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vmsatya / ConcurrentTherapySecondCancer

A biologically motivated mathematical formalism is used to estimate the relative risks of breast, lung and thyroid cancers in childhood cancer survivors due to concurrent therapy regimen. This model specifically includes possible organ-specific interaction between radiotherapy and chemotherapy. The model predicts relative risks for developing secondary cancers after chemotherapy in breast, lung and thyroid tissues, and compared with the epidemiological data.

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second-cancerchildhood-cancer-survivors-studymutation-ratechemo-radiationtreatment-interactiontreatment-effectsrelative-riskchemotherapyradiotherapyconcurrent-therapy

ConcurrentTherapySecondCancer

A biologically motivated mathematical formalism is used to estimate the relative risks of breast, lung and thyroid cancers in childhood cancer survivors due to concurrent therapy regimen. This model specifically includes possible organ-specific interaction between radiotherapy and chemotherapy. The model predicts relative risks for developing secondary cancers after chemotherapy in breast, lung and thyroid tissues, and compared with the epidemiological data.

Manuscript: https://www.mdpi.com/2072-6694/9/9/119/htm

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A biologically motivated mathematical formalism is used to estimate the relative risks of breast, lung and thyroid cancers in childhood cancer survivors due to concurrent therapy regimen. This model specifically includes possible organ-specific interaction between radiotherapy and chemotherapy. The model predicts relative risks for developing secondary cancers after chemotherapy in breast, lung and thyroid tissues, and compared with the epidemiological data.

second-cancerchildhood-cancer-survivors-studymutation-ratechemo-radiationtreatment-interactiontreatment-effectsrelative-riskchemotherapyradiotherapyconcurrent-therapy

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