画像誘導放射線治療における距離センサーを用いた微分幾何学に基づく患者体表面特徴点検出法の開発 - 九大コレクション | 九州大学附属図書館

＜博士論文＞
画像誘導放射線治療における距離センサーを用いた微分幾何学に基づく患者体表面特徴点検出法の開発

	Feasibility of differential geometry-based features in detection of anatomical feature points on patient surfaces in range image-guided radiation therapy
作成者	作成者姓名スーフィー, マーゼン SOUFI, MAZEN
論文調査委員	藪内, 英剛
	佐々木, 雅之
	杜下, 淳次
本文言語	英語
学位授与年度	2017
学位授与大学	九州大学
学位授与大学	Kyushu University
学位	博士（保健学）
学位種別	課程博士
アクセス権	metadata only access
関連DOI	https://doi.org/10.1007/s11548-016-1436-x
概要	PURPOSE:To investigate the feasibility of differential geometry features in the detection of anatomical feature points on a patient surface in infrared-ray-based range images in image-guided radiation... therapy. METHODS:The key technology was to reconstruct the patient surface in the range image, i.e., point distribution with three-dimensional coordinates, and characterize the geometrical shape at every point based on curvature features. The region of interest on the range image was extracted by using a template matching technique, and the range image was processed for reducing temporal and spatial noise. Next, a mathematical smooth surface of the patient was reconstructed from the range image by using a non-uniform rational B-splines model. The feature points were detected based on curvature features computed on the reconstructed surface. The framework was tested on range images acquired by a time-of-flight (TOF) camera and a Kinect sensor for two surface (texture) types of head phantoms A and B that had different anatomical geometries. The detection accuracy was evaluated by measuring the residual error, i.e., the mean of minimum Euclidean distances (MMED) between reference (ground truth) and detected feature points on convex and concave regions. RESULTS:The MMEDs obtained using convex feature points for range images of the translated and rotated phantom A were [Formula: see text] and [Formula: see text], respectively, using the TOF camera. For the phantom B, the MMEDs of the convex and concave feature points were [Formula: see text] and [Formula: see text] mm, respectively, using the Kinect sensor. There was a statistically significant difference in the decreased MMED for convex feature points compared with concave feature points [Formula: see text]. CONCLUSIONS:The proposed framework has demonstrated the feasibility of differential geometry features for the detection of anatomical feature points on a patient surface in range image-guided radiation therapy.続きを見る

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med3039_review	pdf	77.2 KB	210	審査結果要旨

詳細

レコードID	1866262
査読有無	査読有
権利関係	やむを得ない事由により本文ファイル非公開 (3)
権利関係	Public access to the fulltext file is restricted for unavoidable reason (3)
関連PubMed ID	27295052
報告番号	17102甲第13681号
学位記番号	医博甲第3039号
授与日(学位/助成/特許)	2017-09-25
受理日	2017-06-26
部局	医博
登録日	2017.11.02
更新日	2018.10.23