Section IV 
McBride, M.J., Guyatt, A.R., Kirkham, A.J., Gumming, 
G. Assessment of smoking behavior and ventilation 
with cigarettes of differing nicotine yields. Clinical 
Science 67: 619-631, 1984. 
Nil, R., Buzzi, R., Battig, K. Effects of different cigarette 
smoke yields on puffing and inhalation: Is the 
measurement of inhalation volumes relevant for 
smoke absorption? Pharmacology, Biochemistry and 
Behavior 24: 587-595, 1986. 
Pomerleau, O.F., Pomerleau, C.S. Neuroregulators 
and the reinforcement of smoking: Towards a 
biobehavioral explanation. Neuroscience and 
Biobehavioral Reviews 8(4): 503-513, 1984. 
Rawbone, R.G. Switching to low-tar cigarettes: Are the 
tar league tables relevant? Thorax 39(9): 657-662, 
1984. 
Rickert, W.S., Collishaw, N.E., Bray, D.F., Robinson, 
J.C. Estimates of maximum or average cigarette tar, 
nicotine, and carbon monoxide yields can be 
obtained from yields under standard conditions. 
Preventive Medicine 15(1): 82-91, 1986. 
Rickert, W.S., Robinson, J.C. Estimating the hazards 
of less hazardous cigarettes. II. Study of cigarette 
yields of nicotine, carbon monoxide, and hydrogen 
cyanide in relation to levels of cotinine, 
carboxyhemoglobin, and thiocyanate in smokers. 
Journal of Toxicology and Environmental Health 7: 
391-403, 1981. 
Rickert, W.S., Robinson, J.C., Collishaw, N.E., Bray, 
D.F. Estimating the hazards of "less hazardous" 
cigarettes. III. A study of the effect of various 
smoking conditions on yields of hydrogen cyanide 
and cigarette tar. Journal of Toxicology and 
Environmental Health 12(1): 39-54, 1983. 
Rickert, W.S., Robinson, J.C., Young, J.C. Estimating 
the hazards of "less hazardous" cigarettes. I. Tar, 
nicotine, carbon monoxide, acrolein, hydrogen 
cyanide, and total aldehyde deliveries of Canadian 
cigarettes. Journal of Toxicology and Environmental 
Health 6(2): 351-365, 1980. 
Robinson, J.C., Young, J.C., Rickert, W.S. A 
comparative study of the amount of smoke 
absorbed from low-yield ("less hazardous") 
cigarettes. Part 1. Non-invasive measures. British 
Journal of Addiction 77(4): 383-397, 1982. 
Robinson, J.C., Young, J.C., Rickert, W.S. Maintain 
levels of nicotine but reduce other smoke 
constituents: A formula for "less-hazardous" 
cigarettes? Preventive Medicine 13(5): 437-445, 1984. 
Robinson, J.C., Young, J.C., Rickert, W.S., Fey, G., 
Kozlowski, L.T. A comparative study of the 
amount of smoke absorbed from low-yield ("less 
hazardous") cigarettes. Part 2. Invasive measures. 
British Journal of Addiction 78(1): 79-87, 1983. 
Russell, M.A.H., Jarvis, M.J., Feyerabend, C., Saloojee, 
Y. Reduction of tar, nicotine, and carbon monoxide 
intake in low-tar smokers. Journal of Epidemiology 
and Community Health 40(1): 80-85, 1986. 
Russell, M.A.H., Sutton, S.R., Iyer, R., Feyerabend, C., 
Vesey, C.J. Long-term switching to low-tar low- 
nicotine cigarettes. British Journal of Addiction 77(2): 
145-158, 1982. 
Schlotzhauer, W.S., Chortyk, O.T. Effects of varied 
smoking machine parameters on deliveries of total 
particulate matter and selected smoke constituents 
from an ultra-low-tar cigarette. Journal of Analytical 
Toxicology 7(2): 92-95, 1983. 
Snedecor, G.W., Cochran, W.G. Correlation. In: 
Statistical Methods, G.W. Snedecor and W.G. 
Cochran (Editors). Ames, lA: Iowa State University 
Press, 1980. 
U.S. Department of Health and Human Services. The 
Health Consequences of Smoking: The Changing 
Cigarette. A Report of the Surgeon General. DHHS 
Publication No. (PHS)81-50156. Rockville, MD: U.S. 
Department of Health and Human Services, Public 
Health Service, Office on Smoking and Health, 
1981. 
Wald, N.J., Boreham, J., Bailey, A. Relative intakes of 
tar, nicotine, and carbon monoxide from cigarettes 
of different yields. Thorax 39(5): 361-364, 1984. 
Woodward, M., Tunstall-Pedoe, H. Do smokers of 
lower tar cigarettes consume lower amounts of 
smoke components? Results from the Scottish 
Health Study. British Journal of Addiction 87(6): 921- 
928, 1992. 
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