Temperature elevation in tissue detected in vivo based on statistical analysis of ultrasonic scattered echoes

Michio Takeuchi,Keizo Takao,Hideyuki Hasegawa,Toshihiko Sakai,Gabor Andocs,Ryo Nagaoka

doi:10.1038/s41598-020-65562-4

Michio Takeuchi, Keizo Takao + Show 4 more

Open Access

https://doi.org/10.1038/s41598-020-65562-4

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Journal: Scientific Reports	Publication Date: Jun 3, 2020
Citations: 7	License type: open-access

Affiliation: Tokuyama (Japan), University of Toyama

Abstract

It is demanded to monitor temperature in tissue during oncological hyperthermia therapy. In the present study, we non-invasively measured the temperature elevation inside the abdominal cavity and tumour tissue of a living rat induced by capacitive-coupled radiofrequency heating. In the analysis of ultrasound scattered echoes, the Nakagami shape parameter m in each region of interest was estimated at each temperature. The Nakagami shape parameter m has temperature dependence; hence, the temperature increase inside tissue specimens can be detected with the m values. By carrying out in vivo experiments, we visualized the temperature increase inside the abdominal cavity and tumour tissue of living rats using two-dimensional hot-scale images indicating the absolute values of the ratio changes of the m values. In both the abdominal cavity and tumour tissue, the brightness in the hot-scale images clearly increased with increasing temperature. The increases in brightness in the hot-scale images imply the temperature elevations inside the abdominal cavity and tumour tissue of the living rats. The study results prove that the acoustic method we proposed is a promising method for monitoring changes in the internal temperature of the human body under hyperthermia treatment.

Highlights

It is demanded to monitor temperature in tissue during oncological hyperthermia therapy
We presented that it is important to avoid the influence of deformation resulting from a temperature elevation in soft tissue specimens to select a proper size of a region of interest (ROI) in the estimation of the shape parameter of the Nakagami distribution[22]
The study result implies that internal temperature changes under in vivo conditions can be expressed as hot-scale images indicating absolute values of ratio changes of m values estimated by selecting proper ROI sizes with consideration of the displacement due to body motion and pulsation

Summary

Introduction

It is demanded to monitor temperature in tissue during oncological hyperthermia therapy. The study result implies that internal temperature changes under in vivo conditions can be expressed as hot-scale images indicating absolute values of ratio changes of m values estimated by selecting proper ROI sizes with consideration of the displacement due to body motion and pulsation It was shown in our previous study that variations in the Nakagami shape parameter m due to a change in temperature depend on an initial m value[23]. We present an in vivo study result showing that the temperature elevation inside the abdominal cavity and tumour tissue of a living rat induced with capacitive-coupled radiofrequency (RF) current heating was detected by hot-scale images indicating absolute values of ratio changes of m values, αmod

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