BACKGROUND: In general practice airway obstruction and the bronchodilator response are usually assessed using peak expiratory flow (PEF) measurements. A study was carried out in patients presenting with persistent cough to investigate to what extent PEF measurements are reliable when compared with tests using forced expiratory volume in one second (FEV(1)) as the measure of response. METHODS: Data (questionnaire, physical examination, spirometry, PEF) were collected from 240 patients aged 18-75 years, not previously diagnosed with asthma or chronic obstructive pulmonary disease (COPD), who consulted their general practitioner with cough of at least two weeks duration. The relationship between low PEF (PEF < PEFpred - 1.64RSD) and low FEV(1) (FEV(1) < FEV(1)pred - 1.64RSD) was tested. A positive bronchodilator response after inhaling 400 microg salbutamol was defined as an increase in FEV(1) of > or = 9% predicted and was compared with an absolute increase in PEF with cut off values of 40, 60, and 80 l/min and DeltaPEF % baseline with cut off values of 10%, 15%, and 20%. RESULTS: Forty eight patients (20%) had low FEV(1), 86 (35.8%) had low PEF, and 32 (13.3%) had a positive bronchodilator response. Low PEF had a positive predictive value (PPV) for low FEV(1) of 46.5% and a negative predictive value (NPV) of 95%. DeltaPEF of > or = 10%, > or = 15%, or > or = 20% baseline had PPVs of 36%, 52%, and 67%, respectively, and DeltaPEF of > or = 40, > or = 60, and > or = 80 l/min in absolute terms had PPVs of 39%, 45%, and 57%, respectively, for DeltaFEV(1) > or = 9% predicted; NPVs were high (88-93%). CONCLUSIONS: Although PEF measurements can reliably exclude airway obstruction and bronchodilator response, they are not suitable for use in the assessment of the bronchodilator response in the diagnostic work up of primary care patients with persistent cough. The clinical value of PEF measurements in the diagnosis of reversible obstructive airway disease should therefore be re-evaluated.
BACKGROUND: In general practice airway obstruction and the bronchodilator response are usually assessed using peak expiratory flow (PEF) measurements. A study was carried out in patients presenting with persistent cough to investigate to what extent PEF measurements are reliable when compared with tests using forced expiratory volume in one second (FEV(1)) as the measure of response. METHODS: Data (questionnaire, physical examination, spirometry, PEF) were collected from 240 patients aged 18-75 years, not previously diagnosed with asthma or chronic obstructive pulmonary disease (COPD), who consulted their general practitioner with cough of at least two weeks duration. The relationship between low PEF (PEF < PEFpred - 1.64RSD) and low FEV(1) (FEV(1) < FEV(1)pred - 1.64RSD) was tested. A positive bronchodilator response after inhaling 400 microg salbutamol was defined as an increase in FEV(1) of > or = 9% predicted and was compared with an absolute increase in PEF with cut off values of 40, 60, and 80 l/min and DeltaPEF % baseline with cut off values of 10%, 15%, and 20%. RESULTS: Forty eight patients (20%) had low FEV(1), 86 (35.8%) had low PEF, and 32 (13.3%) had a positive bronchodilator response. Low PEF had a positive predictive value (PPV) for low FEV(1) of 46.5% and a negative predictive value (NPV) of 95%. DeltaPEF of > or = 10%, > or = 15%, or > or = 20% baseline had PPVs of 36%, 52%, and 67%, respectively, and DeltaPEF of > or = 40, > or = 60, and > or = 80 l/min in absolute terms had PPVs of 39%, 45%, and 57%, respectively, for DeltaFEV(1) > or = 9% predicted; NPVs were high (88-93%). CONCLUSIONS: Although PEF measurements can reliably exclude airway obstruction and bronchodilator response, they are not suitable for use in the assessment of the bronchodilator response in the diagnostic work up of primary care patients with persistent cough. The clinical value of PEF measurements in the diagnosis of reversible obstructive airway disease should therefore be re-evaluated.
Authors: H A Thiadens; G H De Bock; F W Dekker; J A Huysman; J C Van Houwelingen; M P Springer; D S Postma Journal: Eur Respir J Date: 1998-10 Impact factor: 16.671
Authors: Ralph J Delfino; Norbert Staimer; Thomas Tjoa; Dan Gillen; Michael T Kleinman; Constantinos Sioutas; Dan Cooper Journal: Environ Health Perspect Date: 2008-04 Impact factor: 9.031
Authors: Trishul Siddharthan; Adaeze C Wosu; Suzanne L Pollard; Shakir Hossen; Patricia Alupo; Timothy Shade; Robert Kalyesubula; Shumonta Quaderi; Robert A Wise; John R Hurst; Bruce Kirenga; William Checkley Journal: Int J Chron Obstruct Pulmon Dis Date: 2020-11-03