Direct-from-blood RNA sequencing identifies the cause of post-bronchoscopy fever

Direct-from-blood RNA sequencing identifies the cause of post-bronchoscopy fever

Abstract Background Antibiotic resistance is rising at disturbing rates and contributes to the deaths of millions of people yearly. Antibiotic resistant infections disproportionately affect those with immunocompromising conditions, chronic colonization, and frequent antibiotic use such as transplant...

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Main Authors: Emily R. Ko, Casandra W. Philipson, Thomas W. Burke, Regina Z. Cer, Kimberly A. Bishop-Lilly, Logan J. Voegtly, Ephraim L. Tsalik, Christopher W. Woods, Danielle V. Clark, Kevin L. Schully
Format: Article
Language:English
Published: BMC 2019-10-01
Series:BMC Infectious Diseases
Subjects:
Transcriptome
Metagenomic sequencing
Early diagnosis
Molecular diagnostics
Bacterial infections
Stenotrophomonas maltophilia
Online Access:http://link.springer.com/article/10.1186/s12879-019-4462-9
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spelling doaj-660e11acf4584f01b3f55261a74d8ff62020-11-25T04:00:56ZengBMCBMC Infectious Diseases1471-23342019-10-011911810.1186/s12879-019-4462-9Direct-from-blood RNA sequencing identifies the cause of post-bronchoscopy feverEmily R. Ko0Casandra W. Philipson1Thomas W. Burke2Regina Z. Cer3Kimberly A. Bishop-Lilly4Logan J. Voegtly5Ephraim L. Tsalik6Christopher W. Woods7Danielle V. Clark8Kevin L. Schully9Center for Applied Genomics and Precision Medicine, Duke University School of MedicineGenomics and Bioinformatics Department, Biological Defense Research Directorate, Naval Medical Research Center-FrederickCenter for Applied Genomics and Precision Medicine, Duke University School of MedicineGenomics and Bioinformatics Department, Biological Defense Research Directorate, Naval Medical Research Center-FrederickGenomics and Bioinformatics Department, Biological Defense Research Directorate, Naval Medical Research Center-FrederickGenomics and Bioinformatics Department, Biological Defense Research Directorate, Naval Medical Research Center-FrederickCenter for Applied Genomics and Precision Medicine, Duke University School of MedicineCenter for Applied Genomics and Precision Medicine, Duke University School of MedicineAustere environments Consortium for Enhanced Sepsis Outcomes (ACESO), Biological Defense Research Directorate, Naval Medical Research Center-FrederickAustere environments Consortium for Enhanced Sepsis Outcomes (ACESO), Biological Defense Research Directorate, Naval Medical Research Center-FrederickAbstract Background Antibiotic resistance is rising at disturbing rates and contributes to the deaths of millions of people yearly. Antibiotic resistant infections disproportionately affect those with immunocompromising conditions, chronic colonization, and frequent antibiotic use such as transplant patients or those with cystic fibrosis. However, clinicians lack the diagnostic tools to confidently diagnose and treat infections, leading to widespread use of empiric broad spectrum antimicrobials, often for prolonged duration. Case presentation A 22 year-old Caucasian female with cystic fibrosis received a bilateral orthotopic lung transplantation 5 months prior to the index hospitalization. She underwent routine surveillance bronchoscopy and was admitted for post-procedure fever. A clear cause of infection was not identified by routine methods. Imaging and bronchoscopic lung biopsy did not identify an infectious agent or rejection. She was treated with a prolonged course of antimicrobials targeting known colonizing organisms from prior bronchoalveolar lavage cultures (Pseudomonas, Staphylococcus aureus, and Aspergillus). However, we identified Stenotrophomonas maltophilia in two independent whole blood samples using direct-pathogen sequencing, which was not identified by other methods. Conclusions This case represents a common clinical conundrum: identification of infection in a high-risk, complex patient. Here, direct-pathogen sequencing identified a pathogen that would not otherwise have been identified by common techniques. Had results been clinically available, treatment could have been customized, avoiding a prolonged course of broad spectrum antimicrobials that would only exacerbate resistance. Direct-pathogen sequencing is poised to fill a diagnostic gap for pathogen identification, allowing early identification and customization of treatment in a culture-independent, pathogen-agnostic manner.http://link.springer.com/article/10.1186/s12879-019-4462-9TranscriptomeMetagenomic sequencingEarly diagnosisMolecular diagnosticsBacterial infectionsStenotrophomonas maltophilia
collection DOAJ
language English
format Article
sources DOAJ
author Emily R. Ko
Casandra W. Philipson
Thomas W. Burke
Regina Z. Cer
Kimberly A. Bishop-Lilly
Logan J. Voegtly
Ephraim L. Tsalik
Christopher W. Woods
Danielle V. Clark
Kevin L. Schully
spellingShingle Emily R. Ko
Casandra W. Philipson
Thomas W. Burke
Regina Z. Cer
Kimberly A. Bishop-Lilly
Logan J. Voegtly
Ephraim L. Tsalik
Christopher W. Woods
Danielle V. Clark
Kevin L. Schully
Direct-from-blood RNA sequencing identifies the cause of post-bronchoscopy fever
BMC Infectious Diseases
Transcriptome
Metagenomic sequencing
Early diagnosis
Molecular diagnostics
Bacterial infections
Stenotrophomonas maltophilia
author_facet Emily R. Ko
Casandra W. Philipson
Thomas W. Burke
Regina Z. Cer
Kimberly A. Bishop-Lilly
Logan J. Voegtly
Ephraim L. Tsalik
Christopher W. Woods
Danielle V. Clark
Kevin L. Schully
author_sort Emily R. Ko
title Direct-from-blood RNA sequencing identifies the cause of post-bronchoscopy fever
title_short Direct-from-blood RNA sequencing identifies the cause of post-bronchoscopy fever
title_full Direct-from-blood RNA sequencing identifies the cause of post-bronchoscopy fever
title_fullStr Direct-from-blood RNA sequencing identifies the cause of post-bronchoscopy fever
title_full_unstemmed Direct-from-blood RNA sequencing identifies the cause of post-bronchoscopy fever
title_sort direct-from-blood rna sequencing identifies the cause of post-bronchoscopy fever
publisher BMC
series BMC Infectious Diseases
issn 1471-2334
publishDate 2019-10-01
description Abstract Background Antibiotic resistance is rising at disturbing rates and contributes to the deaths of millions of people yearly. Antibiotic resistant infections disproportionately affect those with immunocompromising conditions, chronic colonization, and frequent antibiotic use such as transplant patients or those with cystic fibrosis. However, clinicians lack the diagnostic tools to confidently diagnose and treat infections, leading to widespread use of empiric broad spectrum antimicrobials, often for prolonged duration. Case presentation A 22 year-old Caucasian female with cystic fibrosis received a bilateral orthotopic lung transplantation 5 months prior to the index hospitalization. She underwent routine surveillance bronchoscopy and was admitted for post-procedure fever. A clear cause of infection was not identified by routine methods. Imaging and bronchoscopic lung biopsy did not identify an infectious agent or rejection. She was treated with a prolonged course of antimicrobials targeting known colonizing organisms from prior bronchoalveolar lavage cultures (Pseudomonas, Staphylococcus aureus, and Aspergillus). However, we identified Stenotrophomonas maltophilia in two independent whole blood samples using direct-pathogen sequencing, which was not identified by other methods. Conclusions This case represents a common clinical conundrum: identification of infection in a high-risk, complex patient. Here, direct-pathogen sequencing identified a pathogen that would not otherwise have been identified by common techniques. Had results been clinically available, treatment could have been customized, avoiding a prolonged course of broad spectrum antimicrobials that would only exacerbate resistance. Direct-pathogen sequencing is poised to fill a diagnostic gap for pathogen identification, allowing early identification and customization of treatment in a culture-independent, pathogen-agnostic manner.
topic Transcriptome
Metagenomic sequencing
Early diagnosis
Molecular diagnostics
Bacterial infections
Stenotrophomonas maltophilia
url http://link.springer.com/article/10.1186/s12879-019-4462-9
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