Michael R Wilson1,2, Brian D O'Donovan3, Jeffrey M Gelfand1,2, Hannah A Sample3, Felicia C Chow1,2,4, John P Betjemann1,2,5, Maulik P Shah1,2, Megan B Richie1,2,6, Mark P Gorman7, Rula A Hajj-Ali8, Leonard H Calabrese8, Kelsey C Zorn3, Eric D Chow3, John E Greenlee9,10, Jonathan H Blum11, Gary Green11,12, Lillian M Khan3, Debarko Banerji1,2, Charles Langelier4, Chloe Bryson-Cahn13, Whitney Harrington14,15, Jairam R Lingappa13,14,16,17, Niraj M Shanbhag1,2, Ari J Green1,2,18, Bruce J Brew19,20, Ariane Soldatos21, Luke Strnad22, Sarah B Doernberg4, Cheryl A Jay1,2, Vanja Douglas1,2, S Andrew Josephson1,2,23, Joseph L DeRisi3,24. 1. UCSF (University of California, San Francisco) Weill Institute for Neurosciences, San Francisco, California. 2. Department of Neurology, UCSF, San Francisco. 3. Department of Biochemistry and Biophysics, UCSF, San Francisco. 4. Division of Infectious Diseases, Department of Medicine, UCSF, San Francisco. 5. Web Editor. 6. Images in Neurology Editor. 7. Department of Neurology, Boston Children's Hospital, Boston, Massachusetts. 8. Department of Rheumatology/Immunology, Cleveland Clinic, Cleveland, Ohio. 9. Neurology Service, George E. Wahlen Department of Veterans Affairs Medical Center, Salt Lake City, Utah. 10. Department of Neurology, University of Utah Health, Salt Lake City. 11. Permanente Medical Group, Inc, Oakland, California. 12. Kaiser Permanente Santa Rosa Medical Center, Santa Rosa, California. 13. Division of Allergy and Infectious Diseases, Department of Medicine, School of Medicine, University of Washington, Seattle. 14. Department of Pediatrics, University of Washington, Seattle. 15. Seattle Children's Hospital, Seattle, Washington. 16. Department of Pediatric Infectious Diseases, Seattle Children's Hospital, Seattle, Washington. 17. Department of Global Health, University of Washington, Seattle. 18. Associate Editor. 19. Department of Neurology, St Vincent's Hospital, Darlinghurst, New South Wales, Australia. 20. The University of New South Wales, Sydney, New South Wales, Australia. 21. National Institute of Neurological Disorders and Stroke, National Institutes of Health, Department of Health and Human Services Bethesda, Maryland. 22. Division of Infectious Diseases, Department of Medicine, Oregon Health and Science University, Portland. 23. Editor. 24. Chan Zuckerberg Biohub, San Francisco, California.
Abstract
Importance: Identifying infectious causes of subacute or chronic meningitis can be challenging. Enhanced, unbiased diagnostic approaches are needed. Objective: To present a case series of patients with diagnostically challenging subacute or chronic meningitis using metagenomic next-generation sequencing (mNGS) of cerebrospinal fluid (CSF) supported by a statistical framework generated from mNGS of control samples from the environment and from patients who were noninfectious. Design, Setting, and Participants: In this case series, mNGS data obtained from the CSF of 94 patients with noninfectious neuroinflammatory disorders and from 24 water and reagent control samples were used to develop and implement a weighted scoring metric based on z scores at the species and genus levels for both nucleotide and protein alignments to prioritize and rank the mNGS results. Total RNA was extracted for mNGS from the CSF of 7 participants with subacute or chronic meningitis who were recruited between September 2013 and March 2017 as part of a multicenter study of mNGS pathogen discovery among patients with suspected neuroinflammatory conditions. The neurologic infections identified by mNGS in these 7 participants represented a diverse array of pathogens. The patients were referred from the University of California, San Francisco Medical Center (n = 2), Zuckerberg San Francisco General Hospital and Trauma Center (n = 2), Cleveland Clinic (n = 1), University of Washington (n = 1), and Kaiser Permanente (n = 1). A weighted z score was used to filter out environmental contaminants and facilitate efficient data triage and analysis. Main Outcomes and Measures: Pathogens identified by mNGS and the ability of a statistical model to prioritize, rank, and simplify mNGS results. Results: The 7 participants ranged in age from 10 to 55 years, and 3 (43%) were female. A parasitic worm (Taenia solium, in 2 participants), a virus (HIV-1), and 4 fungi (Cryptococcus neoformans, Aspergillus oryzae, Histoplasma capsulatum, and Candida dubliniensis) were identified among the 7 participants by using mNGS. Evaluating mNGS data with a weighted z score-based scoring algorithm reduced the reported microbial taxa by a mean of 87% (range, 41%-99%) when taxa with a combined score of 0 or less were removed, effectively separating bona fide pathogen sequences from spurious environmental sequences so that, in each case, the causative pathogen was found within the top 2 scoring microbes identified using the algorithm. Conclusions and Relevance: Diverse microbial pathogens were identified by mNGS in the CSF of patients with diagnostically challenging subacute or chronic meningitis, including a case of subarachnoid neurocysticercosis that defied diagnosis for 1 year, the first reported case of CNS vasculitis caused by Aspergillus oryzae, and the fourth reported case of C dubliniensis meningitis. Prioritizing metagenomic data with a scoring algorithm greatly clarified data interpretation and highlighted the problem of attributing biological significance to organisms present in control samples used for metagenomic sequencing studies.
Importance: Identifying infectious causes of subacute or chronic meningitis can be challenging. Enhanced, unbiased diagnostic approaches are needed. Objective: To present a case series of patients with diagnostically challenging subacute or chronic meningitis using metagenomic next-generation sequencing (mNGS) of cerebrospinal fluid (CSF) supported by a statistical framework generated from mNGS of control samples from the environment and from patients who were noninfectious. Design, Setting, and Participants: In this case series, mNGS data obtained from the CSF of 94 patients with noninfectious neuroinflammatory disorders and from 24 water and reagent control samples were used to develop and implement a weighted scoring metric based on z scores at the species and genus levels for both nucleotide and protein alignments to prioritize and rank the mNGS results. Total RNA was extracted for mNGS from the CSF of 7 participants with subacute or chronic meningitis who were recruited between September 2013 and March 2017 as part of a multicenter study of mNGS pathogen discovery among patients with suspected neuroinflammatory conditions. The neurologic infections identified by mNGS in these 7 participants represented a diverse array of pathogens. The patients were referred from the University of California, San Francisco Medical Center (n = 2), Zuckerberg San Francisco General Hospital and Trauma Center (n = 2), Cleveland Clinic (n = 1), University of Washington (n = 1), and Kaiser Permanente (n = 1). A weighted z score was used to filter out environmental contaminants and facilitate efficient data triage and analysis. Main Outcomes and Measures: Pathogens identified by mNGS and the ability of a statistical model to prioritize, rank, and simplify mNGS results. Results: The 7 participants ranged in age from 10 to 55 years, and 3 (43%) were female. A parasitic worm (Taenia solium, in 2 participants), a virus (HIV-1), and 4 fungi (Cryptococcus neoformans, Aspergillus oryzae, Histoplasma capsulatum, and Candida dubliniensis) were identified among the 7 participants by using mNGS. Evaluating mNGS data with a weighted z score-based scoring algorithm reduced the reported microbial taxa by a mean of 87% (range, 41%-99%) when taxa with a combined score of 0 or less were removed, effectively separating bona fide pathogen sequences from spurious environmental sequences so that, in each case, the causative pathogen was found within the top 2 scoring microbes identified using the algorithm. Conclusions and Relevance: Diverse microbial pathogens were identified by mNGS in the CSF of patients with diagnostically challenging subacute or chronic meningitis, including a case of subarachnoid neurocysticercosis that defied diagnosis for 1 year, the first reported case of CNS vasculitis caused by Aspergillus oryzae, and the fourth reported case of C dubliniensis meningitis. Prioritizing metagenomic data with a scoring algorithm greatly clarified data interpretation and highlighted the problem of attributing biological significance to organisms present in control samples used for metagenomic sequencing studies.
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