In this retrospective study, the understanding of heat transport and temperature variations on the tissues of the patients with recurrent cervical cancer subjected to chemoradiation or neoadjuvant chemotherapy followed by surgery and radiotherapy has been studied in the light of Caputo–Fabrizio (CF) bio-heat transport law, in the context of Lord–Shulman (LS) model. The skin tissue is subjected to prescribed temperature and both ends of the tissue are thermally insulated. Laplace transform technique is implemented to solve the governing equations. The influences of CF order and moving heat source velocity on the temperature of skin tissues and the thermal injuries are precisely investigated. The thermal injuries to the tissue are assessed by the denatured protein range using the current formulation in which the numerical inversion of the Laplace transform is carried out using Zakian methods. The numerical outcomes of thermal injuries and temperatures have been represented graphically. Excellent predictive capability is demonstrated for identification of appropriate procedure to select different orders of CF derivative to reach effective heating in hyperthermia treatment.

在这项回顾性研究中，已经根据Caputo–Fabrizio（CF）生物热的方法，研究了接受化学放疗或新辅助化疗并随后接受手术和放疗的复发性宫颈癌患者组织的热传递和温度变化。洛德·舒尔曼（LS）模型中的运输法。皮肤组织受到规定的温度，并且组织的两端都被热绝缘。实施拉普拉斯变换技术来求解控制方程。精确研究了CF顺序和热源移动速度对皮肤组织温度和热损伤的影响。使用当前配方，通过变性蛋白质范围评估对组织的热损伤，其中使用Zakian方法对Laplace变换进行数值反演。热损伤和温度的数值结果已用图形表示。证明了出色的预测能力，可用于确定适当的程序，以选择不同顺序的CF衍生物以达到热疗的有效加热效果。