Metagenomic next-generation sequencing for diagnosis of fatal Balamuthia amoebic encephalitis.

INTRODUCTION: Balamuthia amoebic encephalitis (BAE), caused by Balamuthia mandrillaris, is a rare and life-threatening infectious disease with no specific and effective treatments available. The diagnosis of BAE at an early stage is difficult because of the non-specific clinical manifestations and neuroimaging. CASE DESCRIPTION: A 52-year-old male patient, who had no previous history of skin lesions, presented to the emergency department with an acute headache, walking difficulties, and disturbance of consciousness. The patient underwent a series of examinations, including regular cerebrospinal fluid (CSF) studies and magnetic resonance imaging, and tuberculous meningoencephalitis was suspected. Despite being treated with anti-TB drugs, no clinical improvement was observed in the patient. Following corticosteroid therapy, the patient developed a rapid deterioration in consciousness with dilated pupils. Metagenomic next-generation sequencing (mNGS) revealed an unexpected central nervous system (CNS) amoebic infection, and the patient died soon after the confirmed diagnosis. CONCLUSION: This study highlights the application of mNGS for the diagnosis of patients with suspected encephalitis or meningitis, especially those caused by rare opportunistic infections.

Balamuthia mandrillaris amoebic encephalitis mimicking tuberculous meningitis.

A 76-year-old female with no apparent immunosuppressive conditions and no history of exposure to freshwater and international travel presented with headache and nausea 3 weeks before the presentation. On admission, her consciousness was E4V4V6. Cerebrospinal fluid analysis showed pleocytosis with mononuclear cell predominance, elevated protein, and decreased glucose. Despite antibiotic and antiviral therapy, her consciousness and neck stiffness gradually worsened, right eye-movement restriction appeared, and the right direct light reflex became absent. Brain magnetic resonance imaging revealed hydrocephalus in the inferior horn of the left lateral ventricle and meningeal enhancement around the brainstem and cerebellum. Tuberculous meningitis was suspected, and pyrazinamide, ethambutol, rifampicin, isoniazid, and dexamethasone were started. In addition, endoscopic biopsy was performed from the white matter around the inferior horn of the left lateral ventricle to exclude brain tumor. A brain biopsy specimen revealed eosinophilic round cytoplasm with vacuoles around blood vessels, and we diagnosed with amoebic encephalitis. We started azithromycin, flucytosine, rifampicin, and fluconazole, but her symptoms did not improve. She died 42 days after admission. In autopsy, the brain had not retained its structure due to autolysis. Hematoxylin and eosin staining of her brain biopsy specimen showed numerous amoebic cysts in the perivascular brain tissue. Analysis of the 16S ribosomal RNA region of amoebas from brain biopsy and autopsy specimens revealed a sequence consistent with Balamuthia mandrillaris. Amoebic meningoencephalitis can present with features characteristic of tuberculous meningitis, such as cranial nerve palsies, hydrocephalus, and basal meningeal enhancement. Difficulties in diagnosing amoebic meningoencephalitis are attributed to the following factors: (1) excluding tuberculous meningitis by microbial testing is difficult, (2) amoebic meningoencephalitis has low incidence and can occur without obvious exposure history, (3) invasive brain biopsy is essential in diagnosing amoebic meningoencephalitis. We should recognize the possibility of amoebic meningoencephalitis when evidence of tuberculosis meningitis cannot be demonstrated.

Metagenomic next-generation sequencing for diagnosis of infectious encephalitis and meningitis: a retrospective study of 90 patients.

BACKGROUND: Infections of the central nervous system (CNS) are potentially life-threatening and can cause serious morbidity. We evaluated the clinical value of metagenomic next-generation sequencing (mNGS) in the diagnosis of infectious encephalitis and meningitis and explored the factors affecting the results of mNGS. METHODS: Patients with suspected cases of encephalitis or meningitis who presented in Northern Jiangsu People's Hospital from 1 March 2018 to 30 September 2022 were collected. Demographic, historical, and clinical information were obtained, and cerebrospinal fluid (CSF) samples were treated with mNGS. The pathogen was identified using National Center for Biotechnology Information (NCBI) GenBank sequence data. RESULTS: Ninety-six patients were screened and finally 90 subjects enrolled. Of the 90 enrolled cases, 67 (74.4%) were diagnosed with central nervous system infections, which included 48 cases (71.6%) of viral infection, 11 (12.2%) of bacterial infection, 5 (7.5%) of mycobacterium tuberculosis, 2 (3.0%) of fungal infection, and 1 (1.5%) of rickettsia infection. From these cases, mNGS identified 40 (44.4%) true-positive cases, 3 (3.3%) false-positive case, 22 (24.4%) true-negative cases, and 25 (27.8%) false-negative cases. The sensitivity and specificity of mNGS were 61.5% and 88%, respectively. mNGS of CSF could show a higher positive rate in patients with marked CSF abnormalities, including elevated protein concentrations and monocyte counts. CONCLUSION: mNGS of CSF is an effective method for detecting infectious encephalitis and meningitis, and the results should be analyzed combined with conventional microbiological testing results.

Experiencia con el Biofire FilmArray® para meningitis/encefalitis infecciosa en una institución de alta complejidad en Bogotá, Colombia / Experience with the Biofire FilmArray® for infectious meningitis/encephalitis in a high complexity institution in Bogotá, Colombia

Introducción: La meningoencefalitis infecciosa (MEI) es una emergencia neurológica con importante morbimortalidad. El panel Biofire FilmArray? para meningitis/encefalitis (FAME) en el líquido cefalorraquídeo (LCR) ha demostrado ser una valiosa herramienta para el diagnóstico etiológico de la MEI, facilitando una terapia antimicrobiana dirigida. El objetivo es determinar el impacto del panel FAME en las decisiones terapéuticas antimicrobianas en pacientes con sospecha de MEI en las primeras 24 horas de la valoración clínica. Pacientes y métodos: Estudio observacional descriptivo que comenta las manifestaciones cínicas, los resultados de neuroimágenes y paraclínicos, y la antibioticoterapia de pacientes con sospecha de MEI. Se realizó un análisis del impacto que tiene el FAME en la terapia antimicrobiana en las primeras 24 horas de la valoración clínica de los pacientes. Resultados: Se incluyó a 44 pacientes. El tiempo promedio para obtener el resultado del panel FAME en el LCR fue de nueve horas, con un 20,4% (9/44) de pruebas positivas. En las primeras 24 horas de la valoración clínica, su resultado tuvo impacto en las decisiones terapéuticas antimicrobianas en el 75% (33/44) de los casos. En pacientes con alta sospecha clínica de MEI, el resultado del FAME permitió cambiar la terapia empírica inicial a una dirigida en el 15% (3/20) y suspender la terapia empírica inicial en el 35% (7/20) de los sujetos. En pacientes con baja sospecha clínica de MEI, su resultado permitió que al 25% (6/24) se le confirmara la sospecha y se le iniciara antibioticoterapia dirigida; y que al 70,8% (17/24) se le descartara el diagnóstico y no se le iniciara tratamiento. Conclusiones: El resultado del panel FAME en el LCR tiene alto impacto en la toma de decisiones terapéuticas antimicrobianas en las primeras 24 horas de la valoración clínica. Sin embargo, su interpretación debe hacerse con el contexto clínico, la epidemiología local y otros estudios diagnósticos.(AU)

Introduction: Infectious meningoencephalitis (IME) is a neurological emergency with a significant rate of morbidity and mortality. The Biofire FilmArray® meningitis/encephalitis (FAME) panel for testing in cerebrospinal fluid (CSF) has proven to be a valuable tool for the aetiological diagnosis of IME, facilitating targeted antimicrobial therapy. The aim is to determine the impact of the FAME panel on antimicrobial therapeutic decisions in patients with suspected IME in the first 24 hours of clinical assessment. Patients and methods: This is a descriptive observational study that comments on the clinical manifestations, the neuroimaging and paraclinical findings, and the antibiotic therapy of patients with suspected IME. An analysis was performed to determine the impact of FAME on antimicrobial therapy in the first 24 hours of the clinical assessment of patients. Results: Altogether 44 patients were included. The average time required to obtain the result of the FAME panel for testing in CSF was nine hours, with 20.4% (9/44) of tests yielding positive results. Within 24 hours of clinical assessment, their outcome had an impact on antimicrobial treatment decisions in 75% (33/44) of cases. In patients with a high clinical suspicion of IME, the result of FAME made it possible to change the initial empirical therapy to a targeted therapy in 15% (3/20) of cases and to discontinue the initial empirical therapy in 35% (7/20) of the subjects. In patients with low clinical suspicion of IME, their result allowed 25% (6/24) to have their suspicion confirmed and they were started on targeted antibiotic therapy; in contrast, 70.8% (17/24) had their diagnosis ruled out and were not started on treatment. Conclusions: The result of the FAME panel for testing in CSF has a high impact on antimicrobial therapeutic decisions within 24 hours of clinical assessment. However, it must be interpreted with the clinical context, local epidemiology and other diagnostic studies.(AU)

Fatal granulomatous amebic encephalitis initially presenting with a cutaneous lesion.

We present a case of a 66-year-old man with a cutaneous Balamuthia mandrillaris lesion that progressed to fatal granulomatous amoebic encephalitis. We provide a summary of Australian cases and describe the clinical features and approach to diagnosing this rare but devastating condition, including the importance of PCR for diagnosis.

Amebic encephalitis and meningoencephalitis: an update on epidemiology, diagnostic methods, and treatment.

PURPOSE OF REVIEW: Free-living amebae (FLA) including Naegleria fowleri , Balamuthia mandrillaris , and Acanthamoeba species can cause rare, yet severe infections that are nearly always fatal. This review describes recent developments in epidemiology, diagnosis, and treatment of amebic meningoencephalitis. RECENT FINDINGS: Despite similarities among the three pathogenic FLA, there are notable variations in disease presentations, routes of transmission, populations at risk, and outcomes for each. Recently, molecular diagnostic tools have been used to diagnose a greater number of FLA infections. Treatment regimens for FLA have historically relied on survivor reports; more data is needed about novel treatments, including nitroxoline. SUMMARY: Research to identify new drugs and guide treatment regimens for amebic meningoencephalitis is lacking. However, improved diagnostic capabilities may lead to earlier diagnoses, allowing earlier treatment initiation and improved outcomes. Public health practitioners should continue to prioritize increasing awareness and providing education to clinicians, laboratorians, and the public about amebic infections.

Balamuthia mandrillaris Granulomatous Amoebic Encephalitis: The First African Experience.

We report the first case of Balamuthia mandrillaris granulomatous amoebic encephalitis definitively acquired in Africa. Our case emphasizes initial nonspecific dermatological features, delays in confirmation of the diagnosis, difficulties accessing recommended medication, and uncertainty about optimal treatment of a disease with a frequently fatal outcome.

Multicenter evaluation of the FilmArray Meningitis/Encephalitis assay in a routine setting.

Introduction. The FilmArray Meningitis/Encephalitis (FA-ME) Panel (Biofire, Salt Lake City, Utah, US) enables fast and automated detection of 14 pathogens in cerebrospinal fluid (CSF).Gap statement. The performance of the FA-ME panel in a real routine setting has not yet been described and could lead to better patient management in cases of good performance.Aim. This multicenter study verified the FA-ME panel analytical performance in a routine hospital setting.Methodology. Between April 2016 and April 2018, 454 CSF samples were analysed with the FA-ME panel and compared with routine diagnostics. In cases of discrepancy or lack of a comparator result, a profound analysis based on patient records and other laboratory results was performed.Results. A first analysis of 65 frozen samples, suspicious for meningitis had a 89 % concordance with routine diagnostics. The limit of detection (LOD) was confirmed for all pathogens except for Streptococcus agalactiae and a strain of Haemophilus influenzae (Escherichia coli K1 and Cryptococcus gattii LOD experiments were not performed). The routine evaluation showed a positive result in 114 (25 %) clinical samples for at least one target. In three samples co-infections were found. After discrepancy analysis, overall sensitivity was 98 % (false negative FA-ME results for one HSV2, two HSV1 and two parechovirus). Four FA-ME results were considered false positive (two HHV6, one VZV and one E. coli K1), resulting in an overall specificity of >99 %. A clinical added value of the assay was seen in the diagnosis of eight cases of bacterial meningitis.Conclusion. Because of its rapidity and ease of use, the FA-ME panel has great potential in the diagnosis of central nervous infections. Implementation can improve clinical management, but costs and analytical limitations need to be addressed to convince clinicians and laboratories of its value.

Sequential infection of Epstein-Barr virus and cryptococcal encephalitis after umbilical cord blood transplantation in a child with X-linked adrenoleukodystrophy.

Dual infection with two pathogens can be found in few cases of encephalitis. Cases of sequential infection with EBV and cryptococcal encephalitis in post-transplant patients are rare. We describe a 5-year-old boy with X-linked adrenoleukodystrophy who presented sequential infection with EBV and cryptococcal encephalitis after umbilical cord blood transplant. The patient showed fever, vomiting and emotional agitation with EBV DNA detected in CSF on day 100. The child underwent 3 doses of intravenous rituximab with a good response. However, the child presented with right facial paralysis, headache, and fever on day 130 after 2 weeks of clinical stability. Brain MRI demonstrated chronic granuloma formed with ring enhancement. FilmArray ME PCR confirmed the existence of Cryptococcus neoformans/gattii in the CSF. The child underwent sequential treatment with amphotericin liposome B and flucytosine. Maintenance treatment with fluconazole was administered for 1 year. Facial paralysis was on longer present on day 260. Cryptococcus neoformans/gattii was not detected on day 310. The biochemistry and cell count of the CSF were completely normal on day 520. Follow-up 2.5 years after presentation, brain MRI changes showed near complete resolution of the lesions. The child survived for 3 years to the last following-up. Invasive cryptococcal encephalitis is rare and life-threatening complication of transplantation. It is important to recognize dual infections, and perform treatment quickly to improve the prognosis of encephalitis after transplantation.

Childhood Infectious Encephalitis: An Overview of Clinical Features, Investigations, Treatment, and Recent Patents.

BACKGROUND: Infectious encephalitis is a serious and challenging condition to manage. This overview summarizes the current literature regarding the etiology, clinical manifestations, diagnosis, management, and recent patents of acute childhood infectious encephalitis. METHODS: We used PubMed Clinical Queries as a search engine and used keywords of "encephalitis" AND "childhood" Patents were searched using the key term "encephalitis" in google.patents.- com and patentsonline.com. RESULTS: Viral encephalitis is the most common cause of acute infectious encephalitis in children. In young children, the clinical manifestations can be non-specific. Provision of empiric antimicrobial therapy until a specific infectious organism has been identified, which in most cases includes acyclovir, is the cornerstone of therapy. Advanced investigation tools, including nucleic acid-based test panel and metagenomic next-generation sequencing, improve the diagnostic yield of identifying an infectious organism. Supportive therapy includes adequate airway and oxygenation, fluid and electrolyte balance, cerebral perfusion pressure support, and seizure control. Recent patents are related to the diagnosis, treatment, and prevention of acute infectious encephalitis. CONCLUSION: Viral encephalitis is the most common cause of acute infectious encephalitis in children and is associated with significant morbidity. Recent advances in understanding the genetic basis and immunological correlation of infectious encephalitis may improve treatment. Third-tier diagnostic tests may be incorporated into clinical practice. Treatment is targeted at the infectious process but remains mostly supportive. However, specific antimicrobial agents and vaccines development is ongoing.

Scratching Past Lymphadenopathy: A Case of Bartonella henselae Encephalitis.

A previously healthy 6-year-old boy presented with new onset seizure activity and altered mental status. His prehospital course included prolonged fever, vague abdominal complaints, and unusual behavior. Neurological testing was unrevealing, and his symptoms slowly improved without intervention. His primary pediatrician had ordered serum antibody titers to Bartonella henselae for testing of prolonged fever in the setting of exposure to a kitten; these were found to be positive for both immunoglobulin G and immunoglobulin M. Further examination for organ involvement revealed splenic and liver micro-abscesses. After completion of his antibiotic course, the patient returned to his cognitive and neurologic baseline with resolution of his abdominal abscesses. This case emphasizes the importance of obtaining a thorough exposure history when evaluating for infectious causes of encephalitis. [Pediatr Ann. 2020;49(8):e359-e362.].

A Surviving Case of Acanthamoeba Granulomatous Amebic Encephalitis in a Hematopoietic Stem Cell Transplant Recipient.

BACKGROUND Acanthamoeba are free-living amoebae with potential to infect immunocompromised hosts. The mortality rate of granulomatous amebic encephalitis (GAE) due to Acanthamoeba exceeds 90% and there are currently no reports of survival of this infection in recipients of hematopoietic stem cell transplant. CASE REPORT We report herein the case of a 32-year-old man presenting to our service with abrupt neurological deterioration and seizures 5 months after allogeneic stem cell transplantation for Hodgkin lymphoma. Clinical and imaging findings were non-specific at presentation. Multiple circumscribed, heterogenous, mass-like lesions were identified on MRI. Brain biopsy was performed and revealed multiple cysts and trophozoites suggesting a diagnosis of granulomatous amebic encephalitis. PCR testing confirmed Acanthamoeba. Treatment with miltefosine, metronidazole, azithromycin, fluconazole, pentamidine isethionate, and co-trimoxazole was instituted and the patient survived and shows continued improvement with intensive rehabilitation. CONCLUSIONS We report the first successful outcome in this setting. The diagnosis would have been missed on cerebrospinal fluid analysis alone, but was rapidly made by histological analysis of brain biopsy. This diagnostically challenging infection is likely under-recognized. Early brain biopsy and commencement of a prolonged miltefosine-containing anti-ameba regimen can be curative.

Acute Encephalitic Syndrome Induced by Scleromyxedema.

Dermato-neuro syndrome is a potentially fatal neurological complication of scleromyxedema consisting of fever, seizures, and coma. This is an overlooked scleromyxedema case of a 62-year-old female patient from 2-years ago. She was admitted to our ICU because of high fever, colloid speech, muscle ache, and nausea. Molecular methods in the cerebrospinal fluid for neurotropic viruses ruled out acute infectious encephalitis. Her thyroid hormones were within normal values while the serum protein electrophoresis confirmed the monoclonal gammopathy of immunoglobulin G lambda (IgG(λ)), known for the last 2 years. The subsequent bone-marrow biopsy excluded the development of multiple myeloma. The patient fulfilled fundamental diagnostic criteria of scleromyxedema (monoclonal gammopathy, normal thyroid function and the appearance of marked sclerosis and induration of the skin papules on the face, neck, extremities, and skin creases) presenting as dermato-neuro syndrome, which was histologically confirmed. She demonstrated a remarkable improvement after intravenous immunoglobulin treatment during the first 24 hours. Mimics of non-infectious acute encephalitis should include the clinical diagnosis of scleromyxedema, especially when patients present in the emergency department with acute fever, coma, and skin lesions of diffuse sclerodermoid and papular type.

Analysis of Multiple Risk Factors for Seronegative Rate of Anti-Tick-Borne Encephalitis Virus Immunization in Human Serum.

Background and objectives: Tick-borne encephalitis virus (TBEV) infections have been the cause of threatening outbreaks for many years. Apart from several physical and chemical methods to prevent tick bites, active vaccination of people highly exposed to infection is still the most important strategy of prevention. However, in some subjects, the lack of or low response to TBEV antigens is observed. The aim of the current study was to assess the prevalence of seronegative rate for anti-TBEV antibodies and the risk factors for waning immunity. Materials and Methods: 2315 at least primary vaccinated subjects from the high risk group for TBEV infections participated in this study. A commercial enzyme-linked immunosorbent assay (ELISA) test was used for the assessment of anti-TBEV IgG serum level. Results: Data showed that 86.2% of subjects who underwent vaccination were positive for anti-TBEV antibodies within 5 years. As much as 13.8% of subjects that underwent primary or primary and booster vaccination were barely protected after vaccination. Women and subjects under 60 years underwent more effective protection but sex and older age was not a risk factor for being a subject of waning immunity. A logistic regression showed that both a longer time since the vaccination and a lower number of booster doses constantly increased the chance of lost anti-TBEV antibodies. Conclusions: This study demonstrates that the vaccination schedule should be reevaluated. The extension of the interval of booster immunization is risky and all subjects should be surrounded by care consisting of more frequent monitoring of serum antibodies by personalized schedule to adjust the frequency of subsequent doses of booster vaccination.

Epidemiology and Etiology of Severe Childhood Encephalitis in The Netherlands.

BACKGROUND: Limited data are available on childhood encephalitis. Our study aimed to increase insight on clinical presentation, etiology, and clinical outcome of children with severe encephalitis in the Netherlands. METHODS: We identified patients through the Dutch Pediatric Intensive Care Evaluation database and included children diagnosed with encephalitis <18 years of age admitted to 1 of the 8 pediatric intensive care units (PICU) in the Netherlands between January 2003 and December 2013. We analyzed demographic characteristics, clinical symptoms, neurologic imaging, etiology, treatment and mortality. RESULTS: We included 121 children with a median age of 4.6 years (IQR 1.3-9.8). The most frequently described clinical features were headache (82.1%), decreased consciousness (79.8%) and seizures (69.8%). In 44.6% of the children, no causative agent was identified. Viral- and immune-mediated encephalitis were diagnosed in 33.1% and 10.7% of the patients. A herpes simplex virus infection (13.2%) was mainly seen in children <5 years of age, median age, 1.73 years (IQR 0.77-5.01), while immune-mediated encephalitis mostly affected older children, median age of 10.4 years (IQR, 3.72-14.18). An age of ≥ 5 years at initial presentation was associated with a lower mortality (OR 0.2 [CI 0.08-0.78]). The detection of a bacterial (OR 9.4 [CI 2.18-40.46]) or viral (OR 3.7 [CI 1.16-11.73]) pathogen was associated with a higher mortality. CONCLUSIONS: In almost half of the Dutch children presenting with severe encephalitis, a causative pathogen could not be identified, underlining the need for enhancement of microbiologic diagnostics. The detection of a bacterial or viral pathogen was associated with a higher mortality.

Prospective Cohort Study of Next-Generation Sequencing as a Diagnostic Modality for Unexplained Encephalitis in Children.

BACKGROUND: Encephalitis is an inflammatory condition of the brain associated with long-term neurologic sequelae and even death in children. Although viruses are often implicated, an etiology is not identified in the majority of cases. Metagenomics-based next-generation sequencing (mNGS) is a high-throughput sequencing technique that can enhance the detection of novel or low-frequency pathogens. METHODS: Hospitalized immunocompetent children aged 6 months to 18 years with encephalitis of unidentified etiology were eligible for enrollment. Demographic, historical, and clinical information was obtained, and residual blood and cerebrospinal fluid (CSF) samples were subjected to mNGS. Pathogens were identified by querying the sequence data against the NCBI GenBank database. RESULTS: Twenty children were enrolled prospectively between 2013 and 2017. mNGS of CSF identified 7 nonhuman nucleic acid sequences of significant frequency in 6 patients, including that of Mycoplasma bovis, parvovirus B19, Neisseria meningitidis, and Balamuthia mandrillaris. mNGS also detected Cladophialophora species, tobacco mosaic virus, and human bocavirus, which were presumed to be contaminants or nonpathogenic organisms. One patient was found to have positive serology results for California encephalitis virus, but mNGS did not detect it. Patients for whom mNGS identified a diagnosis had a significantly higher CSF white blood cell count, a higher CSF protein concentration, and a lower CSF glucose level than patients for whom mNGS did not identify a diagnosis. CONCLUSION: We describe here the results of a prospective cohort analysis to evaluate mNGS as a diagnostic tool for children with unexplained encephalitis. Although mNGS detected multiple nonpathogenic organisms, it also identified multiple pathogens successfully and was most useful in patients with a CSF abnormality.