Abstract
Detailed observations of the minutiae of smoking behavior of humans suggested the existence of wide variations in this behavior. Simulation of these various models of puffing behavior on an analytic smoking machine showed that significantly different amounts of tobacco tar were retrievable for each. Lung cancer and control patients were then observed to determine whether and the extent to which the cases exhibited high tar-yield smoking models. It was found that risk of lung cancer increases with the mean number of puffs taken per cigarette and with increases in the average length of time taken to smoke a cigarette regardless of age or amount smoked per day. This was also generally true when analyses were carried out specifically for variations in the number of puffs taken per cigarette. The exception to this was observed only where the largest number of puffs were taken per cigarette. Finally, it was shown that taking more puffs towards the end of a cigarette entails a higher risk than puffing regularly, and that the most frequently exhibited puffing patterns, puffing most often at the beginning, carried the lowest risk. We suggest that if these results were upheld in future replications, further evidence would be at hand of a dose-response relationship linking lung cancer and exposure to tobacco tar. Furthermore, these data would suggest that smokers could lower their risk by taking fewer puffs per cigarette, taking them shortly after lighting up, and smoking with only short intervals between puffs.
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call