Exposure to fine and ultrafine particles from secondhand smoke in public places before and after the smoking ban, Italy 2005
Pasquale Valente1, Francesco Forastiere2, Antonella Bacosi3, Giorgio Cattani3, Simonetta Di Carlo3, Monica Ferri2, Irene Figà-Talamanca1, Achille Marconi3, Luigi Paoletti3, Carlo Perucci2 and Piergiorgio Zuccaro3
1 University of Rome "La Sapienza", 5 Ple Aldo Moro, 00185 Rome, Italy
2 Department of Epidemiology ASL Roma E, Rome, Italy
3 Istituto Superiore di Sanità, Viale Regina Elena, 299, 00161 Rome, Italy
Correspondence to:
Pasquale Valente
Istituto Superiore di Sanità, Dipartimento Tecnologie e Salute, Viale Regina Elena 299, 00168 Roma; pasquale.valente@iss.it
Received 14 December 2006 Accepted 4 May 2007
 |
ABSTRACT |
Background: A smoking ban in all indoor public places was enforced
in Italy on 10 January 2005.
Methods: We compared indoor air quality before and after the smoking ban by monitoring the indoor concentrations of fine (<2.5 µm diameter, PM2.5) and ultrafine particulate matter (<0.1 µm diameter, UFP). PM2.5 and ultrafine particles were measured in 40 public places (14 bars, six fast food restaurants, eight restaurants, six game rooms, six pubs) in Rome, before and after the introduction of the law banning smoking (after 3 and 12 months). Measurements were taken using real time particle monitors (DustTRAK Mod. 8520 TSI; Ultra-fine Particles Counter-TRAK Model 8525 TSI). The PM2.5 data were scaled using a correction equation derived from a comparison with the reference method (gravimetric measurement). The study was completed by measuring urinary cotinine, and pre-law and post-law enforcement among non-smoking employees at these establishments
Results: In the post-law period, PM2.5 decreased significantly from a mean concentration of 119.3 µg/m3 to 38.2 µg/m3 after 3 months (p<0.005), and then to 43.3 µg/m3 a year later (p<0.01). The UFP concentrations also decreased significantly from 76 956 particles/cm3 to 38 079 particles/cm3 (p<0.0001) and then to 51 692 particles/cm3 (p<0.01). Similarly, the concentration of urinary cotinine among non-smoking workers decreased from 17.8 ng/ml to 5.5 ng/ml (p<0.0001) and then to 3.7 ng/ml (p<0.0001).
Conclusion: The application of the smoking ban led to a considerable reduction in the exposure to indoor fine and ultrafine particles in hospitality venues, confirmed by a contemporaneous reduction of urinary cotinine.
Abbreviations: CIAA, Clean Indoor Air Act; ETS, environmental tobacco smoke; PM, particulate matter; RIA, radioimmunoassay; RSP, respirable suspended particle; UFP, ultrafine particle
Keywords: secondhand smoke; cotinine; particulate; ultrafine; smoking ban
The application of the law banning smoking in indoor public places in Italy on 10 January 20051 follows other smoking bans in the world. The Smoking Ordinance (Labor code 6404.5) of January 1998, extended the smoking ban to bars, game rooms, bingo parlours, casinos, and other public locations in California, and made it the first state to outlaw smoking in all indoor public places. Similar legislation has been subsequently adopted in India, Ireland, Malta, New Zealand (2004), Norway, and South Africa (2000). It is expected that smoking bans will be adopted in several other European countries in the near future, although the introduction of laws that prohibit smoking have often been highly contested.2
Environmental tobacco smoke (ETS) is an air pollutant made up of a complex mixture of around 4000 chemicals, some 50 of which are carcinogens.3 Exposure to ETS is causally associated with several adverse health effects, including lung cancer and heart disease in adults, exacerbation of asthma, lower respiratory illnesses, ear infections, and other diseases in children and infants.4–6 A recent report of the European Respiratory Society estimates that a total of 80 000 adults in Europe in 2002 died from exposure to ETS, including 7000 subjects between 20–64 years of age who were exposed at work (2800 non-smokers).7
Hospitality venues where smoking is permitted are characterised by elevated ETS exposure. Siegel8 showed that ETS exposure in bar and restaurant employees is 1.5–4.4 times higher than in subjects who live with a smoker. Although the general public spends a limited amount of time in indoor public places, the resulting ETS exposure is relevant and health effects are also likely, and smoking bans seem to be associated with a rapid positive effect on ischaemic heart disease morbidity.9,10
Vapour phase nicotine and particulate matter (PM2.5) are the most commonly used indicators to evaluate environmental exposure to ETS.11 Numerous studies have shown that tobacco smoke plays a major part in determining the concentration of particulate matter indoors. In addition, ETS is, like all other byproducts of combustion, made up of a considerable number of ultrafine particles (UFP), with a diameter <0.1 µm, since the average aerodynamic diameter of ETS particles is approximately 0.2 µm.12 Ultrafine particles are an important cause of adverse effects as a consequence of their large total surface, their large alveolar deposition, inflammatory capability, and their possibility to translocate in the general circulation.13 Main indoor sources of UFP are smoking, cooking, candles, and chemical reactions (for example, terpens and ozone).14 Nicotine is principally metabolised into cotinine by the liver; it has a half life of around 18 hours and is generally considered the best indicator of nicotine intake.15 Urinary cotinine levels correlate with levels of environmental nicotine and with self reported ETS exposure.16
The evidence of the health effects of airborne particles comes from several lines of scientific investigation, from cellular and animal studies to large epidemiological investigations. Health effects include premature mortality, cardiorespiratory morbidity, and lung cancer. The World Health Organization has recently issued a global update of the Air Quality Guidelines.17 The annual average guideline value of 10 µg/m3 for PM2.5 was chosen to represent the lower end of the range over which significant effects on survival have been observed. The 24 hour PM2.5 guideline is 25 µg/m3. While there is considerable toxicological evidence of potential detrimental effects of ultrafine particles on human health, the existing body of epidemiological evidence was insufficient to reach a conclusion on the exposure–response relation to ultrafine particles and no recommendation was provided in the guideline for concentrations of ultrafine particles.
In order to evaluate the efficacy of the new legislation in public indoor environments in Italy, we studied changes in environmental concentrations of fine and ultrafine particles, as well as urinary cotinine in employees of public establishments, before and after (in the third and 12th month) the implementation of the law banning smoking.
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MATERIALS AND METHODS |
We measured exposure to environmental tobacco smoke by determining
PM
2.5 and the number of ultrafine particles in 40 establishments
in the city of Rome (14 bars, six fast food restaurants, eight
restaurants, six video game parlours, six pubs). The 40 locations
were selected randomly from the official list of businesses
in the western part of the city (Health District D, about 400
000 inhabitants). The venues’ owners were contacted by
the regional health authority to request participation in the
study. Baseline measurements of the environment were taken in
November/December 2004 (before the law was in effect). In March/April
2005, and November/December 2005 (after the law was in effect)
the comparison measurements were taken again, without warning
and during peak business hours. To increase the statistical
efficiency and avoid a "learning effect," the number of locations
studied was constant (40), but 50% of them were rotated out
of the study for each successive measurement, and replaced with
other establishments.
PM2.5 was measured with a real time aerosol monitor (DustTrak, Model 8520 TSI), equipped with a sampling nozzle to collect fine particles (PM2.5). In the same establishments, ambient ultrafine particles were counted using a condensation particle counter: P-Trak Monitor (Mod. 8525 UPC TSI). At the same time, continuous measurements were taken of temperature, relative humidity, CO2, and air velocity (with Q-Trak Plus TSI). A survey of all these parameters was taken in the outside environment for purposes of comparison. The instruments took measurements every 10 seconds, and recorded the average reading every minute, in both smoking and non-smoking areas. Every day the instruments were recalibrated (to zero). Instruments were positioned inside, an average height of 0.8 metre above the tables and at least 3 metres from the entrance, in the centre when possible, and at least 2 metres from any potential pollutant source (gas stove, espresso machine, grill). The total measurement time was 20 minutes. Other variables recorded included size of location (square metres), air ventilation (natural or mechanical), smoking regulations, the presence of ashtrays and smokers, and the number of employees and customers present. Outdoor measurements of PM2.5 and UFP counts were taken nearby, 0.8 metre off the ground, and weather and traffic conditions were recorded.
PM2.5 measurements with DustTrak were later gravimetrically calibrated based on empirically derived correction equations. For one month in winter and one month in summer, in two environments, one reserved for smokers and the other for non-smokers, PM2.5 measurements were taken both with DustTrak and an active air pump (Skypost PM TCR-Tecora) with an air flow of 2.3 m3/h conforming to specified European protocols for measuring PM2.5.18 The particles were collected on a 47 mm filter membrane. Each measurement was conducted over 8 hours. The measurements were carried out daily, in two phases (first phase from 8.00–16.00, the second phase from 20.00–04.00). The mass concentration of particulate collected was determined by manual gravimetric method, using a Sartorius scale with a resolution of 1 µg, after the filters were pretreated for at least 48 hours at 50 (SD 5) RH%, 293 (SD 1) K (in a room with controlled temperature and relative humidity).19 Based on the linear regression of PM2.5 concentrations measured with Dust Trak/manual gravimetric method (RFM), two correction equations were applied to the PM 2.5 data: x = (y+21.01)/4.01 for smoking environments (y = 4.0132 (1.0544)x–21.048 (72.5159)) R2 = 0.7567, and x = (y+9.1)/2.66 for smoke free environments (y = 2.6587 (0.1932)x–9.108 (3.8360)) R2 = 0.917.
All non-smoking employees of the 40 facilities were asked to provide a urine sample, contemporaneously with PM2.5 measurements. An interview was completed for each subject, on personal data and information to evaluate subjective exposure to passive smoke in the workplace and at home (presence of smoke, hours of exposure per week). Urine samples were stored at –80°C. Urinary cotinine was measured using radioimmunoassay (RIA), according to the method described by Van Vunakis et al.20 A cut-off of 100 ng/ml was employed to distinguish active smokers from non-smokers. Two subjects of the first phase were excluded from the analyses with cotinine levels of >100 ng/ml.
Arithmetic and geometric means were calculated. Levels of environmental and biological data from the three periods were compared with the Mann-Whitney test. The results were confirmed using separate linear regression analysis with the log transformation of PM2.5, UFP, and urinary cotinine as the dependent variable and an indicator variable for the three periods of the assessment as the independent variable. The data were analysed using Stata 8 software.
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RESULTS |
Table 1
reports concentration levels of PM
2.5 measured indoors
before and after the law (in the third and 12th month); values
recorded outdoors are also reported. The indoor microclimatic
parameters did not show significant differences over the three
measurement periods, and the average temperature remained steady
(21°C before, 20.8°C first post-law period, and 20.9°C
second post-law period). In 40 establishments monitored before
the law took effect, 17 (42.5%) were completely non-smoking,
14 (35%) allowed smoking anywhere, and nine (22.5%) reserved
separate smoking areas. The prohibition nonetheless was not
enforced in about half of the venues (8/17) and, in particular,
was not enforced in any of the video game parlours. The average
PM
2.5 value for all smoking areas before the smoking ban was
184.6 µg/m
3 (95% CI 104 to 264.8). The highest values
were observed in pubs that allowed smoking (mean 368.1 µg/m
3,
95% CI 89.3 to 646.9). In the areas reserved for non-smokers
before the ban, readings of PM
2.5 showed a mean of 56.7 µg/m
3 (95% CI 34.9 to 78.5), higher than the values found in the air
measured directly outside (mean 24.6, 95% CI 19.9 to 29.4).
Statistical significant reductions were found in average PM
2.5 values: from a pre-law level of 119.3 µg/m
3, which fell
to 38.2 µg/m
3 and 43.3 µg/m
3 after the ban took
effect. A reduction in particles was observed even in businesses
that had never allowed smoking. In restaurants, video game parlours
and pubs, the reduction of PM
2.5 concentrations was particularly
strong. Outdoor PM
2.5 concentrations were relatively stable
and close to the values recorded at a fixed monitoring site
located at the National Health Institute, in the centre of the
city.
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Table 1 Levels of fine particulate matter (PM 2.5, µg/m3) measured inside and outside hospitality venues before and after the smoking ban in Rome |
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A reduction of UFP values was also observed, although not as
notable as for fine particles. The particle number concentration
went from 76 956 pt/cm
3 to 38 079 pt/cm
3 (p<0.0001) and then
51 692 (p<0.01) (table 2
). It should be noted that outdoor
concentrations of ultrafine particles were lower in the first
post-law period than in the pre-law survey but the concentrations
were higher in the second post-law assessment, again following
the pattern monitored at the fixed station.
21
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Table 2 Levels of ultrafine particulate matter (UFP, pt/cm3) measured inside and outside hospitality venues before and after the smoking ban in Rome |
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Thirty-nine subjects agreed to provide urine samples in the
pre-law monitoring period (two were excluded), 23 in the third
month post-law, and 11 in the 12th month post-law. The median
age in the first period was 39 years, and 34 years in the post-law
periods. The reduction in exposure observed in the biological
readings (table 3
) appears to be consistent with those found
in the environmental measurements. Before the ban, the 37 subjects
who were analysed (two excluded as smokers) presented a mean
of urinary cotinine concentration of 17.8 ng/ml (95% CI 14 to
21.6, SD 11.4, median 14.2). Three months after the ban, in
the 23 subjects examined, the mean urinary cotinine concentration
fell to 5.5 ng/ml (95% CI 3.8 to 7.2.6; SD 4.3, median 6.0).
A year later there was a striking reduction in urinary cotinine
(mean 3.7, 95% CI 1.8 to 5.6; SD 2.8, median 4.0). The reduction
was particularly notable in bars and restaurants (fig 1
). Also,
the analysis of the questionnaires showed a significant reduction
of subjective exposure to ETS at the workplace in the post-law
periods (p<0.0005).
When we considered the data from the three surveys, there was
a statistically significant association between both PM
2.5 and
UFP levels and urinary cotinine concentrations. In particular,
there was an increase of 0.75 ng/ml (95% CI 0.4 to 1.1) in urinary
cotinine for each 10 µg/m
3 increase in PM
2.5. The association
between PM
2.5 and urinary cotinine is shown in figure 2
.
|
DISCUSSION |
We found that the application of the smoking ban led to a considerable
reduction in exposure to indoor fine and ultrafine particles
in public facilities. The results were confirmed with a simultaneous
reduction of urinary cotinine.
Few studies have reported objective ETS exposure data from public locations, even fewer have used environmental PM2.5 and cotinine concentrations as the exposure indicator. Measurements taken in residences and offices22 indicate good correlation between ambient nicotine and ambient particulate concentrations. This has been particularly true in locations studied where (a) there is regular smoking, (b) microenvironments are in a steady state, and (c) the measurement periods are significantly longer than necessary for smoke diffusion.12 PM2.5 is a widely accepted indicator to evaluate indoor air quality and is a valid exposure marker of ETS.
The real time measurements method (DustTrak) was well correlated with the gravimetric reference method, but it constantly overestimated PM2.5 levels (2.66 times higher), and the overestimation was even higher in the presence of ETS (4.01). The values measured with DustTrak, once corrected, resulted in line with measurements from other studies that used the gravimetric method. The mean (corrected) PM2.5 from the entire pre-law sample was 119.3 µg/m3. Recently, measurements with the gravimetric method showed average concentrations of PM2.5 to be 114.5 µg/m3 in the smoking sections of 59 pubs and bars.23 Siegel reported a weighted respirable suspended particle (RSP) average of 117 µg/m3, based on 12 studies in restaurants.8 These values are analogous to those reported by Ellingsen24 for total particulate in restaurants in Norway (115 µg/m3). Outdoor concentration levels after correction also appear to be analogous to those calculated with the reference method for Rome.
Our data confirm the presence of elevated levels of ETS exposure in indoor hospitality venues, similar to those observed in England,23 in Ireland,28 in Norway,24 and in the US,25–27 before the smoking bans in restaurants and bars. Those who work in environments where there are no smoking restrictions for customers have three times higher exposure levels to ETS than employees of businesses where smoking is restricted to a special area. They also present cotinine levels that are much higher than employees of completely non-smoking businesses.29
As in Ireland, Norway, and the US, smoking bans in Italy also have drastically reduced ETS pollution. Our study showed that PM2.5 was reduced by two-thirds and urinary cotinine by 73%. A statistically significant reduction in ETS pollution was also seen in establishments that already prohibited smoking. The significant reduction in air pollution is probably the result of both the rigorous manner in which the law was enforced, and of the great reduction in the number of businesses with smoking sections. In smoking sections, the reduction in the particulate concentrations was markedly smaller. One study that measured the changes in RSP levels in 20 restaurants and bars in New York reported an 84% decrease after the Clean Indoor Air Act (CIAA) was put into effect in July 2003.25 Similar results were obtained by Repace in Delaware. Examining the changes produced by the CIAA on the air quality, he found that RSP decreased by 91%, contemporaneously to a 95% reduction of polycyclic aromatic hydrocarbons.26 In a cross sectional study of the hospitality industry, after the CIAA took effect in New York, a significant reduction was shown in urinary cotinine and ETS exposure levels, compared to pre-law levels.27 In particular, the proportion of subjects with undetectable levels of urinary cotinine increased from 3% to 62% after the law, while average values of urinary cotinine decreased from 4.93 ng/ml to 0.30 ng/ml. These studies indicate that most (70–90%) fine particulate concentrations indoors are related to cigarette smoke and that eliminating smoke significantly improves the quality of indoor air, with substantial reduction of health risks. Reductions similar to ours have been verified by using other markers, like salivary cotinine (reduced by 70%) by Mulcahy et al28 in Ireland. In that study, self reported exposure to passive smoke showed a significant reduction from an average of 30 hours to zero hours and was associated with a great reduction (83%) in concentrations of nicotine in the air, from an average of 35.5 mg/m3 to 5.95 mg/m3.26 Ellingsen described exposure to nicotine and indoor particles, before and after the smoking ban was extended to include bars and restaurants in Norway. The mean concentrations of nicotine and total particulate (with gravimetric method) decreased from 28.3 µg/m3 (range 0.4–88.0) and 262 µg/m3 (range 52–662), respectively, to 0.6 µg/m3 (range 0–3.7) and 77 µg/m3 (range 0–261) after the ban. Pearson’s correlation between nicotine in the air and total particulate was very good (0.86, p<0.001; n = 48). The geometric average of urinary cotinine concentrations was reduced from 9.5 µg/g creatinine (95% CI 6.5 to 13.7) to1.4 µg/g creatinine (95% CI 0.8 to 2.5) (p<0.001) in 25 non-smokers.20 Similarly to Bates,29 our study also shows that employees of hospitality venues with smoking sections reserved for their customers are still considerably more exposed than those who work in non-smoking businesses.
postato da ezechiele2002 16:56 |
commenti 11/11/2007
Youth ambassadors impress with arguments against cigarette advertising
By PIPPA O'ROURKE - North Shore Times | Tuesday, 6 November 2007
The smokefree message is alive and well in New Zealand but one powerful form of cigarette marketing has avoided extinction - and the Cancer Society wants to see it banned.
Cigarette displays are a powerful marketing tool for tobacco companies and, with the help of some youth ambassadors, the society's wish to see the displays banned is another step closer to being granted.
Jemimah Micah Guidot is a year 12 student at Glenfield College and one of six Cancer Society smokefree youth ambassadors sent to Wellington to present submissions on banning the display of tobacco products.
On October 24 the parlimentary health select committee heard Micah read a statement about growing up with a father who has smoked for 31 years.
"Smoking affects everyone, not just the one person smoking. I just thought that I would write it from the heart and see how it goes," she says.
Micah says she and the youth ambassadors discussed with the parliamentary committee the possibility of moving cigarettes in shops away from eye level.
The Cancer Society says the committee was impressed with the ambassadors and described their submission as the 'best they'd ever heard'.
The society believes that the removal of cigarette displays would limit the number of young people taking up smoking.
postato da ezechiele2002 19:50 |
commenti 02/11/2007
Cigarette 'sting' nets four Christchurch retailers
Four Canterbury retailers are being prosecuted after a recent controlled purchase sting found them selling cigarettes to minors.
Canterbury medical officer of health Alistair Humphrey said the result was disappointing but in line with a Ministry of Health survey showing most young smokers aged between 15 and 19 bought their own cigarettes.
Retailers were obligated under the Smokefree Environments Act not to sell tobacco products to people under 18.
"Very few people start smoking over the age of 18, so preventing sales to minors saves lives," Humphrey said.
"Clearly not all retailers are complying with the law and these retailers run the risk of prosecution."
He said checks on tobacco retailers would continue around Canterbury.
Retailers found repeatedly offending could be ordered not to sell tobacco products for up to three months.
Three of the retailers caught in the sting were in Christchurch, and the other in Rangiora.
postato da ezechiele2002 17:39 |
commenti
Ban a breath of fresh air
BY JULIE MOORE
THE smoking ban introduced in Northern Ireland six months ago, has worked out a lot better than many people in the hospitality industry were expecting and Omagh bar staff believe their workplaces are healthier as a result of the ban.
Research carried out by Ulster Cancer Foundation revealed this week that 93% of 200 Belfast bar-workers questioned felt that the smoking ban had been a success. The UlsterHerald found that view was reflected among pub/restaurant owners, their staff and most customers in Omagh.
Reflecting on his experience of the past six months, Omagh publican/restaurateur Mickey McElroy said, "Conditions are a lot better, no doubt about it.
"We found the reaction from customers to be extremely positive. We embraced the smoking ban from the Mr McElroy added, "We didn't introduce a smoking area to promote smoking, but you have to provide a service to those who wish to smoke."
The owner of Omagh's Rue added that "tens of thousands of pounds" had been put into creating the outside smoking area at the new town centre venue "and we are continuing to do that; it is very much part of the planning process," he added.
One smoker making use of Rue's outdoor smoking area – complete with heating facilities – commented that it was "a good set up," and that the heated area was "a good idea".
Rhonda McCutcheon, manageress of BarTenm stated she has had "no trouble at all" with implementing the ban.
"Everyone knows not to light up in here," she said. However she believes attitudes may change coming into the winter months, with no heating facilities installed on the premises as yet for smokers outside.
"BarTen is quite popular with families because it's so open-plan and the smoking ban probably has something to do with it too," she said.
One family enjoying the atmosphere said the smoking ban has been "brilliant.
"You can bring your children into a place like this now," said one mother, who admitted that she would have been less likely to have brought her children into a place such as BarTen prior to the ban.
A smoker at another town centre bar, however, believed that Omagh's pubs are not doing enough to cater for smokers.
"There's no heating out here," he said. "Even in summer, a breeze comes off the river. If it's a blowy wet day, you're definitely going to get wet.
If you are a smoker, this is where you feel at ease to smoke and socialize. But this smoking ban has cut out part of the socialization."
However, he added "As it goes on, people will get use to it."
UCF's research revealed that before the legislation was introduced, 26% of bar staff felt that they would have problems implementing the ban, but six months on only 5% of those surveyed have reported enforcement difficulties.
Meanwhile, Northern Ireland's Health Minister Michael McGimpsey said the smoke-free legislation in April has meant that people have gone about their work and social activities free from the risk of exposure to second-hand smoke.
"The implementation of smoke-free legislation earlier this year has been one of the most major public health initiatives ever to be introduced in Northern Ireland," said Mr McGiimpsey. "Six months on, I am sure we all now find it hard to imagine a time when we were subjected to second-hand smoke, whether at work or even just out for a meal with family or friends.
"It has been no surprise therefore that public support for the smoke-free legislation has always been high and I am delighted to say, remains high. People clearly understand and appreciate the impact a smoke-free environment has on their health.
"I would like to thank everyone for their co-operation, the general public and businesses alike in ensuring that we have all embraced this opportunity to provide a healthier environment for us all now and in the future."
The North's Chief Medical Officer, Dr Michael McBride, said, "The smoke-free legislation was designed primarily to protect the public from the harmful effects of second hand smoke but I am also delighted to see that it has given some smokers the extra incentive they may have needed to quit.
"I have no doubt therefore that lives will be saved. We have the opportunity to reduce the many thousands of unnecessary deaths and smoking related illnesses we suffer as a society each year and the effects will continue for generations to come
postato da ezechiele2002 17:34 |
commenti 29/10/2007
War veterans face a smoking battle
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VETERANS at Liscard’s Royal British Legion face a damp winter after mean-spirited neighbours declared war on a smoking shelter.
Just ahead of Rembembrance Sunday, the club has been hit with enforcement action by Wirral Council because they erected a small wooden structure to keep the rain off smokers – a bitter pill for members more used to fighting real battles.
On either side of the long-established club nearby, pubs use similar shelters with no problems.
Licensee Freda Oasgood said: “We have around 600 members and their age means it’s a bit late in the day for them to give up smoking!
“All we wanted to do was keep the rain off them, this design was allowed under the smoking ban.
“It’s a shame some people have decided to complain because there’s no way these are generating lots of noise. They are pensioners, you are more likely to hear noise from younger people going between the local pubs.
“Because many of them use wheelchairs or walking frames, it’s important that the shelter is near the entrance.
“This is affecting us badly. We have bent over backwards to help but we are being victimised.”
Member of 37 years, Cyril Wood, 78, who served in Libya and Egypt, said: “It’s so unnecessary, every other pub has one but for some reason we are being targeted.”
A report prepared by council officers for the Planning Committee reads: “It is expedient to take enforcement action in this matter as the local authority considers that the proposal is an unneighbourly form of development.”
What do you think? Join the debate on Wirral Forums at www.wirralnews.co.uk
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postato da ezechiele2002 10:50 |
commenti
" tomorrow I will quit !! "
With willpower alone, the chances of success are very small 
TOP
ABSTRACT
MATERIALS AND METHODS
