Armitage–Doll multistage model of carcinogenesis

The Armitage–Doll model is a statistical model of carcinogenesis, proposed in 1954 by Peter Armitage and Richard Doll, in which a series of discrete mutations result in cancer.^[1] The original paper has recently been reprinted with a set of commentary articles.

The model

The rate of incidence and mortality from a wide variety of common cancers follows a power law: someone's risk of developing a cancer increases with a power of their age.^[2]

The model is very simple, and reads

$\mathrm {rate} ={\frac {Np_{1}p_{2}p_{3}\cdots p_{r}}{(r-1)!}}t^{r-1}$

in Ashley's notation.^[3]

Their interpretation was that a series of $r$ mutations were required to initiate a tumour.^[1] This is now widely accepted, and part of the mainstream view of carcinogenesis. In their original paper, they found that $r$ was typically between 5 and 7. Other cancers were later discovered to require fewer mutations: retinoblastoma, typically emerging in early childhood, can emerge from as few as 1 or 2, depending on pre-existing genetic factors.

History

This was some of the earliest strong evidence that cancer was the result of an accumulation of mutations. With their 1954 paper, Armitage and Doll began a line of research that led to Knudson's two-hit hypothesis and thus the discovery of tumour suppressor genes.^[3]^[4]

References

^ ^a ^b Armitage, P. and Doll, R. (1954) "The Age Distribution of Cancer and a Multi-Stage Theory Of Carcinogenesis", British Journ. of Cancer, 8 (1), 1-12. Reprinted (2004): reprint, British Journal of Cancer, 91, 1983–1989. doi:10.1038/sj.bjc.6602297
^ Nordling, C. O. (1953) Brit. J. Cancer, 7, 68.
^ ^a ^b Ashley, D. J. B., Brit. J. Cancer, 23, 313 (1969)
^ Knudson, A.G., 1971. Mutation and cancer: statistical study of retinoblastoma. Proceedings of the National Academy of Sciences, 68(4), pp.820-823.

Steven A Frank (2004) "Commentary: Mathematical models of cancer progression and epidemiology in the age of high throughput genomics", Int. J. Epidemiol. 33(6): 1179-1181 doi:10.1093/ije/dyh222
Suresh H Moolgavkar (2004) "Commentary: Fifty years of the multistage model: remarks on a landmark paper", Int. J. Epidemiol. 33(6): 1182-1183 doi:10.1093/ije/dyh288
Richard Doll (2004) "Commentary: The age distribution of cancer and a multistage theory of carcinogenesis", Int. J. Epidemiol. 33(6): 1183-1184 doi:10.1093/ije/dyh359

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[ADoll-1] Armitage, P. and Doll, R. (1954) "The Age Distribution of Cancer and a Multi-Stage Theory Of Carcinogenesis", British Journ. of Cancer, 8 (1), 1-12. Reprinted (2004): reprint, British Journal of Cancer, 91, 1983–1989. doi:10.1038/sj.bjc.6602297

[2] Nordling, C. O. (1953) Brit. J. Cancer, 7, 68.

[Ashley-3] Ashley, D. J. B., Brit. J. Cancer, 23, 313 (1969)

[4] Knudson, A.G., 1971. Mutation and cancer: statistical study of retinoblastoma. Proceedings of the National Academy of Sciences, 68(4), pp.820-823.

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Armitage–Doll multistage model of carcinogenesis

The model

History

References

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