| Summary: | The conventional interpretation of cancer, summarized in the unified genetic theory of carcinogenesis, assumes that the malignant cell is the anatomical and physiological unit of cancer. This assumption means that any evolutionary increase in the number of cells (and thus body size) should lead to a higher tumor incidence since the population at risk is higher. However, the available data fail to support this prediction: most animals, in particular most mammals, exhibiting wide differences in body size and lifespan, from the mouse to the blue whale, display a roughly similar tumor incidence. This unexpected lack of correlation between body size, lifespan and cancer is usually called Peto?s paradox and it has intrigued theoretical oncologists for decades.In this essay, we attempt to offer a putative explanation of this paradox based on the notion that the unit at risk of carcinogenesis is actually the tissue or organ rather than the individual cell. In turn, this notion is based on a different interpretation of neoplastic diseases that we proposed some years ago and that has been called the hypothesis of the biological sense of cancer. This hypothesis was based on the observation that throughout the animal kingdom, cancer seems to arise only in organs and tissues (or parts of them) that have experienced a significant decrease in the regenerative ability, and this would occur when a critical proportion of their cells have partially or wholly lost that capacity. In such a case, if an organism or an organ were x times larger than another one, the probability that its regenerative capacity is critically diminished would be x times lower, because an x times greater number of cells would have to be affected to depress that capacity. This lower probability would balance the proportionally higher number of their cells that could be transformed and this would explain why the blue whale displays no greater risk of developing cancer than the mouse by unit of time. However, since big animals tend to live y times longer than ...
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