TY - JOUR
T1 - Respiratory and cardiovascular responses to walking down a traffic-polluted road compared with walking in a traffic-free area in participants aged 60 years and older with chronic lung or heart disease and age-matched healthy controls
T2 - A randomised, crossover study
AU - Sinharay, Rudy
AU - Gong, Jicheng
AU - Barratt, Benjamin
AU - Ohman-Strickland, Pamela
AU - Ernst, Sabine
AU - Kelly, Frank
AU - Zhang, Junfeng (Jim)
AU - Collins, Peter
AU - Cullinan, Paul
AU - Chung, Kian Fan
PY - 2018/1/27
Y1 - 2018/1/27
N2 - BackgroundLong-term
exposure to pollution can lead to an increase in the rate of decline of
lung function, especially in older individuals and in those with chronic obstructive pulmonary disease (COPD), whereas shorter-term exposure at higher pollution levels has been implicated in causing excess deaths from ischaemic heart disease and exacerbations of COPD. We aimed to assess the effects on respiratory and cardiovascular responses
of walking down a busy street with high levels of pollution compared
with walking in a traffic-free area with lower pollution levels in older
adults.MethodsIn
this randomised, crossover study, we recruited men and women aged 60
years and older with angiographically proven stable ischaemic heart
disease or stage 2 Global initiative for Obstructive Lung Disease (GOLD)
COPD who had been clinically stable for 6 months, and age-matched
healthy volunteers. Individuals with ischaemic heart disease or COPD
were recruited from existing databases or outpatient respiratory and
cardiology clinics at the Royal Brompton & Harefield NHS Foundation
Trust and age-matched healthy volunteers using advertising and existing
databases. All participants had abstained from smoking for at least 12
months and medications were taken as recommended by participants'
doctors during the study. Participants were randomly assigned by drawing
numbered disks at random from a bag to do a 2 h walk either along a
commercial street in London (Oxford Street) or in an urban park (Hyde
Park). Baseline measurements of participants were taken before the walk
in the hospital laboratory. During each walk session, black carbon, particulate matter (PM) concentrations, ultrafine particles, and nitrogen dioxide (NO2) concentrations were measured.FindingsBetween
October, 2012, and June, 2014, we screened 135 participants, of whom 40
healthy volunteers, 40 individuals with COPD, and 39 with ischaemic
heart disease were recruited. Concentrations of black carbon, NO2, PM10, PM2.5,
and ultrafine particles were higher on Oxford Street than in Hyde Park.
Participants with COPD reported more cough (odds ratio [OR] 1·95, 95%
CI 0·96–3·95; p<0·1), sputum (3·15, 1·39–7·13; p<0·05), shortness of breath (1·86, 0·97–3·57; p<0·1), and wheeze
(4·00, 1·52–10·50; p<0·05) after walking down Oxford Street compared
with Hyde Park. In all participants, irrespective of their disease
status, walking in Hyde Park led to an increase in lung function (forced
expiratory volume in the first second [FEV1] and forced vital capacity [FVC]) and a decrease in pulse wave velocity
(PWV) and augmentation index up to 26 h after the walk. By contrast,
these beneficial responses were attenuated after walking on Oxford
Street. In participants with COPD, a reduction in FEV1 and FVC, and an increase in R5–20 were associated with an increase in during-walk exposure to NO2, ultrafine particles and PM2.5, and an increase in PWV and augmentation index with NO2
and ultrafine particles. In healthy volunteers, PWV and augmentation
index were associated both with black carbon and ultrafine particles.InterpretationShort-term
exposure to traffic pollution prevents the beneficial cardiopulmonary
effects of walking in people with COPD, ischaemic heart disease, and
those free from chronic cardiopulmonary diseases. Medication use might
reduce the adverse effects of air pollution in individuals with
ischaemic heart disease. Policies should aim to control ambient levels
of air pollution along busy streets in view of these negative health
effects.
AB - BackgroundLong-term
exposure to pollution can lead to an increase in the rate of decline of
lung function, especially in older individuals and in those with chronic obstructive pulmonary disease (COPD), whereas shorter-term exposure at higher pollution levels has been implicated in causing excess deaths from ischaemic heart disease and exacerbations of COPD. We aimed to assess the effects on respiratory and cardiovascular responses
of walking down a busy street with high levels of pollution compared
with walking in a traffic-free area with lower pollution levels in older
adults.MethodsIn
this randomised, crossover study, we recruited men and women aged 60
years and older with angiographically proven stable ischaemic heart
disease or stage 2 Global initiative for Obstructive Lung Disease (GOLD)
COPD who had been clinically stable for 6 months, and age-matched
healthy volunteers. Individuals with ischaemic heart disease or COPD
were recruited from existing databases or outpatient respiratory and
cardiology clinics at the Royal Brompton & Harefield NHS Foundation
Trust and age-matched healthy volunteers using advertising and existing
databases. All participants had abstained from smoking for at least 12
months and medications were taken as recommended by participants'
doctors during the study. Participants were randomly assigned by drawing
numbered disks at random from a bag to do a 2 h walk either along a
commercial street in London (Oxford Street) or in an urban park (Hyde
Park). Baseline measurements of participants were taken before the walk
in the hospital laboratory. During each walk session, black carbon, particulate matter (PM) concentrations, ultrafine particles, and nitrogen dioxide (NO2) concentrations were measured.FindingsBetween
October, 2012, and June, 2014, we screened 135 participants, of whom 40
healthy volunteers, 40 individuals with COPD, and 39 with ischaemic
heart disease were recruited. Concentrations of black carbon, NO2, PM10, PM2.5,
and ultrafine particles were higher on Oxford Street than in Hyde Park.
Participants with COPD reported more cough (odds ratio [OR] 1·95, 95%
CI 0·96–3·95; p<0·1), sputum (3·15, 1·39–7·13; p<0·05), shortness of breath (1·86, 0·97–3·57; p<0·1), and wheeze
(4·00, 1·52–10·50; p<0·05) after walking down Oxford Street compared
with Hyde Park. In all participants, irrespective of their disease
status, walking in Hyde Park led to an increase in lung function (forced
expiratory volume in the first second [FEV1] and forced vital capacity [FVC]) and a decrease in pulse wave velocity
(PWV) and augmentation index up to 26 h after the walk. By contrast,
these beneficial responses were attenuated after walking on Oxford
Street. In participants with COPD, a reduction in FEV1 and FVC, and an increase in R5–20 were associated with an increase in during-walk exposure to NO2, ultrafine particles and PM2.5, and an increase in PWV and augmentation index with NO2
and ultrafine particles. In healthy volunteers, PWV and augmentation
index were associated both with black carbon and ultrafine particles.InterpretationShort-term
exposure to traffic pollution prevents the beneficial cardiopulmonary
effects of walking in people with COPD, ischaemic heart disease, and
those free from chronic cardiopulmonary diseases. Medication use might
reduce the adverse effects of air pollution in individuals with
ischaemic heart disease. Policies should aim to control ambient levels
of air pollution along busy streets in view of these negative health
effects.
U2 - 10.1016/S0140-6736(17)32643-0
DO - 10.1016/S0140-6736(17)32643-0
M3 - Article
SN - 0140-6736
VL - 391
SP - 339
EP - 349
JO - Lancet
JF - Lancet
IS - 10118
ER -
