基于四维CT的胸中下段食管癌大体肿瘤体积和位移的相关研究

doi:10.3760/cma.j.issn.1004-4221.2012.02.013

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Abstract Objective To investigate the correlation between the motion of gross tumor volume (GTV) and the interested organs, and the correlation between the volume of GTV and the volume ofheart and lung for the mid-and distal esophageal cancer using four-dimensional CT (4DCT). Methods
Seventeen patients with middle/distal esophageal carcinoma underwent respiration-synchronized 4DCT simulation during free breathing. All image sets were registered with the reference image (T₀ phase), and the GTV, the dome of diaphragm, lung and heart were delineated on CT images of the ten respiratory phases. The position of GTV, lung, heart and the dome of diaphragm were identified in all 4DCT phases, and the volume of GTV, lung and heart were also achieved. Paired sample t test were performed to compare the primary esophageal cancer displacement in the three directions. The pearson correlation test was use to study the correlation of GTV motion with the OARs, and the volume correlation of GTV with lung and heart. Results The maximum displacement of the GTV were 0.19 cm,0.17 cm,and 0.48 cm, respectively in x, y and z directions. And the displacement were significant different between z and x, y directions (t=－3.59,－4.09,P=0.002,0.001). The displacement of GTV correlated well with right lung and heart in three dimensions (r_RL-x=0.922,P_RL-x=0.000, r_RL-y=0.700, P_RL-y=0.024,r_RL-z=0.994, P_rRL-z=0.000;r_H-x=0.720,P_H-x=0.010,r_H-y=0.920, P_H-y=0.000,r_H-z=0.910,P_H-z=0.000), and only significantly associated with left lung in z direction (r=0.987,P=0.000). There was a good correlation between GTVand the dome of diaphragm in z direction (r_L=0.918, P_L=0.000;r_R=0.928,P_R=0.000). Changes in the GTV volume was correlated well with the lung volume (r_LL=－0.680, P_LL=0.031;r_rL=－0.670, Pr_L=0.034), but the correlation was not significant with the heart (r=－0.368, P=0.295) during respiratory cycle. Conclusions For middle/distal esophageal cancer, the primary tumor motion was maximal in superior-inferior direction during normal respiration, and synchronized with the dome of diaphragm. The primary tumor displacement and volume variation have different correlations with heart and lung.

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	WANG Wei^*
	LI Jian-bin
	ZHANG Ying-jie
	XU Min
	FAN Ting-yong
	SHAO Qian
	SHANG Dong-ping

Key words： Tomography, X-ray computed, four-dimensional Gross tumor volume Displacement correlation Esophageal neoplasms/radiotherapy

Received: 20 April 2011

Corresponding Authors: 李建彬 E-mail: lijianbin@msn.com

Cite this article:

WANG Wei^*,LI Jian-bin,ZHANG Ying-jie et al. A correlation study on target displacement and volume variation of primary middle and distal esophageal cancer during normal respiration using four-dimensional CT[J]. Chinese Journal of Radiation Oncology, 2012, 21(2): 140-143.

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http://journal12.magtechjournal.com/Jweb_fszlx/EN/10.3760/cma.j.issn.1004-4221.2012.02.013 OR http://journal12.magtechjournal.com/Jweb_fszlx/EN/Y2012/V21/I2/140

[1] Hashimoto T, Shirato H, Kato M, et al. Real-time monitoringof a digestive tract marker to reduce adverse effects of moving organs at risk (OAR) in radiotherapy for thoracic and abdominal tumors. Int J Radiat Oncol Biol Phys,2005,61:1559-1564.
[2] Gierga DP, Brewer J, Sharp GC. The correlation between internal and external markers for abdominal tumors:implications for respiratory gating. Int J Radiat Oncol Biol Phys,2005,61:1551-1558.
[3] Admiraal MA, Schuring D, Hurkmans CW. Dose calculations accounting for breathing motion in stereotactic lung radiotherapy based on 4DCT and the internal target volume. Radiother Oncol,2008,86:55-60.
[4] Patel AA, Wolfgang JA, Niemierko A, et al. Implications of respiratory motion as measured by four-dimensional computed tomography for radiation treatment planning of esophageal cancer. Med Phys,2009,36:1610-1617.
[5] Roland T, Mavroidis P, Gutierrez A, et al. A radiobiological analysis of the effect of 3D versus 4D image-based planning in lung cancer radiotherapy. Phys Med Biol,2009,54:5509-5523.
[6] Zhao KL, Liao Z, Bucci MK, et al. Evaluation of respiratory induced target motion for esophageal tumors at the gastroesophageal junction. Radiother Oncol,2007,84:283-289.
[7] Dieleman EM, Senan S, Vincent A, et al. Four-dimensional computed tomographic analysis of esophageal mobility during normal respiration. Int J Radiat Oncol Biol Phys,2007,67:775-780.
[8] Yaremko BP, Guerrero TM, McAleer MF, et al. Determination of respiratory motion for distal esophagus cancer using four dimensional computed tomography. Int J Radiat Oncol Biol Phys,2008,70:145-153.
[9] 杨福俊,张健,李洪升,等.四维CT测量平静呼吸下原发胸段食管肿瘤运动的初步研究.中华放射肿瘤学杂志,2011,20:208-210.
[10] Yamashita H, Kida S, Sakumi A, et al. Four-dimensional measurement of the displacement of internal fiducial markers during 320-multislice computed tomography scanning of thoracic esophageal cancer. Int J Radiat Oncol Biol Phys,2011,79:588-595.
[11] Seppenwoolde Y, Shirato H, Kitamura K, et al. Precise and real-time measurement of 3D tumor motion in lung due to breathing and heartbeat, measured during radiotherapy. Int J Radiat Oncol Biol Phys,2002,53:822-834.