Plasma Microbial Cell-free DNA Next-generation Sequencing in the Diagnosis and Management of Febrile Neutropenia

Overview

Journal Clin Infect Dis

Publisher Oxford University Press

Specialty Infectious Diseases

Date 2021 Apr 19

PMID 33870413

Citations 43

Authors

Esther Benamu

Kiran Gajurel

Jill N Anderson

Tullia Lieb

Carlos A Gomez

Hon Seng

Romielle Aquino

Desiree Hollemon

David K Hong

Timothy A Blauwkamp

Mickey Kertesz

Lily Blair

Paul L Bollyky

Bruno C Medeiros

Steven Coutre

Simona Zompi

Jose G Montoya

Stan Deresinski

Affiliations

Soon will be listed here.

Abstract

Background: Standard testing fails to identify a pathogen in most patients with febrile neutropenia (FN). We evaluated the ability of the Karius microbial cell-free DNA sequencing test (KT) to identify infectious etiologies of FN and its impact on antimicrobial management.

Methods: This prospective study (ClinicalTrials.gov; NCT02912117) enrolled and analyzed 55 patients with FN. Up to 5 blood samples were collected per subject within 24 hours of fever onset (T1) and every 2 to 3 days. KT results were compared with blood culture (BC) and standard microbiological testing (SMT) results.

Results: Positive agreement was defined as KT identification of ≥1 isolate also detected by BC. At T1, positive and negative agreement were 90% (9/10) and 31% (14/45), respectively; 61% of KT detections were polymicrobial. Clinical adjudication by 3 independent infectious diseases specialists categorized Karius results as: unlikely to cause FN (N = 0); definite (N = 12): KT identified ≥1 organism also found by SMT within 7 days; probable (N = 19): KT result was compatible with a clinical diagnosis; possible (N = 10): KT result was consistent with infection but not considered a common cause of FN. Definite, probable, and possible cases were deemed true positives. Following adjudication, KT sensitivity and specificity were 85% (41/48) and 100% (14/14), respectively. Calculated time to diagnosis was generally shorter with KT (87%). Adjudicators determined real-time KT results could have allowed early optimization of antimicrobials in 47% of patients, by addition of antibacterials (20%) (mostly against anaerobes [12.7%]), antivirals (14.5%), and/or antifungals (3.6%); and antimicrobial narrowing in 27.3% of cases.

Clinical Trials Registration: NCT02912117.

Conclusion: KT shows promise in the diagnosis and treatment optimization of FN.

Citing Articles

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