Differentiation of Cardiac from Noncardiac Pleural Effusions in Cats using Second‐Generation Quantitative and Point‐of‐Care NT‐proBNP Measurements

Differentiation of Cardiac from Noncardiac Pleural Effusions in Cats using Second‐Generation Quantitative and Point‐of‐Care NT‐proBNP Measurements

Background Pleural effusion is a common cause of dyspnea in cats. N‐terminal pro‐B‐type natriuretic peptide (NT‐proBNP) measurement, using a first‐generation quantitative ELISA, in plasma and pleural fluid differentiates cardiac from noncardiac causes of pleural effusion. Hypothesis/Objectives To de...

Full description

Bibliographic Details
Main Authors: M.J. Hezzell, J.E. Rush, K. Humm, E.A. Rozanski, J. Sargent, D.J. Connolly, A. Boswood, M.A. Oyama
Format: Article
Language:English
Published: Wiley 2016-03-01
Series:Journal of Veterinary Internal Medicine
Subjects:
Biomarker
Blood testing
Cardiomyopathy
Dyspnea
Natriuretic peptide
Online Access:https://doi.org/10.1111/jvim.13831
id doaj-581cd6ad51404648a5902d0860545279
record_format Article
spelling doaj-581cd6ad51404648a5902d08605452792021-04-10T11:20:26ZengWileyJournal of Veterinary Internal Medicine0891-66401939-16762016-03-0130253654210.1111/jvim.13831Differentiation of Cardiac from Noncardiac Pleural Effusions in Cats using Second‐Generation Quantitative and Point‐of‐Care NT‐proBNP MeasurementsM.J. Hezzell0J.E. Rush1K. Humm2E.A. Rozanski3J. Sargent4D.J. Connolly5A. Boswood6M.A. Oyama7Department of Clinical Studies—Philadelphia School of Veterinary Medicine University of Pennsylvania Philadelphia PADepartment of Clinical Sciences Cummings School of Veterinary Medicine at Tufts University North Grafton MADepartment of Clinical Sciences and Services Royal Veterinary College Hatfield Hertfordshire UKDepartment of Clinical Sciences Cummings School of Veterinary Medicine at Tufts University North Grafton MADepartment of Clinical Sciences and Services Royal Veterinary College Hatfield Hertfordshire UKDepartment of Clinical Sciences and Services Royal Veterinary College Hatfield Hertfordshire UKDepartment of Clinical Sciences and Services Royal Veterinary College Hatfield Hertfordshire UKDepartment of Clinical Studies—Philadelphia School of Veterinary Medicine University of Pennsylvania Philadelphia PABackground Pleural effusion is a common cause of dyspnea in cats. N‐terminal pro‐B‐type natriuretic peptide (NT‐proBNP) measurement, using a first‐generation quantitative ELISA, in plasma and pleural fluid differentiates cardiac from noncardiac causes of pleural effusion. Hypothesis/Objectives To determine whether NT‐proBNP measurements using second‐generation quantitative ELISA and point‐of‐care (POC) tests in plasma and pleural fluid distinguish cardiac from noncardiac pleural effusions and how results compare to the first‐generation ELISA. Animals Thirty‐eight cats (US cohort) and 40 cats (UK cohort) presenting with cardiogenic or noncardiogenic pleural effusion. Methods Prospective cohort study. Twenty‐one and 17 cats in the US cohort, and 22 and 18 cats in the UK cohort were classified as having cardiac or noncardiac pleural effusion, respectively. NT‐proBNP concentrations in paired plasma and pleural fluid samples were measured using second‐generation ELISA and POC assays. Results The second‐generation ELISA differentiated cardiac from noncardiac pleural effusion with good diagnostic accuracy (plasma: sensitivity, 95.2%, specificity, 82.4%; pleural fluid: sensitivity, 100%, specificity, 76.5%). NT‐proBNP concentrations were greater in pleural fluid (719 pmol/L (134–1500)) than plasma (678 pmol/L (61–1500), P = 0.003), resulting in different cut‐off values depending on the sample type. The POC test had good sensitivity (95.2%) and specificity (87.5%) when using plasma samples. In pleural fluid samples, the POC test had good sensitivity (100%) but low specificity (64.7%). Diagnostic accuracy was similar between first‐ and second‐generation ELISA assays. Conclusions and clinical importance Measurement of NT‐proBNP using a quantitative ELISA in plasma and pleural fluid or POC test in plasma, but not pleural fluid, distinguishes cardiac from noncardiac causes of pleural effusion in cats.https://doi.org/10.1111/jvim.13831BiomarkerBlood testingCardiomyopathyDyspneaNatriuretic peptide
collection DOAJ
language English
format Article
sources DOAJ
author M.J. Hezzell
J.E. Rush
K. Humm
E.A. Rozanski
J. Sargent
D.J. Connolly
A. Boswood
M.A. Oyama
spellingShingle M.J. Hezzell
J.E. Rush
K. Humm
E.A. Rozanski
J. Sargent
D.J. Connolly
A. Boswood
M.A. Oyama
Differentiation of Cardiac from Noncardiac Pleural Effusions in Cats using Second‐Generation Quantitative and Point‐of‐Care NT‐proBNP Measurements
Journal of Veterinary Internal Medicine
Biomarker
Blood testing
Cardiomyopathy
Dyspnea
Natriuretic peptide
author_facet M.J. Hezzell
J.E. Rush
K. Humm
E.A. Rozanski
J. Sargent
D.J. Connolly
A. Boswood
M.A. Oyama
author_sort M.J. Hezzell
title Differentiation of Cardiac from Noncardiac Pleural Effusions in Cats using Second‐Generation Quantitative and Point‐of‐Care NT‐proBNP Measurements
title_short Differentiation of Cardiac from Noncardiac Pleural Effusions in Cats using Second‐Generation Quantitative and Point‐of‐Care NT‐proBNP Measurements
title_full Differentiation of Cardiac from Noncardiac Pleural Effusions in Cats using Second‐Generation Quantitative and Point‐of‐Care NT‐proBNP Measurements
title_fullStr Differentiation of Cardiac from Noncardiac Pleural Effusions in Cats using Second‐Generation Quantitative and Point‐of‐Care NT‐proBNP Measurements
title_full_unstemmed Differentiation of Cardiac from Noncardiac Pleural Effusions in Cats using Second‐Generation Quantitative and Point‐of‐Care NT‐proBNP Measurements
title_sort differentiation of cardiac from noncardiac pleural effusions in cats using second‐generation quantitative and point‐of‐care nt‐probnp measurements
publisher Wiley
series Journal of Veterinary Internal Medicine
issn 0891-6640
1939-1676
publishDate 2016-03-01
description Background Pleural effusion is a common cause of dyspnea in cats. N‐terminal pro‐B‐type natriuretic peptide (NT‐proBNP) measurement, using a first‐generation quantitative ELISA, in plasma and pleural fluid differentiates cardiac from noncardiac causes of pleural effusion. Hypothesis/Objectives To determine whether NT‐proBNP measurements using second‐generation quantitative ELISA and point‐of‐care (POC) tests in plasma and pleural fluid distinguish cardiac from noncardiac pleural effusions and how results compare to the first‐generation ELISA. Animals Thirty‐eight cats (US cohort) and 40 cats (UK cohort) presenting with cardiogenic or noncardiogenic pleural effusion. Methods Prospective cohort study. Twenty‐one and 17 cats in the US cohort, and 22 and 18 cats in the UK cohort were classified as having cardiac or noncardiac pleural effusion, respectively. NT‐proBNP concentrations in paired plasma and pleural fluid samples were measured using second‐generation ELISA and POC assays. Results The second‐generation ELISA differentiated cardiac from noncardiac pleural effusion with good diagnostic accuracy (plasma: sensitivity, 95.2%, specificity, 82.4%; pleural fluid: sensitivity, 100%, specificity, 76.5%). NT‐proBNP concentrations were greater in pleural fluid (719 pmol/L (134–1500)) than plasma (678 pmol/L (61–1500), P = 0.003), resulting in different cut‐off values depending on the sample type. The POC test had good sensitivity (95.2%) and specificity (87.5%) when using plasma samples. In pleural fluid samples, the POC test had good sensitivity (100%) but low specificity (64.7%). Diagnostic accuracy was similar between first‐ and second‐generation ELISA assays. Conclusions and clinical importance Measurement of NT‐proBNP using a quantitative ELISA in plasma and pleural fluid or POC test in plasma, but not pleural fluid, distinguishes cardiac from noncardiac causes of pleural effusion in cats.
topic Biomarker
Blood testing
Cardiomyopathy
Dyspnea
Natriuretic peptide
url https://doi.org/10.1111/jvim.13831
work_keys_str_mv AT mjhezzell differentiationofcardiacfromnoncardiacpleuraleffusionsincatsusingsecondgenerationquantitativeandpointofcarentprobnpmeasurements
AT jerush differentiationofcardiacfromnoncardiacpleuraleffusionsincatsusingsecondgenerationquantitativeandpointofcarentprobnpmeasurements
AT khumm differentiationofcardiacfromnoncardiacpleuraleffusionsincatsusingsecondgenerationquantitativeandpointofcarentprobnpmeasurements
AT earozanski differentiationofcardiacfromnoncardiacpleuraleffusionsincatsusingsecondgenerationquantitativeandpointofcarentprobnpmeasurements
AT jsargent differentiationofcardiacfromnoncardiacpleuraleffusionsincatsusingsecondgenerationquantitativeandpointofcarentprobnpmeasurements
AT djconnolly differentiationofcardiacfromnoncardiacpleuraleffusionsincatsusingsecondgenerationquantitativeandpointofcarentprobnpmeasurements
AT aboswood differentiationofcardiacfromnoncardiacpleuraleffusionsincatsusingsecondgenerationquantitativeandpointofcarentprobnpmeasurements
AT maoyama differentiationofcardiacfromnoncardiacpleuraleffusionsincatsusingsecondgenerationquantitativeandpointofcarentprobnpmeasurements
_version_ 1721531817772711936

Similar Items