Increased risk of paroxysmal atrial fibrillation episodes associated with acute increases in ambient air pollution.Objectives: We reported previously that 24-hr moving average ambient air pollution concentrations were positively associated with ventricular arrhythmias detected by implantable cardioverter defibrillators (ICDs). ICDs also detect paroxysmal paroxysmal (per´  ksiz´ml),adj recurring in paroxysms. atrial fibrillation atrial fibrillation Irregular rhythm (arrhythmia) of contraction of the atria (upper heart chambers). The most common major arrhythmia, it may result as a consequence of increased fibrous tissue in the aging heart, of heart disease, or in association with severe infection. episodes (PAF PAF platelet activating factor. PAF abbr. platelet-aggregating factor PAF platelet activating factor. ) that result in rapid ventricular rates. In this same cohort of ICD ICD International Classification of Diseases (of the World Health Organization); intrauterine contraceptive device. ICD abbr. patients, we assessed the association between ambient air pollution and episodes of PAF. Design: We performed a case--crossover study. Participants: Patients who lived in the Boston, Massachusetts “Boston” redirects here. For other uses, see Boston (disambiguation). Boston is the capital and most populous city of Massachusetts.[3] The largest city in New England, Boston is considered the unofficial economic and cultural center of the entire New , metropolitan area and who had ICDs implanted between June 1995 and December 1999 (n = 203) were followed until July 2002. Evaluations/Measurements: We used conditional logistic regression In statistics, logistic regression is a regression model for binomially distributed response/dependent variables. It is useful for modeling the probability of an event occurring as a function of other factors. to explore the association between community air pollution and 91 electrophysiologist-confirmed episodes of PAF among 29 subjects. Results: We found a statistically significant positive association between episodes of PAF and increased ozone concentration (22 ppb) in the hour before the arrhythmia arrhythmia (ārĭth`mēə), disturbance in the rate or rhythm of the heartbeat. Various arrhythmias can be symptoms of serious heart disorders; however, they are usually of no medical significance except in the presence of (odds ratio = 2.08; 95% confidence interval confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. = 1.22, 3.54; p = 0.001). The risk estimate for a longer (24-hr) moving average was smaller, thus suggesting an immediate effect. Positive but not statistically significant risks were associated with fine particles Fine particles are an air pollutant mainly produced by cars running on diesel. Other sources are the combustion of fossil fuels in power plants and various industrial processes. , nitrogen dioxide nitrogen dioxide n. A poisonous brown gas, NO2, often found in smog and automobile exhaust fumes and synthesized for use as a nitrating agent, a catalyst, and an oxidizing agent. Noun 1. , and black carbon. Conclusions: Increased ambient [O.sub.3] pollution was associated with increased risk of episodes of rapid ventricular response due to PAF, thereby suggesting that community air pollution may be a precipitant precipitant /pre·cip·i·tant/ (-sip´it-int) a substance that causes precipitation. pre·cip·i·tant n. A substance that causes a precipitate to form when it is added to a solution. of these events. Key words: air pollution, arrhythmias, fibrillation fibrillation /fi·bril·la·tion/ (fi?bri-la´shun) 1. the quality of being made up of fibrils. 2. a small, local, involuntary, muscular contraction, due to spontaneous activation of single muscle cells or muscle , epidemiology, case--crossover, ozone. Environ Health Perspect 114:120-123 (2006). doi:10.1289/ehp.8371 available via http://dx.doi.org/ [Online 20 September 2005] ********** In previous studies, we reported statistically significant associations between ambient air pollution and cardiac arrhythmias in patients with implantable cardioverter defibrillator defibrillator, device that delivers an electrical shock to the heart in order to stop certain forms of rapid heart rhythm disturbances (arrhythmias). The shock changes a fibrillation to an organized rhythm or changes a very rapid and ineffective cardiac rhythm to a (ICD) devices (Dockery et al. 2005a, 2005b; Peters et al. 2000b; Rich et al. 2005). A pilot study of 100 patients in Boston, Massachusetts, found significantly increased risk of ICD discharges associated with nitrogen dioxide and black carbon among patients with repeated events (Peters et al. 2000b). In a larger study of approximately 200 Boston-area ICD patients, we found a nonstatistically significant increased risk of ventricular arrhythmias (confirmed by an electrophysiologist) associated with 2-day mean N[O.sub.2], particulate matter particulate matter n. Abbr. PM Material suspended in the air in the form of minute solid particles or liquid droplets, especially when considered as an atmospheric pollutant. Noun 1. < 2.5 [micro]m in aerodynamic diameter Drug particles for pulmonary delivery are typically characterized by aerodynamic diameter rather than geometric diameter. The velocity at which the drug settles is proportional to the aerodynamic diameter, da. (P[M.sub.2.5]), black carbon, carbon monoxide carbon monoxide, chemical compound, CO, a colorless, odorless, tasteless, extremely poisonous gas that is less dense than air under ordinary conditions. It is very slightly soluble in water and burns in air with a characteristic blue flame, producing carbon dioxide; , ozone, and sulfur dioxide sulfur dioxide, chemical compound, SO2, a colorless gas with a pungent, suffocating odor. It is readily soluble in cold water, sparingly soluble in hot water, and soluble in alcohol, acetic acid, and sulfuric acid. (Dockery et al. 2005a, 2005b). In a case-crossover analysis of these data, which allowed us to match the time of onset of these arrhythmias with ambient air pollution concentrations, we found stronger, statistically significant associations of ventricular arrhythmias with mean P[M.sub.2.5] and [O.sub.3] in the 24 hr before the arrhythmia (Rich et al. 2005). Although ICDs are designed to detect and treat life-threatening ventricular arrhythmias, supraventricular arrhythmias may also be detected. Many of these supraventricular arrhythmias may be atrial fibrillation, which is the most common sustained arrhythmia in clinical practice (Go et al. 2001) and a risk factor for stroke (Prystowsky et al. 1996) and premature mortality (Kanel et al. 1983). We used a case--crossover design to examine the association of ICD-detected paroxysmal atrial fibrillation and hourly measurements of community air pollution concentrations. Materials and Methods Study population. Two hundred three patients who had a third-generation Guidant ICD (Cardiac Pacemakers, Inc., Minneapolis, MN) implanted at the Tufts--New England Medical Center between 1 June 1995 and 31 December 1999, were followed until their last clinic visit before 15 July 2002. Patients who lived within 40 km (25 mi) of the air pollution monitoring station at the Harvard School of Public Health The Harvard School of Public Health is (colloquially, HSPH) is one of the professional graduate schools of Harvard University. Located in Longwood Area of the Boston, Massachusetts neighborhood of Mission Hill, next to Harvard Medical School and Cambridge, Massachusetts, were included for analysis. The Guidant ICDs record intracardiac intracardiac /in·tra·car·di·ac/ (-kahr´de-ak) within the heart. in·tra·car·di·ac adj. Within the heart. intracardiac within the heart. electrograms and were the most common ICD implanted at Tufts--New England Medical Center during the study period. Each patient's first 14 days after implantation and any events that occurred during inpatient hospital visits were excluded. Further description of this population has been published previously (Dockery et al. 2005a, 2005b). Outcome and clinical data. For each ICD-recorded episode of tachyarrhythmia tachyarrhythmia /tachy·ar·rhyth·mia/ (tak?e-ah-rith´me-ah) any disturbance of the heart rhythm in which the heart rate is abnormally increased. tach·y·ar·rhyth·mi·a n. , the date, time, beat-to-beat intervals, and intracardiac electrogram before, during, and after episodes were recovered from the ICD. In a small number of cases in which the patient experienced a large number of ICD-detected episodes since the previous clinic visit, early electrograms in the ICD memory, but none of the other episode-specific data, may have been overwritten. ICD settings including ventricular tachycardia Ventricular Tachycardia Definition Ventricular tachycardia (V-tach) is a rapid heart beat that originates in one of the lower chambers (the ventricles) of the heart. rate cutoffs (i.e., detection rates) were also abstracted from the ICD records. Ventricular tachycardia rate cutoffs were set by the treating electrophysiologist based on the clinical features of the patients. All of the ICD-detected episodes were reviewed and characterized by an electrophysiologist (M.S.L) blinded to air pollution levels. Details of this arrhythmia classification have been published previously (Dockery et al. 2005b). Briefly, patients who presented with atrial fibrillation at all clinic follow-ups were classified as in permanent atrial fibrillation, and they were excluded from this analysis. Episodes of paroxysmal atrial fibrillation (PAF) were defined by a ventricular rate between 120 and 200 beats per minute beats per minute Cardiac pacing The unit of measure for the frequency of heart depolarizations or contractions each minute–or pulse rate , irregularity A defect, failure, or mistake in a legal proceeding or lawsuit; a departure from a prescribed rule or regulation. An irregularity is not an unlawful act, however, in certain instances, it is sufficiently serious to render a lawsuit invalid. of the beat-to-beat intervals, no change in QRS QRS A pattern seen in an electrocardiogram that indicates the pulses in a heart beat and their duration. Variations from a normal QRS pattern indicate heart disease. Mentioned in: Bundle Branch Block morphology (except for a small number of cases with no ventricular electrogram), and lack of conversion following ventricular therapies (except when therapy was not applied). If a dual-chamber device had been implanted and an atrial atrial /atri·al/ (a´tre-al) pertaining to an atrium. a·tri·al adj. Of or relating to an atrium. Atrial Having to do with the upper chambers of the heart. electrogram was available, the atrial electrogram was also used to characterize ICD-recorded episodes. This analysis was restricted to PAF episodes that occurred at least 60 min after the previous event. Residence ZIP code zip code System of postal-zone codes (zip stands for “zone improvement plan”) introduced in the U.S. in 1963 to improve mail delivery and exploit electronic reading and sorting capabilities. , date of birth, race/ethnicity, clinic visit dates, and medications prescribed (beta-blockers, digoxin digoxin: see digitalis. , and other antiarrhythmics) were abstracted from patients' records. The Harvard School of Public Health Human Subjects Committee and the Tufts--New England Medical Center Institutional Review Board approved this record review study. Air pollution. The air pollution measurements have been described previously (Dockery et al. 2005a, 2005b; Rich et al. 2005). Briefly, ambient concentrations of 03, NO2, SO2, and CO were measured hourly by the Massachusetts Department of Environmental Protection at four to six sites in the Boston metropolitan area during the entire follow-up period. We calculated the hourly average air pollution concentration across all available monitoring stations, accounting for differences in the annual mean and daily standardized deviations of each monitor (Schwartz 2000). P[M.sub.2.5] was measured hourly in South Boston (- 5 km east of the Harvard School of Public Health) from 1 April 1995 to 20 January 1998, and at the Harvard School of Public Health from 16 March 1999 to 31 July 2002. Black carbon was measured hourly in South Boston from 1 April 1995 to 29 March 1997, and at the Harvard School of Public Health from 15 October 1999 to 31 July 2002. Acute effect of pollutants. We analyzed the association of ambient air pollution concentrations and episodes of PAF using a case-crossover design (Maclure 1991). These methods have been used previously to study triggers of acute cardiovascular events (Albert et al. 2000; D'Ippoliti et al. 2003; Hallqvist et al. 2000; Mittleman et al. 1995; Peters et al. 2000a; Rich et al. 2005). In this design, each subject contributes information as a case during the event periods and as a matched control matched study, matched control a comparison between groups in which each subject animal is matched by a comparable animal in terms of age and all other measurable parameters. Called also matched or paired control. during nonevent non·e·vent n. Informal An anticipated or highly publicized event that does not occur or proves anticlimactic or boring. nonevent Noun times. Because cases and their matched controls are derived from the same person and a conditional analysis is conducted, non-time-varying potential confounders such as underlying medical condition and long-term smoking history are controlled by design. Variables that may be related to both air pollution and the occurrence of PAF that fluctuate over time (e.g., meteorologic me·te·or·ol·o·gy n. The science that deals with the phenomena of the atmosphere, especially weather and weather conditions. [French météorologie, from Greek conditions) are possible confounders. We defined case periods by the detection time of each confirmed episode of PAF, rounded to the nearest hour. We matched control periods on weekday and hour of the day within the same calendar month (Lumley and Levy 2000). We calculated average pollution concentrations and weather conditions during the hour and during the 24 hours before the case and control time periods for this analysis. Conditional logistic regression models, including the mean pollutant concentration in the hour of the arrhythmia (lag hour 0) and natural splines [3 degrees of freedom (df)] for the mean temperature, dew point dew point: see dew. , and barometric pressure in the 24 hr before the arrhythmia, were run separately for each pollutant (P[M.sub.2.5], black carbon, N[O.sub.2], CO, S[O.sub.2] and [0.sub.3]). Different individuals may have different cardiac responses to pollution, based on their clinical history and genetic characteristics. Therefore, we included a frailty term (Therneau and Grambsch 2000) for each subject (akin to a random intercept) in all the above models. Odds ratios (ORs), 95% confidence intervals (CIs), and p-values for statistical significance testing are presented for an interquartile range In descriptive statistics, the interquartile range (IQR), also called the midspread, middle fifty and middle of the #s, is a measure of statistical dispersion, being equal to the difference between the third and first quartiles. increase in each pollutant. We considered associations with longer exposures before the PAF episode using the mean of the pollutant in the previous 24 hr (lag hours 0-23). To assess the sensitivity of our results to the influence of outliers, we reran re·ran v. Past tense and past participle of rerun. analyses, trimming the highest 5% and lowest 5% of air pollution concentrations. For [O.sub.3], which has a strong seasonal pattern, we examined whether the association between PAF and [0.sub.3] concentration was limited to the 6 months with the highest mean ambient temperature Outside temperature at any given altitude, preferably expressed in degrees centigrade. (May-October) by adding an [O.sub.3]/warm month interaction term to the conditional logistic regression model. We assessed the linearity of the PAF and [0.sub.3] association by replacing the linear air pollution term with a penalized pe·nal·ize tr.v. pe·nal·ized, pe·nal·iz·ing, pe·nal·iz·es 1. To subject to a penalty, especially for infringement of a law or official regulation. See Synonyms at punish. 2. spline In computer graphics, a smooth curve that runs through a series of given points. The term is often used to refer to any curve, because long before computers, a spline was a flat, pliable strip of wood or metal that was bent into a desired shape for drawing curves on paper. See Bezier and B-spline. (3 df) in the conditional logistic regression model. We plotted the covariate adjusted log OR for the risk of PAF in the spline and linear models versus 1-hr [0.sub.3] concentration. We used SAS (1) (SAS Institute Inc., Cary, NC, www.sas.com) A software company that specializes in data warehousing and decision support software based on the SAS System. Founded in 1976, SAS is one of the world's largest privately held software companies. See SAS System. (version 9.1; SAS Institute SAS Institute Inc., headquartered in Cary, North Carolina, USA, has been a major producer of software since it was founded in 1976 by Anthony Barr, James Goodnight, John Sall and Jane Helwig. Inc., Cary, NC) software to construct all datasets and to calculate descriptive statistics descriptive statistics see statistics. . We used S-Plus 6.2 (Insightful Inc., Seattle, WA) software for all modeling. Results There were 203 ICD patients enrolled in the study who lived within 40 km of the Harvard School of Public Health with a mean ([+ or -] SD) follow-up time of 3.1 [+ or -] 1.8 years (maximum = 7.0 years). Ninety-five patients had a total of 1,574 recorded ICD events, 933 of which were separated by > 1 hr. Ninety-one (9.8 %) of these events, among 29 subjects, were confirmed episodes of PAF. Because P[M.sub.2.5] and black carbon were not measured during the entire study period, analyses of P[M.sub.2.5] included at most 52 episodes of PAF from 22 subjects, and analyses of black carbon included at most 46 episodes of PAF from 18 subjects. The 29 subjects with PAF episodes were primarily male (79%) and white (79%), and they ranged in age from 45 to 78 years (mean, 65 years). At their first clinic follow-up visit, 69% of subjects were listed as being prescribed beta-blockers, 57% digoxin, and 24% other antiarrhythmics (i.e., amiodarone, quinidine quinidine (kwĭn`ĭdēn'), heart muscle relaxant used to maintain regular heart rhythm patterns. It is an alkaloid chemically similar to quinine and, like quinine, occurs naturally in some species of cinchona trees. , sotalol, or mexilitine). Two subjects (7%) were not prescribed any of these medications. The most common diagnoses at implantation were coronary artery disease coronary artery disease, condition that results when the coronary arteries are narrowed or occluded, most commonly by atherosclerotic deposits of fibrous and fatty tissue. (76%) and idiopathic cardiomyopathy Idiopathic cardiomyopathy Cardiomyopathy without a known cause. Mentioned in: Congestive Cardiomyopathy, Heart Failure idiopathic cardiomyopathy (22%). Before ICD implantation, 55% of subjects had left ventricular ejection fractions < 35%. Subjects' ICDs were programmed with ventricular tachycardia detection rates (i.e., ventricular rate threshold above which the electrogram and date/time for a tachyarrhythmia would be recorded) that had a 10th to 90th percentile range of 140 to 200 beats/min (median = 175). Of the 29 subjects who experienced at least one episode of PAF, 15 (52%) experienced >1 event, while 2 (7%) experienced [greater than or equal to] 10. Twenty (69%) also experienced a ventricular arrhythmia during follow-up. Episodes of PAF were more frequent in the late morning (0900-1100 hr), with a smaller evening peak (1800-2000 hr). The distributions of air pollution concentrations and meteorologic characteristics in Boston during the study period, averaged hourly and daily, are summarized in Table 1. The highest average P[M.sub.2.5] and black carbon concentrations were observed early in the morning (0600-0800 hr), highest NO2 in the early morning (0600-0800 hr) and early evening (1600-2100 hr), and highest [0.sub.3] at midday (1200-1400 hr). Further detail has been provided previously (Dockery et al. 2005b). We found a statistically significant increased risk of PAF associated with mean [0.sub.3] concentration in the concurrent hour (lag hour 0; Table 2). The estimated relative odds for the 24-hr moving average concentration was positive (OR > 1), but not statistically significant. We did not find statistically significant associations with any other pollutant in the concurrent hour, but associations were positive for P[M.sub.2.5] and N[O.sub.2]. Risk estimates for 24-hr average P[M.sub.2.5], N[O.sub.2], and black carbon were positive, but none was statistically significant. Risk estimates for 24-hr average CO and S[O.sub.2] were protective (OR < 1), but neither was statistically significant (Table 2). For [0.sub.3] in the concurrent hour, there was little change in risk of PAF when we excluded the top 5% and bottom 5% of concentrations (OR = 2.15, 95% CI = 1.04-4.44, p = 0.04). The association between PAF and 03 in the concurrent hour in the cold months (OR = 2.21; 95% CI = 0.98-4.98; p = 0.06) was comparable to that in the warm months (OR = 1.98; 95% CI = 1.05-3.73; p = 0.04), with no significant interaction (p = 0.84). Figure 1 shows the covariate adjusted log OR for the risk of PAF versus 1-hr [0.sub.3] concentration modeled using first a linear term and then a penalized spline (3 df). We found no evidence of a deviation from linearity (non-linear term, p = 0.63). Discussion In a study designed to assess the association of ambient air pollution with ventricular arrhythmias among ICD patients, 91 of the ICD-detected episodes were identified by electrophysiologist review as PAF. Although these episodes of PAF were likely an underrepresentation of all those PAF episodes experienced by these patients, they provided a unique opportunity to assess associations between air pollution and episodes of PAF. We found a statistically significant 2-fold increase in risk of PAF episodes associated with each 22-ppb increase in mean ambient 03 concentration in the concurrent hour. We found no evidence that this association was nonlinear. An earlier study reported a 10.5% increase in supraventricular ectopy (- 3.5 beats/hr increase in supraventricular ectopy compared to the population mean rate of supraventricular ectopy) associated with each 7-[micro]g/[m.sup.3] increase in ambient [PM.sub.10] (particulate matter < 10 [micro]m in aerodynamic diameter) concentration in a panel of chronic obstructive pulmonary disease chronic obstructive pulmonary disease n. Abbr. COPD A chronic lung disease, such as asthma or emphysema, in which breathing becomes slowed or forced. patients (Brauer et al. 2001). They reported smaller increases in supraventricular ectopy associated with outdoor and personal [PM.sub.2.5] and sulfates. Our findings identify ambient air pollution as a potential precipitant of supraventricular arrhythmias. Atrial fibrillation is the most common supraventricular arrhythmia. At least 2.3 million adults in the United States have some form of atrial fibrillation (Go et al. 2001), and this number is likely an underestimate because many people with this condition are asymptomatic (Chugh et al. 2001). The incidence of atrial fibrillation doubles with each decade of adult life (Falk 2001). Although atrial fibrillation is not usually considered a lethal rhythm, it is associated with premature mortality and increased risk for hospitalization and stroke (Wolf et al. 1998; Benjamin et al. 1998). If not on antithrombotic therapy, people with atrial fibrillation have a 5-fold increased risk of stroke (Ryder and Benjamin 1999). Therefore, even a modest risk of atrial fibrillation associated with acute exposure to elevated ambient air pollution in the general population would have a substantial attributable risk attributable risk Epidemiology Any factor which ↑ the risk of suffering a particular condition. See Relative risk, Risk factor. Cf Nonattributable risk Statistics The rate of a disorder in exposed subjects that is attributable to the exposure derived from . In prior analyses in this cohort of ICD patients, we found significantly increased risk of ventricular arrhythmias associated with mean [PM.sub.2.5] and [0.sub.3] concentrations in the 24 hr before the episode (Rich et al. 2005), and marginally significant increased risk (p < 0.10) associated with mean black carbon and NO2 concentrations over the previous 2 days (Dockery et al. 2005a, 2005b). The findings of positive associations between episodes of PAF and [0.sub.3] concentration (1-hr) is consistent with these observations, although the timing (1 hr vs. 24 hr or 1 day) suggests a more rapid response to air pollution with PAF. [0.sub.3] is an acute lung irritant ir·ri·tant adj. Causing irritation, especially physical irritation. n. A source of irritation. irritant, n 1. an agent that causes an irritation or stimulation. 2. that has been associated with acute myocardial infarction acute myocardial infarction (  ·kyōōtˑ mī·ō·karˑ·dē· (Ruidavets et al. 2005), decreased lung
function, exacerbation of asthma or other respiratory conditions,
increased hospitalizations, and premature mortality (Thurston and Ito
1999). [0.sub.3] is a highly reactive oxidant oxidant /ox·i·dant/ (ok´si-dant) the electron acceptor in an oxidation-reduction (redox) reaction. ox·i·dant n. See oxidizer. formed by photochemical reactions in the atmosphere. [0.sub.3] concentrations are highest on warm sunny days, and highest during the afternoon hours. However, we found a statistically significant association with [0.sub.3] after adjustment for temperature, and we found no evidence that the [0.sub.3] associations were restricted to the six warmest months. We also found positive associations with [PM.sub.2.5], N[O.sub.2], and black carbon, but the CIs were wide and the risk estimates were not statistically significant. The number of PAF episodes with matching [0.sub.3] and N[O.sub.2] concentrations was small (n = 90), and they were even smaller for [PM.sub.2.5] (n = 52) and black carbon (n = 46), which resulted in reduced power to detect any associations. Thus, this small number of confirmed PAF episodes dictates caution in our interpretation of specific associations. Although we have highlighted the association with [0.sub.3] in the concurrent hour, it would be premature to attribute the increased risk of PAF to [0.sub.3] alone. We suggest that community air pollution may be associated with the incidence of PAF. Confirmation of this association and examination of associations with specific pollutants requires a larger number of confirmed PAF episodes. A problem in studying incidence of PAF is the definition of time of onset of new episodes. Although the ICD device provides a detection time for each episode of PAF, this is the time that the ventricular rate (responding to the atrial stimulus) exceeded the patient's specific programmed criteria for a tachyarrhythmia. The PAF episode may have started earlier than the time recorded by the ICD. This situation would lead to mismatching of air pollution concentrations to case and control time periods. However, this exposure misclassification would be nondifferential with respect to case/control status. Therefore, it would have resulted in a bias toward the null, underestimates of risk, and wide CIs. Episodes of PAF also may have been misclassified. However, any outcome misclassification, if present, was likely independent of air pollution levels and nondifferential. This misclassification would have produced wider CIs, a bias toward the null, and underestimates of risk. Our analysis was limited to a subset of all PAF episodes that these subjects experienced. PAF episodes with ventricular response rates that remained below the ICD's preset detection criteria for the duration of the arrhythmia would not have been recorded. These under-detected episodes likely represented a substantial fraction of the PAF episodes experienced by these patients. However, we used the case--crossover method, where each person serves as his or her own control, and event times are contrasted with matched control times. Such misclassification would have resulted in a loss of power, but no bias in our risk estimates. Whether our finding of an association between transient ambient air pollution concentrations and PAF is limited to this particular subset of PAF episodes, however, is unknown. New studies using devices programmed to detect a wider range of PAF episodes with more precise data on the timing of arrhythmia initiation are required to confirm and quantify this association further. REFERENCES Albert CM, Mittleman MA, Chae CU, Lee IM, Hennekens CH, Manson JE. 2000. Triggering of sudden death from cardiac causes by vigorous exertion. New Eng J Mad 343(19):1355-1361. Benjamin EJ, Wolf PA, D'Agostino RB, Silbershatz H, Kannel WB, Levy D. 1998. Impact of atrial fibrillation on the risk of death: the Framingham Heart Study The Framingham Heart Study is a cardiovascular study based in Framingham, Massachusetts. The study began in 1948 with 5,209 adult subjects from Framingham, and is now on its third generation of participants. . Circ 98(10):945-952. Brauer M, Ebelt ST, Fisher TV, Brumm J, Petkau AJ, Vedal S. 2001. Exposure of chronic obstructive pulmonary disease patients to particles: respiratory and cardiovascular health effects. J Exp Anal Environ Epidemiol 11:490-500. Chugh SS, Blackshear JL, Shen Shen, in the Bible, place, perhaps close to Bethel, near which Samuel set up the stone Ebenezer. WK, Hammill SC, Gersh BJ. 2001. Epidemiology and natural history of atrial fibrillation: clinical implications. JACC JACC Journal of the American College of Cardiology JACC Java Authorization Contract for Containers JACC Joint Automatic Control Conference JACC Journal Access Core Collection JACC Joint Ambulatory Care Clinic JACC joint airspace control center 37(2):371-378. D'Ippoliti D, Forastiere F, Ancona C, Agabiti N, Fusco D, Michelozzi P, et al. 2003. Air pollution and myocardial infarction myocardial infarction: see under infarction. in Rome: a case-crossover analysis. Epidemiol 14(5):528-535. Dockery DW, Luttmann-Gibson H, Rich DQ, Link MS, Mittleman MA, Gold DR, et al. 2005a. Association of particulate air pollution with arrhythmias recorded by implantable cardioverter defibrillators. Environ Health Perspect 113:670-674. Dockery DW, Luttmann-Gibson H, Rich DQ, Link MS, Schwartz JD, Gold DR, et al. 2005b. Particulate Air Pollution and Nonfatal Cardiac Events, Part II. Association of Air Pollution with Confirmed Arrhythmias Recorded by implanted Defibrillators. HEI HEI Higher Education Institution (UK) HEI Health Effects Institute HEI Hautes Études Internationales HEI House Ear Institute HEI Healthy Eating Index HEI Hautes Etudes d'Ingénieur HEI High-Explosive Incendiary Research Report 124. Boston, MA:Health Effects Institute The Health Effects Institute (HEI) is a non-partisan, non-profit corporation specializing in research on the health effects of air pollution. It is headquartered in Charlestown, Massachusetts, USA. . Falk RH. 2001. Atrial fibrillation. New Engl J Med 344(14): 1067-1078. Go AS, Reed GL, Hylek EM, Phillips KA, Liu L, Hanault LE, et al. 2001. Prevalence of diagnosed atrial fibrillation in adults: national implications for rhythm management and stroke prevention: the AnTicoagulation and Risk Factors in Atrial Fibrillation (ATRIA Atria The heart has four chambers. The right and left atria are at the top of the heart and receive returning blood from the veins. The right and left ventricles are at the bottom of the heart and act as the body's main pumps. ) Study. JAMA JAMA abbr. Journal of the American Medical Association 285(18):2370-2375. Hallqvist J, Moiler J, Ahlbom A, Diderichsen F, Reuterwall C, de Faire U. 2000. Does heavy physical exertion trigger myocardial infarction? A case-crossover analysis nested in a population-based case-referent study. Am J Epidemiol 151(5):459-467. Kanel WB, Abbott RD, Savage DD, McNamara PM. 1983. Coronary heart disease coronary heart disease: see coronary artery disease. coronary heart disease or ischemic heart disease Progressive reduction of blood supply to the heart muscle due to narrowing or blocking of a coronary artery (see atherosclerosis). and atrial fibrillation: the Framingham Study. Am Heart J 106(2):389-396. Lumley T, Levy D. 2000. Bias in the case-crossover design: implications for studies of air pollution. Environmetrics 11:689-704. Maclure M. 1991. The case-crossover design: a method for studying transient effects on the risks of acute effects. Am J Epidemiol 133:144-153. Mittleman MA, Maclure M, Sherwood JB, Mulry RP, Tofler GH, Jacobs SC, et al. 1995. Triggering of acute myocardial infarction onset by episodes of anger. Determinants of Myocardial Infarction Onset Study investigators. Circulation 92(7):1720-1725. Peters A, Dockery DW, Muller JE, Mittleman MA. 2000a. Is the onset of myocardial infarction triggered by ambient fine particles? Circulation 98:194-200. Peters A, Liu E, Verrier RL, Schwartz J, Gold DR, Mittleman M, et al. 2000b. Air pollution and incidence of cardiac arrhythmia. Epidemiology 11:11-17. Prystowsky EN, Benson Jr DW, Fuster V, Hart RG, Kay GN, Myerburg RJ, et al. 1996. Management of patients with atrial fibrillation: a statement for healthcare professionals from the subcommittee on electrocardiography electrocardiography (ĭlĕk'trōkärdēŏg`rəfē), science of recording and interpreting the electrical activity that precedes and is a measure of the action of heart muscles. and electrophysiology, American Heart Association American Heart Association (AHA), n.pr a national voluntary health agency that has the goal of increasing public and medical awareness of cardiovascular diseases and stroke, and thereby reducing the number of associated deaths and disabilities. . Circulation 93(6):1262-1277. Rich DQ, Schwartz J, Mittleman MA, Link M, Luttmann-Gibson H, Catalano PJ, et al. 2005. Association of ambient air pollution and ICD-detected ventricular arrhythmias in Boston, MA. Am J Epidemiol 161:1123-1132. Ruidavets J-B, Cournot MC, Cassadou S, Giroux M, Meybeck M, Ferrieres J. 2005. Ozone air pollution is associated with acute myocardial infarction. Circulation 111:563-569. Ryder KM, Benjamin EJ. 1999. Epidemiology and significance of atrial fibrglation. Am J Cardiol 84(9A):131R-138R. Schwartz J. 2000. The distributed lag between air pollution and daily deaths. Epidemiology 11:320-326. Therneau TM, Grambsch PM. 2000. Frailty models. In: Modeling Survival Data: Extending the Cox Model (Statistics for Biology and Health). New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of :Springer, 231-260. Thurston GD, Ito K. 1999. Epidemiologic studies of ozone exposure effects. In: Air Pollution and Health (Holgate ST, Samet JM, Koren HS, Maynard RL, eds). San Diego, CA:Academic Press, 485-510. Wolf PA, Mitchell JB, Baker CS, Kannel WB, D'Agostino RB. 1998. impact of atrial fibrillation on mortality, stroke, and medical costs. Arch Int Med 158(3):229-234. The Health Effects Institute (grant 98-14) and the National Institute of Environmental Health Sciences The National Institute of Environmental Health Sciences (NIEHS) is one of 27 Institutes and Centers of the National Institutes of Health (NIH),which is a component of the Department of Health and Human Services (DHHS). The Director of the NIEHS is Dr. David A. Schwartz. (NIEHS NIEHS National Institute of Environmental Health Sciences (NIH, DHHS) ; grants ES-09825 and ES00002) funded this study. Particulate air pollution measurements were supported in part by the Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and (grant R827353). D.R. received support from an NIEHS Training Grant (5T32 ES007069). The authors declare they have no competing financial interests. David Q. Rich, (1,2) Murray A. Mittleman, (2,3) Mark S. Link, (4) Joel Schwartz, (1,2,5) Heike Luttmann-Gibson, (1) Paul J. Catalano, (6,7) Frank E. Speizer, (1,5) Diane R. Gold, (1,5) and Douglas W. Dockery (1,2,5) (1) Department of Environmental Health, Harvard School of Public Health, Boston, Massachusetts, USA; (2) Department of Epidemiology, Harvard School of Public Health, Boston, Massachusetts, USA; (3) Beth Israel Deaconess Medical Center Both an international and regional referral center, Beth Israel Deaconess Medical Center (BIDMC) in Boston, Massachusetts is a major teaching hospital of Harvard Medical School. It was formed out of the 1996 merger of Beth Israel Hospital (founded in 1916) and and Harvard Medical School Harvard Medical School (HMS) is one of the graduate schools of Harvard University. It is a prestigious American medical school located in the Longwood Medical Area of the Mission Hill neighborhood of Boston, Massachusetts. , Boston, Massachusetts, USA; (4) New England Medical Center, Tufts University, Boston, Massachusetts, USA; (5) Channing Laboratory, Brigham and Women's Hospital Brigham and Women's Hospital (BWH) is a hospital in the Longwood Area of the Boston, Massachusetts neighborhood of Mission Hill. With Massachusetts General Hospital, it is one of the two founding members of Partners HealthCare. and Harvard Medical School, Boston, Massachusetts, USA; (6) Department of Biostatistics, Harvard School of Public Health, Boston, Massachusetts, USA; (7) Department of Biostatistical Science, Dana-Farber Cancer Institute, Boston, Massachusetts, USA Address correspondence to D.W. Dockery, Harvard School of Public Health, Department of Environmental Health, Landmark Suite 415 West; 401 Park Dr., Boston, MA 02115 USA. Telephone: (617) 384-8741. Fax: (617) 384-8745. E-mail: ddockery@hsph.harvard.edu Received 1 June 2005; accepted 19 September 2005.
Table 1. Boston air pollution profile, August 1995 to June 2002.
No. of hours Percentile
Parameter or days 25th 50th 75th Maximum
[PM.sub.2.5]
([micro]g/
[m.sup.3]) (a)
Hourly 48,592 5.6 9.2 15.0 84.1
Daily 2079 6.7 9.8 14.5 53.2
Black carbon
([micro]g/
[m.sup.3]) (b)
Hourly 36,789 0.44 0.77 1.35 23.93
Daily 1555 0.58 0.94 1.41 7.32
N[O.sub.2]
(ppb)
Hourly 60,555 15.8 21.7 29.0 78.8
Daily 2526 18.1 22.4 27.3 61.8
S[O.sub.2]
(ppb)
Hourly 60,620 2.6 4.3 7.5 71.6
Daily 2526 3.2 4.8 7.3 31.4
CO (ppm)
Hourly 60,091 0.46 0.73 1.04 5.83
Daily 2526 0.52 0.78 1.03 2.48
[O.sub.3]
(ppb)
Hourly 60,210 11.3 22.2 33.0 119.5
Daily 2524 15.2 22.6 30.9 77.5
Temperature
([degrees]C)
Hourly 60,449 3 11 18 36
Daily 2526 4 11 18 32
Dew point
([degrees]C)
Hourly 60,356 -3 6 13 25
Daily 2526 -2 5 13 23
Barometric
pressure
(mmHg)
Hourly 60,379 758 762 766 784
Daily 2525 758 762 766 781
Air pollution was measured hourly; total possible hours = 60,624;
total possible days = 2,526.
(a) Concentrations missing from 21 January 1998 to 15 March 1999.
(b) Concentrations missing from 30 March 1997 to 15 October 1999.
Table 2. ORs for PAF associated with an interquartile range
increase in the mean of pollutant lag hours.
Interquartile No. of No. of PAF
Mean of pollutant range Lags subjects episodes
[PM.sub.2.5] 9.4 0 22 52
([micro]/ 7.8 0-23 22 47
[m.sup.3])
Black carbon 0.91 0 18 46
([micro]/ 0.83 0-23 18 46
[m.sup.3])
N[O.sub.2] 13.2 0 28 90
(ppb) 9.2 0-23 27 89
CO (ppm) 0.58 0 28 90
0.51 0-23 28 90
S[O.sub.2] 4.9 0 28 90
(ppb) 4.1 0-23 28 90
[O.sub.3] 21.7 0 28 90
(ppb) 15.8 0-23 28 89
Mean of pollutant OR (95% CI) p-Value
[PM.sub.2.5] 1.41 (0.82-2.42) 0.22
([micro]/ 1.13 (0.63-2.03) 0.68
[m.sup.3])
Black carbon 0.81 (0.42-1.56) 0.53
([micro]/ 1.46 (0.67-3.17) 0.34
[m.sup.3])
N[O.sub.2] 1.21 (0.80-1.83) 0.37
(ppb) 1.18 (0.79-1.76) 0.43
CO (ppm) 0.87 (0.56-1.37) 0.55
0.71 (0.39-1.28) 0.25
S[O.sub.2] 1.02 (0.81-1.28) 0.87
(ppb) 0.99 (0.71-1.39) 0.97
[O.sub.3] 2.08 (1.22-3.54) 0.007
(ppb) 1.60 (0.89-2.89) 0.12
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