Effect of deformable registration on the dose calculated in radiation therapy planning CT scans of lung cancer patients a

Purpose: To characterize the effects of deformable image registration of serial computed tomography (CT) scans on the radiation dose calculated from a treatment planning scan. Methods: Eighteen patients who received curative doses (≥60 Gy, 2 Gy/fraction) of photon radiation therapy for lung cancer t...

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Bibliographic Details
Published in:Medical physics (Lancaster) 2015-01, Vol.42 (1), p.391-399
Main Authors: Cunliffe, Alexandra R., Contee, Clay, Armato, Samuel G., White, Bradley, Justusson, Julia, Malik, Renuka, Al‐Hallaq, Hania A.
Format: Article
Language:English
Subjects:
60 APPLIED LIFE SCIENCES
Aged
ALGORITHMS
Biological material, e.g. blood, urine
Haemocytometers
cancer
Carcinoma, Non-Small-Cell Lung - diagnostic imaging
Carcinoma, Non-Small-Cell Lung - radiotherapy
CAT SCANNING
Combined Modality Therapy
Computed tomography
Computerised tomographs
computerised tomography
deformable registration
Digital computing or data processing equipment or methods, specially adapted for specific applications
dose difference
Dose‐volume analysis
dosimetry
Female
Humans
Image data processing or generation, in general
image registration
lung
Lung - diagnostic imaging
Lung - radiation effects
LUNGS
Male
medical image processing
Medical imaging
Medical treatment planning
Middle Aged
NEOPLASMS
PATIENTS
Pattern Recognition, Automated
Photons - therapeutic use
PLANNING
RADIATION DOSES
Radiation Imaging Physics
radiation therapy
Radiation treatment
RADIOTHERAPY
Radiotherapy Dosage
Radiotherapy Planning, Computer-Assisted - methods
Radiotherapy, Conformal - methods
Regression Analysis
Researchers
Retrospective Studies
Scintigraphy
Small Cell Lung Carcinoma - diagnostic imaging
Small Cell Lung Carcinoma - radiotherapy
Tissues
Tomography, X-Ray Computed - methods
User-Computer Interface
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Summary:Purpose: To characterize the effects of deformable image registration of serial computed tomography (CT) scans on the radiation dose calculated from a treatment planning scan. Methods: Eighteen patients who received curative doses (≥60 Gy, 2 Gy/fraction) of photon radiation therapy for lung cancer treatment were retrospectively identified. For each patient, a diagnostic‐quality pretherapy (4–75 days) CT scan and a treatment planning scan with an associated dose map were collected. To establish correspondence between scan pairs, a researcher manually identified anatomically corresponding landmark point pairs between the two scans. Pretherapy scans then were coregistered with planning scans (and associated dose maps) using the demons deformable registration algorithm and two variants of the Fraunhofer MEVIS algorithm (“Fast” and “EMPIRE10”). Landmark points in each pretherapy scan were automatically mapped to the planning scan using the displacement vector field output from each of the three algorithms. The Euclidean distance between manually and automatically mapped landmark points (dE) and the absolute difference in planned dose (|ΔD|) were calculated. Using regression modeling, |ΔD| was modeled as a function of dE, dose (D), dose standard deviation (SDdose) in an eight‐pixel neighborhood, and the registration algorithm used. Results: Over 1400 landmark point pairs were identified, with 58–93 (median: 84) points identified per patient. Average |ΔD| across patients was 3.5 Gy (range: 0.9–10.6 Gy). Registration accuracy was highest using the Fraunhofer MEVIS EMPIRE10 algorithm, with an average dE across patients of 5.2 mm (compared with >7 mm for the other two algorithms). Consequently, average |ΔD| was also lowest using the Fraunhofer MEVIS EMPIRE10 algorithm. |ΔD| increased significantly as a function of dE (0.42 Gy/mm), D (0.05 Gy/Gy), SDdose (1.4 Gy/Gy), and the algorithm used (≤1 Gy). Conclusions: An average error of
ISSN:0094-2405
2473-4209
DOI:10.1118/1.4903267