Abstract
A pressing and unresolved topic in cancer research is how tumours grow in the absence of treatment. Despite advances in cancer biology, therapeutic and diagnostic technologies, there is limited knowledge regarding the fundamental growth and developmental patterns in solid tumours. In this ten year study, we estimated growth curves in Tasmanian devil facial tumours, a clonal transmissible cancer, in males and females with two different karyotypes (diploid, tetraploid) and facial locations (mucosal, dermal), using established differential equation models and model selection. Logistic growth was the most parsimonious model for diploid, tetraploid and mucosal tumours, with less model certainty for dermal tumours. Estimates of daily proportional tumour growth rate per day (95% Bayesian CIs) varied with ploidy and location [diploid 0.016 (0.014–0.020), tetraploid 0.026 (0.020–0.033), mucosal 0.013 (0.011–0.015), dermal 0.020 (0.016–0.024)]. Final tumour size (cm3) also varied, particularly the upper credible interval owing to host mortality as tumours approached maximum volume [diploid 364 (136–2,475), tetraploid 172 (100–305), dermal 226 (134–471)]. To our knowledge, these are the first empirical estimates of tumour growth in the absence of treatment in a wild population. Through this animal-cancer system our findings may enhance understanding of how tumour properties interact with growth dynamics in other types of cancer.
Highlights
A pressing and unresolved topic in cancer research is how tumours grow in the absence of treatment
Assessing tumour growth dynamics and cancer progression may be used in more complex models for estimating the likelihood of metastasis
Since its emergence two decades ago, devil facial tumour disease (DFTD) has evolved into several karyotypic sublineages[21] and new evidence suggests that diploid tumours are associated with higher transmission rate, prevalence and population effects than tetraploid tumours[22]
Summary
A pressing and unresolved topic in cancer research is how tumours grow in the absence of treatment. Despite advances in cancer biology, therapeutic and diagnostic technologies, there is limited knowledge regarding the fundamental growth and developmental patterns in solid tumours In this ten year study, we estimated growth curves in Tasmanian devil facial tumours, a clonal transmissible cancer, in males and females with two different karyotypes (diploid, tetraploid) and facial locations (mucosal, dermal), using established differential equation models and model selection. Final tumour size (cm3) varied, the upper credible interval owing to host mortality as tumours approached maximum volume [diploid 364 (136– 2,475), tetraploid 172 (100–305), dermal 226 (134–471)] To our knowledge, these are the first empirical estimates of tumour growth in the absence of treatment in a wild population. We contextualise our findings for the epidemiology and effects of DFTD in wild devil populations and with application to tumour growth rate theory
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