Peto R. The need for ignorance in cancer research. In Duncan, R. editor. the Encyclopedia of Medical Ignorance. 1984; pp. 129–133.
Peto R, Roe FJC, Lee PN, Levy L, Clack J. Cancer and ageing in mice and men. Br J Cancer. 1975;32(4):411–26.
Peto R, Epidemiology, Multistage Models, and Short-term Mutagenicity Tests. In Hiatt HH, Watson JD, Winsten JA, editors, Origins of Human Cancer: New York, Cold Spring Harbor Laboratory, 1977:1403–1428 (reprinted in Int J Epidemiol 2016;45:621–637).
Balmain A. The critical roles of somatic mutations and environmental tumor-promoting agents in cancer risk. Nat Genet. 2020;52:1139–43.
Lochhead P, Chan AT, Nishihara R, et al. Etiologic field effect: reappraisal of the field effect concept in cancer predisposition and progression. Mod Pathol. 2015;28(1):14–29.
Rafaeva M, Erler JT. Framing cancer progression: influence of the organ- and tumour-specific matrisome. FEBS J. 2020;287(8):1454–77.
Nunney L. Resolving Peto’s paradox: Modeling the potential effects of size-related metabolic changes, and of the evolution of immune policing and cancer suppression. Evol Appl. 2020;13(7):1581–92.
Tollis M, Boddy AM, Maley CC. Peto’s Paradox: how has evolution solved the problem of cancer prevention? BMC Biol. 2017;15(1):1–5.
Hochberg ME, Noble R. J. A framework for how environment contributes to cancer risk. Ecol Lett. 2017;20(2):117–34.
Abegglen LM, Caulin AF, Chan A, Lee K, Robinson R, Campbell MS, et al. Potential mechanisms for cancer resistance in elephants and comparative cellular response to DNA damage in humans. JAMA. 2015;314:1850–60.
Effron M, Griner L, Benirschke K. Nature and rate of neoplasia found in captive wild mammals, birds, and reptiles at necropsy. J Natl Cancer Inst. 1977;59:185–98.
Beatty J. Why do biologists argue like they do? Philos Sci. 1997;64:432–43.
Davey Smith G, Relton CL, Brennan P. Chance, choice and cause in cancer aetiology: individual and population perspectives. Int J Epidemiol. 2016;45(3):605–13.
Plutynski A. Is cancer a matter of luck? Biol Philos. 2021;36(1):3.
Tomasetti C, Vogelstein B. Variation in cancer risk among tissues can be explained by the number of stem cell divisions. Science. 2015;347(6217):78–81.
Brennan P, Davey Smith G. Identifying Novel Causes of Cancers to Enhance Cancer Prevention: New Strategies Are Needed JNCI: J Natl Cancer Inst. 2021; djab204, https://doi.org/10.1093/jnci/djab204.
Drexler M. The Cancer Miracle Isn’t a Cure. It’s Prevention. Magazine of the Harvard T.H. Chan School of Public Health. 2019.
Hill AB The Environment and Disease: Association or Causation? Proceedings of the Royal Society of Medicine. 1965; 58:295–300.
Krieger N, Davey Smith G. The tale wagged by the DAG: broadening the scope of causal inference and explanation for epidemiology. Int J Epidemiol. 2016;45(6):1787–808.
Krieger N, Davey Smith G, Response. FACEing reality: productive tensions between our epidemiological questions, methods and mission. Int J Epidemiol. 2016;45(6):1852–65.
Russo F, Williamson J. Interpreting causality in the health sciences. Int Stud Philos Sci. 2007;21(2):157–70.
Broadbent A. Inferring causation in epidemiology: mechanisms, black boxes, and contrasts. In Illari, P., Russo, F., Williamson, J., editors. Causality in the sciences. Oxford; 2011. pp. 45–69.
Broadbent A. Philosophy of Epidemiology. London: Palgrave Macmillan; 2013.
Reiss, J. (2015). A pragmatist theory of evidence. Philosophy of Science, 82(3), 341-362.
Lewontin RC. The analysis of variance and the analysis of causes. Am J Human Genetics 1974;26:400–411 (reprinted Int J Epidemiol 2006;35: 520–525).
Nowak MA, Waclaw B. Genes, environment, and “bad luck”. Science. 2017;355(6331):1266–7.
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