Title
Prognostic Modeling and Analysis of Tumor Response to Fractionated Radiotherapy for Patients with Squamous Cell Lung Cancer.
Abstract
The efficacy of radiotherapy depends on tumor response to radiation. The purpose of this study is to derive three basic tumor-response parameters from a sequence of measured tumor volumes, and then use these parameters to predict treatment outcome for patients with squamous cell lung cancer. 43 patients were investigated in this study. A tumor kinetic model was iterated daily, following the fractionation scheme of radiation treatment for each patient. By minimizing the difference between the model-predicted tumor regression and the measured changes in tumor volumes, three parameters were calibrated and then used to calculate tumor control probability (TCP). The results showed that the major portion of the patients have tumor doubling time (DT) less than 183 days and half time (HT) for dead cell resolving less than 50 days. The modeling differences from measured tumor volumes were summated over the 43 patients, and the sum reaches its minimum with DT at 90 days and HT at 30 days. The behavior of the kinetic model is stable to DT and HT as the modeling difference has only one minimum within the clinically meaningful ranges for the two parameters. One third of these patients have the cell survival fraction at 12 Gy (SF12) less than 0.1, and 80% of them with SF12 less than 0.6. In summary, kinetic modeling of tumor response may help quantify radiobiological parameters which can be used to predict treatment outcomes for individual patients.
Year
DOI
Venue
2017
10.1007/978-3-319-56154-7_49
BIOINFORMATICS AND BIOMEDICAL ENGINEERING, IWBBIO 2017, PT II
Keywords
Field
DocType
Kinetic modeling,Radiobiological parameters,Tumor control probability,Tumor regression
Oncology,Nuclear medicine,Half time,Computer vision,Regression,Doubling time,Internal medicine,Kinetic model,Radiation therapy,Artificial intelligence,Engineering,Squamous cell lung cancer
Conference
Volume
ISSN
Citations 
10209
0302-9743
0
PageRank 
References 
Authors
0.34
1
5
Name
Order
Citations
PageRank
Hualiang Zhong142.80
Hoda Sharifi200.34
Haisen Li343.24
Weihua Mao4769.79
i chetty511.45