Table 4: Radon Concentrations and Cancer Incidents

Table 4: Radon Concentrations in the US and Colorado(1) and the Risk of Cancer Incidents Associated with Radon

Radon Exposure		Average Radon Concentration (pCi/L)		Annual Risk (2) per million people	Lifetime Risk (3) per million people
				(cancer incidents attributable to radon progeny exposure)	(cancer incidents attributable to radon progeny exposure)
Outdoor	US Average	0.4	Ever-smokers	~20	1400
	and Colorado Average		Never-smokers	~3	210
			Estimated Total	~23	1600
Outdoor	Ft. Collins, CO Average (4)	0.49	Ever-smokers	~24	1700
			Never-smokers	~4	300
			Estimated Total	~28	2000
Outdoor	Broomfield, CO	0.17	Ever-smokers	~8	580
	short term measurement (5)		Never-smokers	~1.3	90
			Estimated Total	~9	670
Outdoor	Broomfield, CO	0.22	Ever-smokers	~11	770
	short term measurement (5)		Never-smokers	~2	140
			Estimated Total	~13	910
Indoor	US Average	1.3	Ever-smokers	65	4600
			Never-smokers	10	700
			Estimated Total	75	5300
Indoor	Colorado -	4.7	Ever-smokers	230	16000
	El Paso County		Never-smokers	36	2500
			Estimated Total	270	19000
Indoor	Colorado -	5.7	Ever-smokers	280	20000
	Denver County		Never-smokers	44	3100
			Estimated Total	320	23000
Indoor	Colorado -	7.6	Ever-smokers	380	27000
	Boulder County (6)		Never-smokers	59	4100
			Estimated Total	440	31000
Indoor	Colorado -	5.9	Ever-smokers	290	20000
	Jefferson County (6)		Never-smokers	45	3200
			Estimated Total	330	23000

Radon concentration is in picocuries/liter. US averages can be found on Basic Facts about Radon (Rn). Colorado radon levels are from US Geologic Survey, Colorado Department of Health, Radiation Division, Open File Report 91-4.
Table 3-10 in Health Effects of Exposure to Radon, BEIR VI (National Research Council, Washington DC, 1998) presents the estimated number of lung cancer deaths in the U.S. in 1993 attributable to indoor radon progeny exposure. The annual risk of lung cancer per American was calculated by first averaging the results of the two models the committee preferred and then dividing the result by 258,900,000, the US population in 1993. Multiplying this result by 1,000,000 gives the lung cancer deaths per million people. This risk was then scaled for other radon concentrations found in Colorado -- this scaling assumes that the shapes of the distributions are comparable. Since the survival rate of lung cancer is small, the radon mortality risk of Table 3 was multiplied by 1.04 to get the radon incidence risk presented here.
Lifetime risk is annual risk multiplied by 70 years.
Borak, T.B. and S.A. Baynes, 'Continuous Measurements of Outdoor 222Rn Concentrations for Three Years at one Location in Colorado,' Health Physics, April 1999, Vol. 76, No. 4, 418-420. 37 Bq/m3 = 1 mSv
Two measurements at the same location. Environmental Radon Measurements Report, Western Regional Radon Training Center, Colorado Springs, Co. May 15, 1998.
Short term indoor radon measurements in Jefferson and Boulder counties illustrate the variability in radon concentrations. A first floor measurement in Boulder county found 1.5 pCi/L of radon and a similar measurement in Jefferson county found 1.9 pCi/L. However, in the basements of those same buildings the radon was recorded at 1.2 pCi/L in Boulder county, but 13 pCi/L in Jefferson county. Environmental Radon Measurements Report, Western Regional Radon Training Center, Colorado Springs, Co. May 15, 1998.

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