Toward Personalized Computer Simulation of Breast Cancer Treatment: A Multiscale Pharmacokinetic and Pharmacodynamic Model Informed by Multitype Patient Data.
Xiaoran LaiOliver M GeierThomas FleischerØystein GarredElin BorgenSimon Wolfgang FunkeSurendra KumarMarie E RognesTherese SeierstadAnne-Lise Børresen-DaleVessela N KristensenOlav EngebraatenAlvaro Köhn-LuqueArnoldo FrigessiPublished in: Cancer research (2019)
The usefulness of mechanistic models to disentangle complex multiscale cancer processes, such as treatment response, has been widely acknowledged. However, a major barrier for multiscale models to predict treatment outcomes in individual patients lies in their initialization and parametrization, which needs to reflect individual cancer characteristics accurately. In this study, we use multitype measurements acquired routinely on a single breast tumor, including histopathology, MRI, and molecular profiling, to personalize parts of a complex multiscale model of breast cancer treated with chemotherapeutic and antiangiogenic agents. The model accounts for drug pharmacokinetics and pharmacodynamics. We developed an open-source computer program that simulates cross-sections of tumors under 12-week therapy regimens and used it to individually reproduce and elucidate treatment outcomes of 4 patients. Two of the tumors did not respond to therapy, and model simulations were used to suggest alternative regimens with improved outcomes dependent on the tumor's individual characteristics. It was determined that more frequent and lower doses of chemotherapy reduce tumor burden in a low proliferative tumor while lower doses of antiangiogenic agents improve drug penetration in a poorly perfused tumor. Furthermore, using this model, we were able to correctly predict the outcome in another patient after 12 weeks of treatment. In summary, our model bridges multitype clinical data to shed light on individual treatment outcomes. SIGNIFICANCE: Mathematical modeling is used to validate possible mechanisms of tumor growth, resistance, and treatment outcome.
Keyphrases
- end stage renal disease
- chronic kidney disease
- newly diagnosed
- ejection fraction
- papillary thyroid
- magnetic resonance
- magnetic resonance imaging
- emergency department
- big data
- metabolic syndrome
- electronic health record
- single cell
- deep learning
- risk factors
- young adults
- radiation therapy
- computed tomography
- drug induced
- data analysis
- locally advanced
- single molecule
- skeletal muscle
- study protocol
- gestational age