空氣污染對冠狀動脈心臟病病人心跳回復率及心律變異性的影響

An-Chi Hsieh; 謝安琪

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28996

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	鄭尊仁(Tsun-Jen Cheng)
dc.contributor.author	An-Chi Hsieh	en
dc.contributor.author	謝安琪	zh_TW
dc.date.accessioned	2021-06-13T00:33:55Z	-
dc.date.available	2013-10-03
dc.date.copyright	2011-10-03
dc.date.issued	2011
dc.date.submitted	2011-08-04
dc.identifier.citation	Ahmed MW, Kadish AH, Parker MA, Goldberger JJ. 1994. Effect of physiologic and pharmacologic adrenergic stimulation on heart rate variability. Journal of the American College of Cardiology 24(4): 1082-1090. Aronson D, Mittleman MA, Burger AJ. 2001. Interleukin-6 Levels are Inversely Correlated with Heart Rate Variability in Patients with Decompensated Heart Failure. Journal of Cardiovascular Electrophysiology 12(3): 294-300. Bateson TF, Schwartz J. 2004. Who Is Sensitive to the Effects of Particulate Air Pollution on Mortality? A Case-Crossover Analysis of Effect Modifiers. Epidemiology 15(2): 143-149. Bekheit S, Tangella M, el-Sakr A, Rasheed Q, Craelius W, El-Sherif N. 1990. Use of heart rate spectral analysis to study the effects of calcium channel blockers on sympathetic activity after myocardial infarction. American Heart Journal 119(1): 79-85. Berliner JA, Navab M, Fogelman AM, Frank JS, Demer LL, Edwards PA, et al. 1995. Atherosclerosis: Basic Mechanisms : Oxidation, Inflammation, and Genetics. Circulation 91(9): 2488-2496. Bigger Jr JT, Fleiss JL, Rolnitzky LM, Steinman RC. 1993. Frequency domain measures of heart period variability to assess risk late after myocardial infarction. Journal of the American College of Cardiology 21(3): 729-736. Bosquet L, Gamelin F-X, Berthoin S. 2007. Is aerobic endurance a determinant of cardiac autonomic regulation? European Journal of Applied Physiology 100(3): 363-369. Brook RD. 2008. Cardiovascular effects of air pollution. Clinical Science 115(6): 175-187. Brook RD, Brook JR, Urch B, Vincent R, Rajagopalan S, Silverman F. 2002. Inhalation of Fine Particulate Air Pollution and Ozone Causes Acute Arterial Vasoconstriction in Healthy Adults. Circulation 105(13): 1534-1536. Brook RD, Franklin B, Cascio W, Hong Y, Howard G, Lipsett M, et al. 2004. Air Pollution and Cardiovascular Disease: A Statement for Healthcare Professionals From the Expert Panel on Population and Prevention Science of the American Heart Association. Circulation 109(21): 2655-2671. Brook RD, Rajagopalan S, Pope CA, III, Brook JR, Bhatnagar A, Diez-Roux AV, et al. 2010. Particulate Matter Air Pollution and Cardiovascular Disease: An Update to the Scientific Statement From the American Heart Association. Circulation 121(21): 2331-2378. Brunekreef B, Holgate ST. 2002. Air pollution and health. The Lancet 360(9341): 1233-1242. Bruyne MCd, Kors JA, Hoes AW, Klootwijk P, Dekker JM, Hofman A, et al. 1999. Both Decreased and Increased Heart Rate Variability on the Standard 10-Second Electrocardiogram Predict Cardiac Mortality in the Elderly. American Journal of Epidemiology 150(12): 1282-1288. Chang CC, Hwang JS, Chan CC, Wang PY, Hu TH, Cheng TJ. 2005. Effects of concentrated ambient particles on heart rate variability in spontaneously hypertensive rats. Journal of Occupational Health 47(6): 471-480. Chang C-C, Hwang J-S, Chan C-C, Wang P-Y, Hu T-H, Cheng T-J. 2004. Effects of Concentrated Ambient Particles on Heart Rate, Blood Pressure, and Cardiac Contractility in Spontaneously Hypertensive Rats. Inhalation Toxicology 16(6-7): 421-429. Chen LC, Hwang J-S. 2005. Effects of Subchronic Exposures to Concentrated Ambient Particles (CAPs) in Mice: IV. Characterization of Acute and Chronic Effects of Ambient Air Fine Particulate Matter Exposures on Heart-Rate Variability. Inhalation Toxicology 17(4-5): 209-216. Chen LH, Knutsen SF, Shavlik D, Beeson WL, Petersen F, Ghamsary M, et al. 2005. The association between fatal coronary heart disease and ambient particulate air pollution: Are females at greater risk? Environmental Health Perspectives 113(12): 1723-1729. Cheng TJ, Hwang JS, Wang PY, Tsai CF, Chen CY, Lin SH, et al. 2003. Effects of concentrated ambient particles on heart rate and blood pressure in pulmonary hypertensive rats. Environmental Health Perspectives 111(2): 147-150. Chuang KJ, Chan CC, Chen NT, Su TC, Lin LY. 2005. Effects of particle size fractions on reducing heart rate variability in cardiac and hypertensive patients. Environmental Health Perspectives 113(12): 1693-1697. Cole CR, Blackstone EH, Pashkow FJ, Snader CE, Lauer MS. 1999. Heart-Rate Recovery Immediately after Exercise as a Predictor of Mortality. New England Journal of Medicine 341(18): 1351-1357. Cole CR, Foody JM, Blackstone EH, Lauer MS. 2000. Heart Rate Recovery after Submaximal Exercise Testing as a Predictor of Mortality in a Cardiovascularly Healthy Cohort. Annals of Internal Medicine 132(7): 552-555. Crouse SFP, Sterling JMD, Tolson HP, Hasson SP. 1989. The Effect of Beta-Adrenergic Blockade on Heart Rate Recovery from Exercise. [Article]. Journal of Cardiopulmonary Rehabilitation May 9(5): 202-206. de Hartog JJ, Lanki T, Timonen KL, Hoek G, Janssen NAH, Ibald-Mulli A, et al. 2009. Associations between PM2.5 and Heart Rate Variability Are Modified by Particle Composition and Beta-Blocker Use in Patients with Coronary Heart Disease. Environmental Health Perspectives 117(1): 105-111. Dogru MT, Basar MM, Simsek A, Yuvanç E, Güneri M, Ebinç H, et al. 2008. Effects of Statin Treatment on Serum Sex Steroids Levels and Autonomic and Erectile Function. Urology 71(4): 703-707. Donaldson K, Stone V, Seaton A, MacNee W. 2001. Ambient Particle Inhalation and the Cardiovascular System: Potential Mechanisms. Environmental Health Perspectives 109(ArticleType: research-article / Issue Title: Supplement 4: Inhaled Irritants and Allergens / Full publication date: Aug., 2001 / Copyright © 2001 The National Institute of Environmental Health Sciences (NIEHS)): 523-527. Electrophysiology TFotESoCtNASoP. 1996. Heart Rate Variability : Standards of Measurement, Physiological Interpretation, and Clinical Use. Circulation 93(5): 1043-1065. Esco M, Olson M, Williford H, Blessing D, Shannon D, Grandjean P. 2010. The relationship between resting heart rate variability and heart rate recovery. Clinical Autonomic Research 20(1): 33-38. Evrengul H, Tanriverdi H, Kose S, Amasyali B, Kilic A, Celik T, et al. 2006. The Relationship Between Heart Rate Recovery and Heart Rate Variability in Coronary Artery Disease. Annals of Noninvasive Electrocardiology 11(2): 154-162. Fei L, Copie X, Malik M, Camm AJ. 1996. Short- and long-term assessment of heart rate variability for risk stratification after acute myocardial infarction. The American Journal of Cardiology 77(9): 681-684. Fei L, Statters DJ, Anderson MH, Malik M, Camm AJ. 1994. Relationship Between Short- and Long-Term Measurements of Heart Rate Variahility in Patients at Risk of Sudden Cardiac Death. Pacing and Clinical Electrophysiology 17(11): 2194-2200. Franklin M, Zeka A, Schwartz J. 2006. Association between PM2.5 and all-cause and specific-cause mortality in 27 US communities. J Expos Sci Environ Epidemiol 17(3): 279-287. Galinier M, Pathak A, Fourcade J, Androdias C, Curnier D, Varnous S, et al. 2000. Depressed low frequency power of heart rate variability as an independent predictor of sudden death in chronic heart failure. European Heart Journal 21(6): 475-482. Haendeler J, Hoffmann J, Zeiher AM, Dimmeler S. 2004. Antioxidant Effects of Statins via S-Nitrosylation and Activation of Thioredoxin in Endothelial Cells. Circulation 110(7): 856-861. Helfand W, Lazarus J, Theerman P. 2001. Donora, Pennsylvania: an environmental disaster of the 20th century. Am J Public Health 91(4): 553-. Hoek G, Brunekreef B, Goldbohm S, Fischer P, van den Brandt PA. 2002. Association between mortality and indicators of traffic-related air pollution in the Netherlands: a cohort study. The Lancet 360(9341): 1203-1209. Hoffmann B, Moebus S, Mohlenkamp S, Stang A, Lehmann N, Dragano N, et al. 2007. Residential exposure to traffic is associated with coronary atherosclerosis. Circulation 116(5): 489-496. Imai K, Sato H, Hori M, Kusuoka H, Ozaki H, Yokoyama H, et al. 1994. Vagally mediated heart rate recovery after exercise is accelerated in athletes but blunted in patients with chronic heart failure. Journal of the American College of Cardiology 24(6): 1529-1535. Ito K, Mathes R, Ross Z, Nádas A, Thurston G, Matte T. 2010. Fine Particulate Matter Constituents Associated with Cardiovascular Hospitalizations and Mortality in New York City. Environ Health Perspect 119(4). Javorka M, Zila I, Balhárek T, Javorka K. 2002. Heart rate recovery after exercise: relations to heart rate variability and complexity. Brazilian Journal of Medical and Biological Research 35: 991-1000. Jouven X, Empana J-P, Schwartz PJ, Desnos M, Courbon D, Ducimetière P. 2005. Heart-Rate Profile during Exercise as a Predictor of Sudden Death. New England Journal of Medicine 352(19): 1951-1958. Kevin SJ, Robert KS. 2011. Chapter 29. Anti-Arrhythmic Drugs. In: Goodman & Gilman's The Pharmacological Basis of Therapeutics (Brunton LL CB, Knollmann BC, ed). Kim S-H, Kim M-K, Lee H-Y, Kang H-J, Kim Y-J, Kim H-S. 2011. Prospective randomized comparison between omega-3 fatty acid supplements plus simvastatin versus simvastatin alone in Korean patients with mixed dyslipidemia: lipoprotein profiles and heart rate variability. Eur J Clin Nutr 65(1): 110-116. Kjekshus JK. 1986. Importance of heart rate in determining beta-blocker efficacy in acute and long-term acute myocardial infarction intervention trials. The American Journal of Cardiology 57(12): F43-F49. Kleiger RE, Miller JP, Bigger Jr JT, Moss AJ. 1987. Decreased heart rate variability and its association with increased mortality after acute myocardial infarction. The American Journal of Cardiology 59(4): 256-262. Kolasińska-Kloch W, Furgała A, Banach T, Laskiewicz J, Thor P. 2002. Circadian heart rate variability in patients with primary arterial hypertension. Przeglad Lekarski 59(9): 752-755. Laden F, Neas LM, Dockery DW, Schwartz J. 2000. Association of fine particulate matter from different sources with daily mortality in six US cities. Environmental Health Perspectives 108(10): 941-947. Lahiri MK, Kannankeril PJ, Goldberger JJ. 2008. Assessment of Autonomic Function in Cardiovascular Disease: Physiological Basis and Prognostic Implications. J Am Coll Cardiol 51(18): 1725-1733. Lanza GA, Guido V, Galeazzi MM, Mustilli M, Natali R, Ierardi C, et al. 1998. Prognostic role of heart rate variability in patients with a recent acute myocardial infarction. The American Journal of Cardiology 82(11): 1323-1328. LAUER MS. 2009. Autonomic function and prognosis. Cleveland Clinic Journal of Medicine 76(Suppl 2): S18-S22. Lei YC, Hwang JS, Chan CC, Lee CT, Cheng TJ. 2005. Enhanced oxidative stress and endothelial dysfunction in streptozotocin-diabetic rats exposed to fine particles. Environmental Research 99(3): 335-343. Leuenberger U, Sinoway L, Gubin S, Gaul L, Davis D, Zelis R. 1993. Effects of exercise intensity and duration on norepinephrine spillover and clearance in humans. Journal of Applied Physiology 75(2): 668-674. Lipsett MJ, Tsai FC, Roger L, Woo M, Ostro BD. 2006. Coarse particles and heart rate variability among older adults with coronary artery disease in the Coachella Valley, California. Environmental Health Perspectives 114(8): 1215-1220. Logan WPD. 1953. MORTALITY IN THE LONDON FOG INCIDENT, 1952. Lancet 264(FEB14): 336-338. Lopez-Jimenez F, Cortes-Bergoderi M. 2011. Obesity and the Heart. Revista Espanola De Cardiologia 64(2): 140-149. Mann JK, Tager IB, Lurmann F, Segal M, Quesenberry CP, Lugg MM, et al. 2002. Air pollution and hospital admissions for ischemic heart disease in persons with congestive heart failure or arrhythmia. Environmental Health Perspectives 110(12): 1247-1252. Mary MJ, John KP. 2009. Chapter 35. Agents Used in Dyslipidemia. In: Basic & Clinical Pharmacology (BG K, ed). Menezes Júnior AdS, Moreira HG, Daher MT. 2004. Análise da variabilidade da freqüência cardíaca em pacientes hipertensos, antes e depois do tratamento com inibidores da enzima conversora da angiotensina II. Arquivos Brasileiros de Cardiologia 83: 165-168. Michael S. 2011. Chapter 11. Systemic Hypertension. In: CURRENT Medical Diagnosis & Treatment 2011 (McPhee SJ PM, ed). Miller KA, Siscovick DS, Sheppard L, Shepherd K, Sullivan JH, Anderson GL, et al. 2007. Long-term exposure to air pollution and incidence of cardiovascular events in women. New England Journal of Medicine 356(5): 447-458. Murray CJL, Lopez AD. 1997. Global mortality, disability, and the contribution of risk factors: Global Burden of Disease Study. The Lancet 349(9063): 1436-1442. Mutlu GM, Green D, Bellmeyer A, Baker CM, Burgess Z, Rajamannan N, et al. 2007. Ambient particulate matter accelerates coagulation via an IL-6–dependent pathway. The Journal of Clinical Investigation 117(10): 2952-2961. Nemery B, Hoet PHM, Nemmar A. 2001. The Meuse Valley fog of 1930: an air pollution disaster. The Lancet 357(9257): 704-708. Niemela M, Airaksinen K, Huikuri H. 1994. Effect of beta-blockade on heart rate variability in patients with coronary artery disease. J Am Coll Cardiol 23(6): 1370-1377. Nolan J, Batin PD, Andrews R, Lindsay SJ, Brooksby P, Mullen M, et al. 1998. Prospective Study of Heart Rate Variability and Mortality in Chronic Heart Failure : Results of the United Kingdom Heart Failure Evaluation and Assessment of Risk Trial (UK-Heart). Circulation 98(15): 1510-1516. Nuvolone D, Balzi D, Chini M, Scala D, Giovannini F, Barchielli A. 2011. Short-Term Association Between Ambient Air Pollution and Risk of Hospitalization for Acute Myocardial Infarction: Results of the Cardiovascular Risk and Air Pollution in Tuscany (RISCAT) Study. American Journal of Epidemiology 174(1): 63-71. OHUCHI H, SUZUKI H, YASUDA K, ARAKAKI Y, ECHIGO S, KAMIYA T. 2000. Heart Rate Recovery after Exercise and Cardiac Autonomic Nervous Activity in Children. Pediatric Research 47(3): 329-335. Osterziel KJ, Dietz R, Werner S, Mikulaschek K, Manthey J, Kübler W. 1990. ACE inhibition improves vagal reactivity in patients with heart failure. American Heart Journal 120(5): 1120-1129. Park SK, O’Neill MS, Vokonas PS, Sparrow D, Schwartz J. 2004. Effects of Air Pollution on Heart Rate Variability: The VA Normative Aging Study. Environ Health Perspect 113(3). Pemberton VL, McCrindle BW, Barkin S, Daniels SR, Barlow SE, Binns HJ, et al. 2010. Report of the National Heart, Lung, and Blood Institute's Working Group on Obesity and Other Cardiovascular Risk Factors in Congenital Heart Disease. Circulation 121(9): 1153-1159. Perini R, Orizio C, Comandè A, Castellano M, Beschi M, Veicsteinas A. 1989. Plasma norepinephrine and heart rate dynamics during recovery from submaximal exercise in man. European Journal of Applied Physiology and Occupational Physiology 58(8): 879-883. Peters A, Dockery DW, Muller JE, Mittleman MA. 2001. Increased Particulate Air Pollution and the Triggering of Myocardial Infarction. Circulation 103(23): 2810-2815. Peters A, Perz S, Döring A, Stieber J, Koenig W, Wichmann HE. 1999. Increases in Heart Rate during an Air Pollution Episode. American Journal of Epidemiology 150(10): 1094-1098. Pierpont GL, Stolpman DR, Gornick CC. 2000. Heart rate recovery post-exercise as an index of parasympathetic activity. Journal of the Autonomic Nervous System 80(3): 169-174. Pomeranz B, Macaulay RJ, Caudill MA, Kutz I, Adam D, Gordon D, et al. 1985. Assessment of autonomic function in humans by heart rate spectral analysis. American Journal of Physiology - Heart and Circulatory Physiology 248(1): H151-H153. Ponikowski MDP, Anker MDSD, Chua MDTP, Szelemej MDR, Piepoli MDM, Adamopoulos MDS, et al. 1997. Depressed Heart Rate Variability as an Independent Predictor of Death in Chronic Congestive Heart Failure Secondary to Ischemic or Idiopathic Dilated Cardiomyopathy. The American Journal of Cardiology 79(12): 1645-1650. Pope CA, Dockery DW. 2006. Health effects of fine particulate air pollution: Lines that connect. Journal of the Air & Waste Management Association 56(6): 709-742. Pope CA, III, Muhlestein JB, May HT, Renlund DG, Anderson JL, Horne BD. 2006. Ischemic Heart Disease Events Triggered by Short-Term Exposure to Fine Particulate Air Pollution. Circulation 114(23): 2443-2448. Puett RC, Hart JE, Yanosky JD, Paciorek C, Schwartz J, Suh H, et al. 2009. Chronic Fine and Coarse Particulate Exposure, Mortality, and Coronary Heart Disease in the Nurses' Health Study. Environmental Health Perspectives 117(11): 1697-1701. Puett RC, Schwartz J, Hart JE, Yanosky JD, Speizer FE, Suh H, et al. 2008. Chronic Particulate Exposure, Mortality, and Coronary Heart Disease in the Nurses' Health Study. American Journal of Epidemiology 168(10): 1161-1168. Ren C, O'Neill MS, Park SK, Sparrow D, Vokonas P, Schwartz J. 2011. Ambient Temperature, Air Pollution, and Heart Rate Variability in an Aging Population. American Journal of Epidemiology 173(9): 1013-1021. Robinson BF, Epstein SE, Beiser GD, Braunwald E. 1966. Control of Heart Rate by the Autonomic Nervous System: Studies in Man on the Interrelation Between Baroreceptor Mechanisms and Exercise. Circ Res 19(2): 400-411. Sandrone G, Mortara A, Torzillo D, La Rovere MT, Malliani A, Lombardi F. 1994. Effects of beta blockers (atenolol or metoprolol) on heart rate variability after acute myocardial infarction. The American Journal of Cardiology 74(4): 340-345. Santo D, Antony GH, Massimo C, Bernard GJ. 2008. Chapter 61. Pharmacologic Therapy for Acute Coronary Syndromes. In: Hurst's The Heart (Fuster V ORR, Walsh RA, Poole-Wilson P, Eds. King SB, Roberts R, Nash IS, Prystowsky EN, ed). Sarnat SE, Coull BA, Schwartz J, Gold DR, Suh HH. 2005. Factors Affecting the Association between Ambient Concentrations and Personal Exposures to Particles and Gases. Environ Health Perspect 114(5). Sarnat SE, Suh HH, Coull BA, Schwartz J, Stone PH, Gold DR. 2006. Ambient particulate air pollution and cardiac arrhythmia in a panel of older adults in Steubenville, Ohio. Occupational and Environmental Medicine 63(10): 700-706. Savin WM, Davidson DM, Haskell WL. 1982. Autonomic contribution to heart rate recovery from exercise in humans. Journal of Applied Physiology 53(6): 1572-1575. Schneider A, Hampel R, Ibald-Mulli A, Zareba W, Schmidt G, Schneider R, et al. 2010. Changes in deceleration capacity of heart rate and heart rate variability induced by ambient air pollution in individuals with coronary artery disease. Particle and Fibre Toxicology 7. Schwartz J. 1991. Particulate air pollution and daily mortality in detroit. Environmental Research 56(2): 204-213. Schwartz J, Dockery DW. 1992. PARTICULATE AIR-POLLUTION AND DAILY MORTALITY IN STEUBENVILLE, OHIO. American Journal of Epidemiology 135(1): 12-19. Schwartz J, Park SK, O'Neill MS, Vokonas PS, Sparrow D, Weiss S, et al. 2005. Glutathione-S-Transferase M1, Obesity, Statins, and Autonomic Effects of Particles: Gene-by-Drug-by-Environment Interaction. Am J Respir Crit Care Med 172(12): 1529-1533. Schwartz PJMD, La Rovere MTMD, Vanoli EMD. 1992. Autonomic Nervous System and Sudden Cardiac Death: Experimental Basis and Clinical Observations for Post-Myocardial Infarction Risk Stratification. [Miscellaneous]. Circulation January 85(1): I-91. Shetler K, Marcus R, Froelicher VF, Vora S, Kalisetti D, Prakash M, et al. 2001. Heart rate recovery: validation and methodologic issues. Journal of the American College of Cardiology 38(7): 1980-1987. Simkhovich BZ, Kleinman MT, Kloner RA. 2008. Air Pollution and Cardiovascular Injury: Epidemiology, Toxicology, and Mechanisms. Journal of the American College of Cardiology 52(9): 719-726. Stafoggia M, Schwartz J, Forastiere F, Perucci CA. 2008. Does Temperature Modify the Association between Air Pollution and Mortality? A Multicity Case-Crossover Analysis in Italy. American Journal of Epidemiology 167(12): 1476-1485. Stieb DM, Judek S, Burnett RT. 2002. Meta-analysis of time-series studies of air pollution and mortality: Effects of gases and particles and the influence of cause of death, age, and season. Journal of the Air & Waste Management Association 52(4): 470-484. Sunyer J, Ballester F, Tertre AL, Atkinson R, Ayres JG, Forastiere F, et al. 2003. The association of daily sulfur dioxide air pollution levels with hospital admissions for cardiovascular diseases in Europe (The Aphea-II study). European Heart Journal 24(8): 752-760. Szramka M, Harriss L, Ninnio D, Windebank E, Brack J, Skiba M, et al. 2007. The effect of rapid lipid lowering with atorvastatin on autonomic parameters in patients with coronary artery disease. International Journal of Cardiology 117(2): 287-291. Timonen KL, Vanninen E, de Hartog J, Ibald-Mulli A, Brunekreef B, Gold DR, et al. 2005. Effects of ultrafine and fine particulate and gaseous air pollution on cardiac autonomic control in subjects with coronary artery disease: The ULTRA study. J Expos Sci Environ Epidemiol 16(4): 332-341. Unverdorben M, van der Bijl A, Potgieter L, Venter C, Munjal S, Qiwei Liang, et al. 2008. Effects of Different Levels of Cigarette Smoke Exposure on Prognostic Heart Rate and Rate—Pressure-Product Parameters. Journal of Cardiovascular Pharmacology and Therapeutics 13(3): 175-182. Vaage-Nilsen M, Rasmusssen V. 1998. Effect of Verapamil on Heart Rate Variability After an Acute Myocardial Infarction. Cardiovascular Drugs and Therapy 12(3): 285-290. Violante FS, Barbieri A, Curti S, Sanguinetti G, Graziosi F, Mattioli S. 2006. Urban atmospheric pollution: Personal exposure versus fixed monitoring station measurements. Chemosphere 64(10): 1722-1729. von Klot S, Peters A, Aalto P, Bellander T, Berglind N, D'Ippoliti D, et al. 2005. Ambient Air Pollution Is Associated With Increased Risk of Hospital Cardiac Readmissions of Myocardial Infarction Survivors in Five European Cities. Circulation 112(20): 3073-3079. Wheeler A, Zanobetti A, Gold DR, Schwartz J, Stone P, Suh HH. 2006. The relationship between ambient air pollution and heart rate variability differs for individuals with heart and pulmonary disease. Environmental Health Perspectives 114(4): 560-566. Yusuf S, Reddy S, Ounpuu S, Anand S. 2001. Global Burden of Cardiovascular Diseases: Part I: General Considerations, the Epidemiologic Transition, Risk Factors, and Impact of Urbanization. Circulation 104(22): 2746-2753. Zanobetti A, Canner MJ, Stone PH, Schwartz J, Sher D, Eagan-Bengston E, et al. 2004. Ambient Pollution and Blood Pressure in Cardiac Rehabilitation Patients. Circulation 110(15): 2184-2189. Zanobetti A, Franklin M, Koutrakis P, Schwartz J. 2009. Fine particulate air pollution and its components in association with cause-specific emergency admissions. Environmental Health 8(1): 58. Zanobetti A, Gold DR, Stone PH, Suh HH, Schwartz J, Coull BA, et al. 2010. Reduction in Heart Rate Variability with Traffic and Air Pollution in Patients with Coronary Artery Disease. Environmental Health Perspectives 118(3): 324-330. Zanobetti A, Schwartz J. 2005. The effect of particulate air pollution on emergency admissions for myocardial infarction: A multicity case-crossover analysis. Environmental Health Perspectives 113(8): 978-982. Zeka A, Sullivan JR, Vokonas PS, Sparrow D, Schwartz J. 2006. Inflammatory markers and particulate air pollution: characterizing the pathway to disease. International Journal of Epidemiology 35(5): 1347-1354. 行政院環境保護署。空氣污染指標。線上檢索日期：2011年8月1日。行政院環境保護署網頁。網址：http://taqm.epa.gov.tw/taqm/zh-tw/b0201.aspx 行政院環境保護署。各項污染物。線上檢索日期：2011年8月1日。行政院環境保護署網頁。網址：http://taqm.epa.gov.tw/taqm/zh-tw/b0202.aspx 行政院環境保護署/國家科學委員會（2010）。99年度「環保署/國科會空污防制科研合作計畫」期末報告：空氣品質標準檢討評估、細懸浮微粒空氣品質標準研訂計畫。陳德安2007，「嘉義地區臭氧成因探討」，國立台灣大學環境工程學研究所碩士論文。
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/28996	-
dc.description.abstract	過去研究證實短期及長期的空氣污染暴露會導致不良健康效應增加，特別是在呼吸道與心血管疾病方面，而心血管疾病則為台灣人們近代死亡原因的主因之一。已知空氣污染會透過影響心臟自律神經功能的調控，而增加心血管疾病發生率及死亡率的風險，文獻顯示心跳回復率（Heart Rate Recovery, HRR）與心率變異性（Heart Rate Variability, HRV）均可作為自律神經功能的健康指標，然而過去研究多探討空氣污染對心律變異性的影響，而未有空氣污染與心跳恢復率關係之研究，因此本研究欲探討空氣污染對冠心病病人心跳恢復率及心律變異性之效應。　　我們收集台灣嘉義地區57位冠心病病人，每三個月追蹤一次，共四次無徵狀跑步機運動測試（Symptom-limited Exercise Treadmill Test）及心電圖測試資料，每分鐘心跳恢復率定義為受試者運動期間最大心跳數減掉運動過後每分鐘心跳數之差值。根據環保署空氣品質監測站之數據，分別計算嘉義鄰近測站主要空氣污染物（CO、NO2、SO2、O3、PM10和PM2.5）以及溫濕度的每日平均值，並利用1至5天的移動平均值(Moving-average)及1至5天的單日延遲（Single-lag）平均濃度作為不同暴露情形的評估。本研究以混合效應統計模式（Mixed Effects Model)來評估空氣污染物對冠心病病人心跳恢復率及心律變異性的效應，並進一步加入第二種空氣污染物來探討不同空氣污染物間造成的干擾及其效應（Two Pollutants Model）。　　研究結果顯示每增加一個四分位差之二氧化硫濃度的暴露會使得第一到第六分鐘的心跳回復率顯著下降，且具有累積效應及延遲效應，即便控制臭氧的影響，效應仍存在第一分鐘心跳回復率，而懸浮微粒（PM10）濃度的暴露增加亦會使前兩分鐘的心跳回復率顯著下降。大氣微粒（PM10和PM2.5）在暖季對心跳回復率的影響較冷季來得大，依據不同風向對第一分鐘心跳回復率的影響推測，PM10的主要來源為測站西北方。　　另一方面，以頻域分析法得到的心率變異性對空氣污染較敏感，每增加一個四分位差之二氧化硫濃度和細懸浮微粒（PM2.5）濃度暴露會使得心律變異性顯著改變，且具有較顯著的微粒效應，即便控制臭氧的影響，PM10和PM2.5在LF的部分仍呈現顯著的累積效應。二氧化硫和PM10在暖季對HF指標影響較冷季大，而PM10和PM2.5在冷季對於LF/HF指標的影響則較暖季顯著，依據不同風向對心率變異性指標的影響推測，PM2.5的來源為自測站西南方的較西北方多。　　過去研究顯示心跳回復率減少、心率變異性下降皆會顯著增加心血管疾病的發生與死亡風險，由本研究可以得知，PM10和PM2.5對代表心臟自律神經功能指標的心跳恢復率及心律變異性有其效應，會使其顯著下降，而心跳恢復率及心律變異性兩者對交感、副交感活性的代表程度卻不盡相同。頻域分析法較時域分析法適合用來做為探討空氣污染對心率變異性健康指標影響的方法，而空氣污染會使得交感、副交感神經系統平衡趨向副交感神經的抑制，因此心跳回復率可做為探討空氣污染對自律神經功能調控的良好指標。探討空氣污染造成的健康效應會受到糖尿病、高血壓和高血脂等共病現象以及β-blocker、Calcium Channel Blocker、Statin、ACE Inhibitor或ARB藥物的使用所調控，而其機轉則有待進一步的研究分析。	zh_TW
dc.description.abstract	Previous studies had shown that air pollution exposure may cause short-term and long-term health effects, especially on respiratory and cardiovascular disease. Cardiovascular disease has been the leading cause of death in Taiwan. It is known that air pollution may influence the sympathovagal regulations, and increase the risk of cardiovascular disease morbidity and mortality. Heart rate recovery (HRR) and heart rate variability (HRV) have been used as a heath indicator of autonomic function. However, most air pollution studies have been focused on HRV. The effects of air pollution on HRR haven’t been investigated. Thus, in this study we studied the effects of air pollutants on HRR in patients with coronary artery disease (CAD). This study recruited 57 CAD patients based on symptom-limited exercise treadmill test and electrocardiogram at Chia-Yi area in Taiwan between December 2005 and March 2007. Each patient was examined once every three months for totally 4 times. HRR was defined as the difference between the peak heart rate during the exercise and the recovery heart rate after the exercise. CO, NO2, SO2, O3, PM10 , PM2.5, temperature and humidity data recorded by 6 air monitoring stations from EPA were gathered and daily averages were calaulated. We used mixed effect model to determine the effects of air pollution on both HRR and HRV in CAD patients. Furthermore, we used two-pollutant models to estimate the effects using both single-lag model and moving-average model from day 1 to day 5. The trend of both accumulative and single-lag effect of SO2 exposure was significantly associated with decreased HRR from first to sixth minute. Besides, the associations of SO2 were even substantially increased after O3 was controlled in both moving-average models and single-lag models. The associations between particulate matters (PM10 and PM2.5) and HRR were significant in warm season. According to the influence of different directions of wind on HRR, PM10 mainly come from northwest. On the other hand, particulate effect had been shown in frequency domain HRV parameters and the associations of PM10 and PM2.5 were still significant after O3 was controlled in LF. Based on the effects of different directions of wind on HRV, PM2.5 come from southwest more than northwest. Previous studies have shown that decreased HRR and HRV were significantly associated with cardiovascular morbidity and mortality. This study reveals an association between particles (PM10 and PM2.5) and decreased HRR as well as HRV in patients with coronary artery disease. Nevertheless, the representation on the sympathovegal activity of the two health indicators are different. It is better to use the frequency domain HRV parameters to evaluate the effects of air pollution than to use time domain HRV parameters. Patients with comorbidity and medication use may modify the effects of autonomic dysfunction by air pollution exposure. The adverse health effects of air pollution may be modified by patients with diabetes, hypertension or hyperlipidemia comorbidity, and β-blocker, calcium channel blocker, statin, angiotensin converting enzyme inhibitor or angiotensin receptor blocker medication use. Because the balance of autonomic nervous system may be toward parasympathetic nerve suppression, heart rate recovery could be used as a good index for investigating the interference of air pollutant on autonomic nervous system function, while its mechanism requires further study and analysis.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T00:33:55Z (GMT). No. of bitstreams: 1 ntu-100-R98844011-1.pdf: 4260372 bytes, checksum: 29adbfe1179cbc32ca54aeeb58999158 (MD5) Previous issue date: 2011	en
dc.description.tableofcontents	致謝 i 中文摘要 i Abstract iii 目錄 v 圖目錄 vii 表目錄 x 第一章前言與研究目的 1 第二章文獻回顧 2 2.1 空氣汙染對心血管疾病之健康效應 2 2.1.1 空氣汙染之流行病學研究 2 2.1.2 空氣汙染之毒理學研究 3 2.1.3 易感族群 5 2.2 冠狀動脈心臟疾病 5 2.2.1 冠狀動脈心臟疾病與致病機轉 5 2.2.2 冠狀動脈心臟疾病的藥物治療 6 2.2.3 空氣污染與冠狀動脈心臟疾病之相關研究 9 2.3 心血管功能檢測及指標 15 2.3.1 心跳回復率 15 2.3.2 心律變異性 17 2.4 雲嘉南地區空氣品質 18 2.4.1 空氣污染物測站監測資料 18 2.4.2 空氣污染物來源評估 21 第三章研究方法 23 3.1 研究流程 23 3.2 研究對象 23 3.2.1 收案條件 23 3.2.2 基本資料收集 24 3.3 測量項目 24 3.3.1 心跳回復率 24 3.3.2 心率變異性 25 3.4 空污暴露評估 25 3.5 統計分析方法 26 第四章結果 29 4.1心跳回復率 29 4.2 心率變異性 32 第五章討論 35 5.1空氣污染對自律神經功能的影響 35 5.2空氣污染對心率變異性的影響 36 5.3空氣污染對心跳回復率的影響 37 5.4空氣污染對心跳回復率與心率變異性的影響差異 38 5.5冷暖季節的季節效應 39 5.6共病及藥物的影響 41 5.7本研究的優點與限制 44 第六章結論與建議 46 第七章參考文獻 47 第八章圖與表 62 第九章附錄 94
dc.language.iso	zh-TW
dc.title	空氣污染對冠狀動脈心臟病病人心跳回復率及心律變異性的影響	zh_TW
dc.title	Effects of Air Pollution on Heart Rate Recovery and Heart Rate Variability in Patients with Coronary Artery Disease	en
dc.type	Thesis
dc.date.schoolyear	99-2
dc.description.degree	碩士
dc.contributor.coadvisor	王根樹(Gen-Shuh Wang)
dc.contributor.oralexamcommittee	陳保中(Pau-Chung Chen),簡國龍(Kuo-Liong Chien),陳主智(Chu-chih Chen)
dc.subject.keyword	空氣污染,心跳恢復率,冠心病,心率變異性,	zh_TW
dc.subject.keyword	air pollution,heart rate recovery,coronary artery disease,heart rate variability,	en
dc.relation.page	104
dc.rights.note	有償授權
dc.date.accepted	2011-08-04
dc.contributor.author-college	公共衛生學院	zh_TW
dc.contributor.author-dept	環境衛生研究所	zh_TW
顯示於系所單位：	環境衛生研究所

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