ࡱ>    !"#$%/'()*+,-.0123456789:;<=>?@Root Entry0!TConfiguration 4Log&.EEPA Standard C-R FunctionsAc2000 Incidence and PrevalenceUnited States Census Hospital Admissions, Respiratory HA, PneumoniaOzone D24HourMeanMoolgavkar et al.Minneapolis, MNPM10, SO2, NO2Minneapolis-St. Paul, MNMoolgavkar, S.H., E.G. Luebeck, and E.L. Anderson. Air pollution and hospital admissions for respiratory causes in Minneapolis St. Paul and Birmingham. Epidemiology, 1997. 8(4): p. 364-370.Ac&(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP Incidence*POPKaqUFn?A ]P?EPA Standard C-R FunctionsAc2000 Incidence and PrevalenceUnited States Census Hospital Admissions, Respiratory&HA, Chronic Lung Disease (less Asthma)Ozone D24HourMeanSchwartz Detroit, MIPM10 Detroit, MISchwartz, J. Air Pollution and Hospital Admissions For the Elderly in Detroit, Michigan. American Journal of Respiratory and Critical Care Medicine, 1994 150(3): p. 648-655.Ac&(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP Incidence*POPG|v? ^)`?EPA Standard C-R FunctionsAc2000 Incidence and PrevalenceUnited States Census Hospital Admissions, RespiratoryHA, Chronic Lung DiseaseOzone D24HourMeanMoolgavkar et al.Minneapolis, MNPM10, COMinneapolis-St. Paul, MNMoolgavkar, S.H., E.G. Luebeck, and E.L. Anderson. Air pollution and hospital admissions for respiratory causes in Minneapolis St. Paul and Birmingham. Epidemiology, 1997. 8(4): p. 364-370.Ac&(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP Incidence*POPrYxf?3Me[?EPA Standard C-R FunctionsAc2000 Incidence and PrevalenceUnited States Census Hospital Admissions, RespiratoryHA, All RespiratoryOzone D1HourMaxBurnett et al. Toronto, CANPM2.5 May-AugustBurnett, R.T., et al. Association between ozone and hospitalization for acute respiratory diseases in children less than 2 years of age. Am J Epidemiol, 2001. 153(5): p. 444-52.&(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP Incidence*POPfgy?X$ ^?EPA Standard C-R Functions2000 Incidence and PrevalenceUnited States CensusSchool Loss DaysSchool Loss Days, All CauseOzone D1HourMax Chen et al. Washoe Co, NVPM10, CO'Study actually looked at children 6-11.Chen, L., B.L. Jennison, W. Yang and S.T. Omaye. 2000a. Elementary school absenteeism and air pollution. Inhal Toxicol. Vol. 12 (11): 997-1016.Beta*C*DELTAQ*Incidence/B*POP*AIncidence/B*POP*AC!?zAkt?0L F%?+Scalar for % of school days in ozone seasonȘ?"Study-specific school absence rate{Gz?Convert beta to proportionEPA Standard C-R Functions2000 Incidence and PrevalenceUnited States CensusSchool Loss DaysSchool Loss Days, All CauseOzone D8HourMeanGilliland et al.Southern California'Study actually looked at children 9-10.Gilliland, F.D., K. Berhane, E.B. Rappaport, D.C. Thomas, E. Avol, W.J. Gauderman, S.J. London, H.G. Margolis, R. McConnell, K.T. Islam and J.M. Peters. 2001. The effects of ambient air pollution on school absenteeism due to respiratory illnesses. Epidemi*(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*A*BIncidence*POP*A*BB~?Yψ r?0L F%?(Scalar for % school days in ozone season= ףp=?7Population of school children at-risk for a new absenceEPA Standard C-R Functions2000 Incidence and Prevalenc X@X@000020404dC:\Program Files\Abt Associates Inc\BenMAP 2.4 US Version\Air Quality Grids\Baseline Rollback O3.aqgcC:\Program Files\Abt Associates Inc\BenMAP 2.4 US Version\Air Quality Grids\Control Rollback O3.aqg United States Census - CountyOzonex  D1HourMax D1HourMax D24HourMean D24HourMean D5HourMean D5HourMean  D8HourMax D8HourMax D8HourMean D8HourMean United States Census - County MortalityMortality, Non-AccidentalOzone D24HourMean Bell et al.  95 US citiesApril - Octoberc((1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*Alcc9?Q!?!? 0) then Result := Beta*((Q1-Q0)/Q1)*DAILYWAGEOUTDOOR*(MEDIAN_INCOME/NATL_MEDIAN_INCOME)*POP*(COUNT_FARM_EMPLOYED/POPULATION18TO64)^DAILYWAGEOUTDOOR*(MEDIAN_INCOME/NATL_MEDIAN_INCOME)*POP*(COUNT_FARM_EMPLOYED/POPULATION18TO64)Nё\C?EPA Standard C-R Functions@EPA Standard VariablesUnited States CensusAcute Respiratory SymptomsMinor Restricted Activity DaysOzone D1HourMaxOstro and Rothschild NationwidePM2.5Ostro, B.D. and S. Rothschild. Air Pollution and Acute Respiratory Morbidity - an Observational Study of Multiple Pollutants. Environ Res, 1989. 50(2): p. 238-247. @(1-(1/EXP(Beta*DELTAQ)))*A*POPA*POP/nb?JΉ=E?Jvl?.mRAD18to64; Ostro and Rothschild, 1989, p 243.EPA Standard C-R Functions@United States Census MortalityMortality, Non-AccidentalOzone D24HourMean Ito et. al. Warm Seasonc((1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*AIncidence*POP*A2020 Mortality Incidence"J\?]6? 0) then Result := Beta*((Q1-Q0)/Q1)*DAILYWAGEOUTDOOR*(MEDIAN_INCOME/NATL_MEDIAN_INCOME)*POP*(COUNT_FARM_EMPLOYED/POPULATION18TO64)wBaseline Functional Form=DAILYWAGEOUTDOOR*(MEDIAN_INCOME/NATL_MEDIAN_INCOME)*POP*(COUNT_FARM_EMPLOYED/POPULATION18TO64) End Age=64 Start Age=18Reference=Crocker, T.D. and R.L. Horst, Jr. Hours of Work, Labor Productivity, and Environmental Conditions: A Case Study. The Review of Economics and Statistics, 1981. 63: p. 361-368.Location=Nationwide Year=1981Author=Crocker and HorstMetric Statistic=NoneMetric=D24HourMeanPollutant=OzoneEndpoint=Worker Productivity"Endpoint Group=Worker Productivity-CRFunction DataSet=EPA Standard C-R FunctionsCR Function 13C=0>Name B=Population of school children at-risk for a new absenceB=0.945/Name A=Scalar for % school days in ozone seasonA=0.3929P2Beta=0P1Beta=0.00452714335601797Beta Distribution=NormalBeta=0.00755014367682637/Incidence DataSet=2000 Incidence and Prevalence:Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*A*B*Baseline Functional Form=Incidence*POP*A*B End Age=17 Start Age=5 Reference=Gilliland, F.D., K. Berhane, E.B. Rappaport, D.C. Thomas, E. Avol, W.J. Gauderman, S.J. London, H.G. Margolis, R. McConnell, K.T. Islam and J.M. Peters. 2001. The effects of ambient air pollution on school absenteeism due to respiratory illnesses. Epidemi1Qualifier=Study actually looked at children 9-10.Location=Southern California Year=2001Author=Gilliland et al.Metric Statistic=NoneMetric=D8HourMeanPollutant=Ozone$Endpoint=School Loss Days, All CauseEndpoint Group=School Loss Days-CRFunction DataSet=EPA Standard C-R FunctionsCR Function 12!Name C=Convert beta to proportionC=0.01)Name B=Study-specific school absence rateB=0.05092Name A=Scalar for % of school days in ozone seasonA=0.3929P2Beta=0P1Beta=0.0049851Beta Distribution=NormalBeta=0.0132466/Incidence DataSet=2000 Incidence and Prevalence/Functional Form=Beta*C*DELTAQ*Incidence/B*POP*A*Baseline Functional Form=Incidence/B*POP*A End Age=17 Start Age=5Reference=Chen, L., B.L. Jennison, W. Yang and S.T. Omaye. 2000a. Elementary school absenteeism and air pollution. Inhal Toxicol. Vol. 12 (11): 997-1016.1Qualifier=Study actually looked at children 6-11.Other Pollutants=PM10, COLocation=Washoe Co, NV Year=2000Author=Chen et al.Metric Statistic=NoneMetric=D1HourMaxPollutant=Ozone$Endpoint=School Loss Days, All CauseEndpoint Group=School Loss Days-CRFunction DataSet=EPA Standard C-R FunctionsCR Function 11C=0B=0A=0P2Beta=0P1Beta=0.00183409Beta Distribution=NormalBeta=0.00630926863348811/ Threshold=0 Year=2020Pollutant=OzoneLatin Hypercube Points=10|Control Air Quality Grid=C:\Program Files\Abt Associates Inc\BenMAP 2.4 US Version\Air Quality Grids\Control Rollback O3.aqg~Baseline Air Quality Grid=C:\Program Files\Abt Associates Inc\BenMAP 2.4 US Version\Air Quality Grids\Baseline Rollback O3.aqg0Population Dataset=United States Census - CountySelected CR FunctionsCR Function 21C=0B=0A=0P2Beta=0 P1Beta=0.002Beta Distribution=Normal Beta=-0.001/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=0Reference=Wilson, A. M., C. P. Wake, T. Kelly, et al. 2005. Air pollution, weather, and respiratory emergency room visits in two northern New England cities: an ecological time-series study. Environ Res. Vol. 97 (3): 312-21.Location=Manchester, NH Year=2005Author=Wilson et al.Metric Statistic=NoneMetric=D8HourMaxPollutant=Ozone&Endpoint=Emergency Room Visits, Asthma1Endpoint Group=Emergency Room Visits, RespiratoryHCRFunction DataSet=Supplemental Bell & Ito O3 Mortality and ER FunctionsCR Function 20C=0B=0A=0P2Beta=0 P1Beta=0.001Beta Distribution=Normal Beta=0.003/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=0Reference=Wilson, A. M., C. P. Wake, T. Kelly, et al. 2005. Air pollution, weather, and respiratory emergency room visits in two northern New England cities: an ecological time-series study. Environ Res. Vol. 97 (3): 312-21.Location=Portland, ME Year=2005Author=Wilson, et al.Metric Statistic=NoneMetric=D8HourMaxPollutant=Ozone&Endpoint=Emergency Room Visits, Asthma1Endpoint Group=Emergency Room Visits, RespiratoryHCRFunction DataSet=Supplemental Bell & Ito O3 Mortality and ER FunctionsCR Function 19C=0B=0A=0P2Beta=0P1Beta=0.000529Beta Distribution=Normal Beta=0.00087/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=0Reference=Peel, J. L., P. E. Tolbert, M. Klein, et al. 2005. Ambient air pollution and respiratory emergency department visits. Epidemiology. Vol. 16 (2): 164-74.Location=Atlanta Year=2005Author=Peel et al. Metric Statistic=NoneMetric=D8HourMaxPollutant=Ozone&Endpoint=Emergency Room Visits, Asthma1Endpoint Group=Emergency Room Visits, RespiratoryHCRFunction DataSet=Supplemental Bell & Ito O3 Mortality and ER FunctionsCR Function 18C=0B=0A=0P2Beta=0P1Beta=0.00148645173785653Beta Distribution=NormalBeta=0.00295588022415444/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=34 Start Age=5Reference=Jaffe, D.H., M.E. Singer, and A.A. Rimm. Air pollution and emergency department visits for asthma among Ohio Medicaid recipients, 1991-1996. Environ Res, 2003. 91(1): p. 21-8.Location=Ohio cities Year=2003Author=Jaffe et al.Metric Statistic=NoneMetric=D8HourMaxPollutant=Ozone&Endpoint=Emergency Room Visits, Asthma1Endpoint Group=Emergency Room Visits, Respiratory$CRFunction DataSet=Complete Version2CR Function 17C=0B=0<Name A=Scalar to convert annual mortality rate to daily rate A=0.0027397P2Beta=0P1Beta=0.000394579764Beta Distribution=NormalBeta=0.00148886124937506*Incidence DataSet=2020 Mortality Incidence8Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*A(Baseline Functional Form=Incidence*POP*A End Age=99 Start Age=0Qualifier=Warm Season Year=2005Author=Bell et. al.Metric Statistic=NoneMetric=D24HourMeanPollutant=OzoneEndpoint=Mortality, All CauseEndpoint Group=MortalityACRFunction DataSet=Supplemental Bell & Ito O3 Mortality FunctionsCR Function 16C=0B=0<Name A=Scalar to convert annual mortality rate to daily rate A=0.0027397P2Beta=0P1Beta=0.000346059387555322Beta Distribution=NormalBeta=0.001715205881*Incidence DataSet=2020 Mortality Incidence8Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*A(Baseline Functional Form=IncidenceIncidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=1 Start Age=0Reference=Burnett, R.T., et al. Association between ozone and hospitalization for acute respiratory diseases in children less than 2 years of age. Am J Epidemiol, 2001. 153(5): p. 444-52.Qualifier=May-AugustOther Pollutants=PM2.5Location=Toronto, CAN Year=2001Author=Burnett et al.Metric Statistic=NoneMetric=D1HourMaxPollutant=OzoneEndpoint=HA, All Respiratory/Endpoint Group=Hospital Admissions, Respiratory-CRFunction DataSet=EPA Standard C-R FunctionsCR Function 10C=0B=0A=0P2Beta=0P1Beta=0.0016988272083893Beta Distribution=NormalBeta=0.00274279622207835/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=65Reference=Moolgavkar, S.H., E.G. Luebeck, and E.L. Anderson. Air pollution and hospital admissions for respiratory causes in Minneapolis St. Paul and Birmingham. Epidemiology, 1997. 8(4): p. 364-370."Qualifier=Minneapolis-St. Paul, MNOther Pollutants=PM10, COLocation=Minneapolis, MN Year=1997Author=Moolgavkar et al.Metric Statistic=NoneMetric=D24HourMeanPollutant=Ozone!Endpoint=HA, Chronic Lung Disease/Endpoint Group=Hospital Admissions, Respiratory-CRFunction DataSet=EPA Standard C-R Functions CR Function 9C=0B=0A=0P2Beta=0P1Beta=0.00205Beta Distribution=Normal Beta=0.00549/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=65Reference=Schwartz, J. Air Pollution and Hospital Admissions For the Elderly in Detroit, Michigan. American Journal of Respiratory and Critical Care Medicine, 1994 150(3): p. 648-655.Qualifier=Detroit, MIOther Pollutants=PM10Location=Detroit, MI Year=1994Author=SchwartzMetric Statistic=NoneMetric=D24HourMeanPollutant=Ozone/Endpoint=HA, Chronic Lung Disease (less Asthma)/Endpoint Group=Hospital Admissions, Respiratory-CRFunction DataSet=EPA Standard C-R Functions CR Function 8C=0B=0A=0P2Beta=0P1Beta=0.00103005495510973Beta Distribution=NormalBeta=0.00369564712587337/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=65Reference=Moolgavkar, S.H., E.G. Luebeck, and E.L. Anderson. Air pollution and hospital admissions for respiratory causes in Minneapolis St. Paul and Birmingham. Epidemiology, 1997. 8(4): p. 364-370."Qualifier=Minneapolis-St. Paul, MNOther Pollutants=PM10, SO2, NO2Location=Minneapolis, MN Year=1997Author=Moolgavkar et al.Metric Statistic=NoneMetric=D24HourMeanPollutant=OzoneEndpoint=HA, Pneumonia/Endpoint Group=Hospital Admissions, Respiratory-CRFunction DataSet=EPA Standard C-R Functions CR Function 7C=0B=0A=0P2Beta=0P1Beta=0.00186459068109421Beta Distribution=NormalBeta=0.0039770171749033/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=65Reference=Schwartz, J. PM(10) Ozone, and Hospital Admissions For the Elderly in Minneapolis St Paul, Minnesota. Archives of Environmental Health, 1994. 49(5): p. 366-374."Qualifier=Minneapolis-St. Paul, MNOther Pollutants=PM10Location=Minneapolis, MN Year=1994Author=SchwartzMetric Statistic=NoneMetric=D24HourMeanPollutant=OzoneEndpoint=HA, Pneumonia/Endpoint Group=Hospital Admissions, Respiratory-CRFunction DataSet=EPA Standard C-R Functions CR Function 6C=0B=0A=0P2Beta=0 P1Beta=0.0013Beta Distribution=Normal Beta=0.00521/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=65Reference=Schwartz, J. Air Pollution and Hospital Admissions For the Elderly in Detroit, Michigan. American Journal of Respiratory and Critical Care Medicine, 1994 150(3): p. 648-655.Qualifier=Detroit, MIOther Pollutants=PM10Location=Detroit, MI Year=1994Author=SchwartzMetric Statistic=NoneMetric=D24HourMeanPollutant=OzoneEndpoint=HA, Pneumonia/Endpoint Group=Hospital Admissions, Respiratory-CRFunction DataSet=EPA Standard C-R Functions CR Function 5C=0B=0A=0P2Beta=0P1Beta=0.002565418728Beta Distribution=NormalBeta=0.00714700616984401/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=65Reference=Schwartz, J. Short term fluctuations in air pollution and hospital admissions of the elderly for respiratory disease. Thorax, 1995. 50(5): p. 531-538.Qualifier=Tacoma, WAOther Pollutants=PM10Location=Tacoma, WA Year=1995Author=SchwartzMetric Statistic=NoneMetric=D24HourMeanPollutant=OzoneEndpoint=HA, All Respiratory/Endpoint Group=Hospital Admissions, Respiratory-CRFunction DataSet=EPA Standard C-R Functions CR Function 4C=0B=0A=0P2Beta=0P1Beta=0.00139761964737073Beta Distribution=NormalBeta=0.00265221944452865/Incidence DataSet=2000 Incidence and Prevalence6Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP&Baseline Functional Form=Incidence*POP End Age=99 Start Age=65Reference=Schwartz, J. Short term fluctuations in air pollution and hospital admissions of the elderly for respiratory disease. Thorax, 1995. 50(5): p. 531-538.Qualifier=New Haven, CTOther Pollutants=PM10Location=New Haven, CT Year=1995Author=SchwartzMetric Statistic=NoneMetric=D24HourMeanPollutant=OzoneEndpoint=HA, All Respiratory/Endpoint Group=Hospital Admissions, Respiratory-CRFunction DataSet=EPA Standard C-R Functions CR Function 3C=0B=0<Name A=Scalar to convert annual mortality rate to daily rate A=0.0027397P2Beta=0P1Beta=0.000131561395652476Beta Distribution=NormalBeta=0.000836491633162767*Incidence DataSet=2020 Mortality Incidence8Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*A End Age=99 Start Age=0Reference=Levy, J.I., S.M. Chemerynski, and J.A. Sarnat. Ozone exposure and mortality: an empiric bayes metaregression analysis. Epidemiology, 2005. 16(4): p. 458-68.Qualifier=Summer season only Year=2005Author=Levy et al.Metric Statistic=NoneMetric=D1HourMaxPollutant=OzoneEndpoint=Mortality, All CauseEndpoint Group=Mortality(CRFunction DataSet=Ozone Risk Assessment CR Function 2C=0B=0<Name A=Scalar to convert annual mortality rate to daily rate A=0.0027397P2Beta=0P1Beta=0.000393053882984462Beta Distribution=NormalBeta=0.00124225199985571*Incidence DataSet=2020 Mortality Incidence8Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*A End Age=99 Start Age=0AQualifier=June - September (Actual Endpoint is Cardiorespiratory)Location=19 US cities Year=2005Author=Huang et al.Metric Statistic=NoneMetric=D24HourMeanPollutant=Ozone#Endpoint=Mortality, CardiopulmonaryEndpoint Group=Mortality(CRFunction DataSet=Ozone Risk Assessment CR Function 1C=0B=0<Name A=Scalar to convert annual mortality rate to daily rate A=0.0027397P2Beta=0P1Beta=7.3747339E-5Beta Distribution=NormalBeta=0.000319489*Incidence DataSet=2020 Mortality Incidence8Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*A End Age=99 Start Age=0Location=98 US cities Year=2006Author=Bell et al. Metric Statistic=NoneMetric=D24HourMeanPollutant=OzoneEndpoint=Mortality, All CauseEndpoint Group=Mortality(CRFunction DataSet=Ozone Risk Assessment CR Function 0C=0B=0<Name A=Scalar to convert annual mortality rate to daily rate A=0.0027397P2Beta=0P1Beta=0.000132138019543085Beta Distribution=NormalBeta=0.000389241471534385*Incidence DataSet=2020 Mortality Incidence8Functional Form=(1-(1/EXP(Beta*DELTAQ)))*Incidence*POP*A End Age=99 Start Age=0Qualifier=April - OctoberLocation=95 US cities Year=2004Author=Bell et al. Metric Statistic=NoneMetric=D24HourMeanPollutant=Ozone"Endpoint=Mortality, Non-AccidentalEndpoint Group=Mortality(CRFunction DataSet=Ozone Risk Assessment