Use of Dipstick Assay and Rapid PCR-DNA Analysis of Nasal Secretions for Diagnosis of Bacterial Sinusitis in Children With Chronic Cough

Overview

Journal Allergy Rhinol (Providence)

Publisher Sage Publications

Specialty Allergy & Immunology

Date 2019 Jan 24

PMID 30671281

Citations 2

Authors

Charles Song

Jeena Chorath

Youngju Pak

Nasser Redjal

Affiliations

Soon will be listed here.

Abstract

Background: Chronic cough in children is a diagnostic challenge.

Objective: To discover the utility of nasal dipsticks and polymerase chain reaction (PCR)-DNA analysis in differentiating bacterial sinusitis from other causes of chronic cough and identifying pathogens from the nasal cavity.

Method: We recruited 22 patients under 15 years of age with cough lasting longer than 4 weeks (group 1), 7 controls with allergic rhinitis (group 2), and 10 controls without respiratory symptoms (group 3). Based on symptoms, the results of nasal secretion assays, and nasal endoscopy, a diagnosis of clinical bacterial sinusitis was made. We identified potential pathogens by quantitative PCR of nasal secretions.

Results: Group 1A (cough with clinical bacterial sinusitis n = 10): Eight (80%) patients had bacterial sinusitis associated with dominant potential pathogenic bacteria (PPB): , , and . Group 1B (cough without clinical bacterial sinusitis n = 12): None had dominant PPB. Group 2 (allergic rhinitis n = 7): None had dominant PPB. Group 3 (asymptomatic n = 10): None had dominant PPB. Twenty to 57% of all groups were colonized with . Fifty to 70% were colonized with , , and .

Conclusion: In children with chronic cough, clinicians can utilize a simple and inexpensive nasal secretion dipstick assay for rapid diagnosis of sinusitis and identify PPB by DNA-PCR test for specific antibiotic treatment.

Citing Articles

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Sherret J, Gajjar B, Ibrahim L, Ahmed A, Panta U Cureus. 2020; 12(8):e9770.

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Dolosigranulum pigrum Cooperation and Competition in Human Nasal Microbiota.

Brugger S, Eslami S, Pettigrew M, F Escapa I, Henke M, Kong Y mSphere. 2020; 5(5).

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