Evaluation of Cancer Progression Using Dynamic Entropy Changes and Thermography

Year 2021, Volume: 24 Issue: 2, 172 - 182, 26.05.2021

Mohammad Hasan Khoshgoftar Manesh Ali Akbar Rezazadeh Tayebeh Modaresi Movahed Hamid Reza Mirzaei

https://doi.org/10.5541/ijot.885583

Cited By: 1

Abstract

Entropy is producing during any irreversible process. In the cancer cells, the entropy generation measures the irreversibility; so, the cancer cells have higher entropy generation than the healthy cells. The entropy generation rate shows the amount of robustness, progression, and invasion of the cancer cells. From a thermodynamic aspect, cancer's origin and growth is an irreversible process, and the thermodynamic variables such as the cell volume, temperature, and entropy will change during this process. In this paper, a procedure based on experimental data is proposed to calculate dynamic entropy generation in the tumoral tissues by dynamic thermography and measurement of tumor size. The dynamic changes in the volume, temperature, and entropy associated with tumor cells over time are tested and evaluated in this regard. An in vivo assay has been developed to measure and analyze these changes. This assay investigated the growth of 4T1 Breast Tumor in 55 BALB/c mice over time. Infrared thermography has been employed to evaluate dynamic temperature changes of the tumors. The computer code has been developed to gather important data from tumoral and healthy mice's images to compute considered temperature differences and entropy generation associated with tumoral tissues. To better evaluate tumor tissue, the Micro PET Images are used to verify volume changes of tumors. The relation between the volume and temperature gradient of tumor cells has detected by measuring during the experiment. The entropy of tumor cells was studying and calculating during the process of tumor changes. Results show that entropy generation as the main concept of thermodynamic is a strong tool for the analysis of cancer cells and has a strong relationship with cancer growth.

Keywords

Breast Cancer, Volume,, Temperature, Micro PET, Entropy, Infrared Thermography

References

• [1]. World Health Organization 2018 [cited 2019 June]; Available from: http://www.who.int/es/.