Peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with FEV1

Peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with FEV1

Abstract Background The primary lung function endpoint in clinical trials in adolescent and adult patients with asthma is usually forced expiratory volume in one second (FEV1). The objective of our analysis was to assess whether peak expiratory flow (PEF) is a suitable alternative primary lung funct...

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Main Authors: David M. G. Halpin, Eli O. Meltzer, Wendelgard Pisternick-Ruf, Petra Moroni-Zentgraf, Michael Engel, Liliana Zaremba-Pechmann, Thomas Casale, J. Mark FitzGerald
Format: Article
Language:English
Published: BMC 2019-07-01
Series:Respiratory Research
Subjects:
Asthma
Correlation
FEV1
Home-measurement
In-clinic measurement
PEF
Online Access:http://link.springer.com/article/10.1186/s12931-019-1119-6
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spelling doaj-d1bf82ec35624f0db689b7d3979a75502020-11-25T03:31:13ZengBMCRespiratory Research1465-993X2019-07-012011910.1186/s12931-019-1119-6Peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with FEV1David M. G. Halpin0Eli O. Meltzer1Wendelgard Pisternick-Ruf2Petra Moroni-Zentgraf3Michael Engel4Liliana Zaremba-Pechmann5Thomas Casale6J. Mark FitzGerald7University of Exeter Medical School, College of Medicine and Health, University of ExeterAllergy and Asthma Medical Group and Research Center, University of CaliforniaBoehringer Ingelheim Pharma GmbH & Co. KGBoehringer Ingelheim Pty LtdBoehringer Ingelheim International GmbHBoehringer Ingelheim Pharma GmbH & Co. KGDivision of Allergy and Immunology, University of South Florida Morsani College of MedicineCentre for Heart and Lung HealthAbstract Background The primary lung function endpoint in clinical trials in adolescent and adult patients with asthma is usually forced expiratory volume in one second (FEV1). The objective of our analysis was to assess whether peak expiratory flow (PEF) is a suitable alternative primary lung function endpoint. Methods For this assessment, we calculated post hoc the correlation between pre-dose FEV1 and pre-dose PEF measured under supervision in the clinic and, for both lung function parameters, the correlations between supervised clinic and unsupervised home measurements, using the results from the 8 Phase III parallel-group trials of the global clinical development programme with tiotropium Respimat® in patients with asthma aged 12 to 75 years. Results Across all 8 trials included in this analysis, changes in lung function from baseline correlated well between pre-dose FEV1 and pre-dose PEF when both were measured under supervision in the clinic. Correlation between supervised in-clinic and unsupervised home measurements was stronger for pre-dose PEF than for pre-dose FEV1. Conclusions Pre-dose PEF measured at home could be an alternative primary lung function endpoint for trials in adolescent and adult patients with asthma. Using home-measured PEF could facilitate trial conduct and improve the convenience for patients by relocating scheduled assessments from the clinic to the patient’s home. Trial registration Adolescents aged 12 to 17 years: RubaTinA-asthma® (NCT01257230), PensieTinA-asthma® (NCT01277523). Adults aged 18 to 75 years: GraziaTinA-asthma® (NCT01316380), MezzoTinA-asthma® (NCT01172808/NCT01172821), CadenTinA-asthma® (NCT01340209), PrimoTinA-asthma® (NCT00772538/NCT00776984). All from Clinicaltrials.gov (https://clinicaltrials.gov/).http://link.springer.com/article/10.1186/s12931-019-1119-6AsthmaCorrelationFEV1Home-measurementIn-clinic measurementPEF
collection DOAJ
language English
format Article
sources DOAJ
author David M. G. Halpin
Eli O. Meltzer
Wendelgard Pisternick-Ruf
Petra Moroni-Zentgraf
Michael Engel
Liliana Zaremba-Pechmann
Thomas Casale
J. Mark FitzGerald
spellingShingle David M. G. Halpin
Eli O. Meltzer
Wendelgard Pisternick-Ruf
Petra Moroni-Zentgraf
Michael Engel
Liliana Zaremba-Pechmann
Thomas Casale
J. Mark FitzGerald
Peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with FEV1
Respiratory Research
Asthma
Correlation
FEV1
Home-measurement
In-clinic measurement
PEF
author_facet David M. G. Halpin
Eli O. Meltzer
Wendelgard Pisternick-Ruf
Petra Moroni-Zentgraf
Michael Engel
Liliana Zaremba-Pechmann
Thomas Casale
J. Mark FitzGerald
author_sort David M. G. Halpin
title Peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with FEV1
title_short Peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with FEV1
title_full Peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with FEV1
title_fullStr Peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with FEV1
title_full_unstemmed Peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with FEV1
title_sort peak expiratory flow as an endpoint for clinical trials in asthma: a comparison with fev1
publisher BMC
series Respiratory Research
issn 1465-993X
publishDate 2019-07-01
description Abstract Background The primary lung function endpoint in clinical trials in adolescent and adult patients with asthma is usually forced expiratory volume in one second (FEV1). The objective of our analysis was to assess whether peak expiratory flow (PEF) is a suitable alternative primary lung function endpoint. Methods For this assessment, we calculated post hoc the correlation between pre-dose FEV1 and pre-dose PEF measured under supervision in the clinic and, for both lung function parameters, the correlations between supervised clinic and unsupervised home measurements, using the results from the 8 Phase III parallel-group trials of the global clinical development programme with tiotropium Respimat® in patients with asthma aged 12 to 75 years. Results Across all 8 trials included in this analysis, changes in lung function from baseline correlated well between pre-dose FEV1 and pre-dose PEF when both were measured under supervision in the clinic. Correlation between supervised in-clinic and unsupervised home measurements was stronger for pre-dose PEF than for pre-dose FEV1. Conclusions Pre-dose PEF measured at home could be an alternative primary lung function endpoint for trials in adolescent and adult patients with asthma. Using home-measured PEF could facilitate trial conduct and improve the convenience for patients by relocating scheduled assessments from the clinic to the patient’s home. Trial registration Adolescents aged 12 to 17 years: RubaTinA-asthma® (NCT01257230), PensieTinA-asthma® (NCT01277523). Adults aged 18 to 75 years: GraziaTinA-asthma® (NCT01316380), MezzoTinA-asthma® (NCT01172808/NCT01172821), CadenTinA-asthma® (NCT01340209), PrimoTinA-asthma® (NCT00772538/NCT00776984). All from Clinicaltrials.gov (https://clinicaltrials.gov/).
topic Asthma
Correlation
FEV1
Home-measurement
In-clinic measurement
PEF
url http://link.springer.com/article/10.1186/s12931-019-1119-6
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