT-162b2 (Pfizer-BioNTech) vaccine are well known, concern has emerged due to sporadic reports of immune-mediated adverse effects (Cines and Bussel, 2021; Rela et al., 2021). As of August 19, 2021, 4.54 million individuals had received COVID-19 vaccines in Singapore (Oxford Martin School UoO, 2021). We report a case series of two patients who developed aseptic meningitis after vaccination.

Aseptic meningitis after SARS-CoV-2 Pfizer/BioNTech vaccination.

OBJECTIVE: Aseptic meningitis is a rare, but possible severe side effect after SARS-CoV-2 Pfizer/BioNTech vaccination. CASE PRESENTATION: Recently, a first case of aseptic meningitis after the first shot of mRNA-BNT162b2 SARS-CoV-2 (Pfizer/BioNTech) vaccine was reported. We present the first case of a 34-year-old woman without relevant medical history developing aseptic meningitis after her 2nd Pfizer/BioNTech vaccination. She was admitted with severe headache and fever for 5 days prior to her presentation at the emergency department. An extensive work-up of the clinical problem could narrow the differential diagnosis. Symptoms resolved after methylprednisolone therapy. CONCLUSION: This case highlights a rare but important side effect after vaccination that primary physicians and neurologists should be aware of in order to identify and efficiently manage these patients.

Case report: aseptic meningitis secondary to varicella-zoster virus (VZV) without an exanthem post MMR vaccination.

BACKGROUND: Varicella-zoster virus (VZV) is a known cause of aseptic meningitis, with a predisposition for an immunocompromised population. A dermatomal rash usually accompanies aseptic meningitis secondary to VZV. CASE PRESENTATION: We report the case of a 31-year-old male with a history of chickenpox in childhood and recent shingles who presented with severe frontal headaches secondary to VZV meningitis. The patient had also recently received the measles-mumps-rubella (MMR) vaccine. He recovered without any neurological sequala. CONCLUSION: This case report describes an immunocompetent patient with recent MMR vaccination who developed aseptic meningitis secondary to VZV without any dermatomal involvement (Zoster Sine Herpete).