CT evaluation of patient deep inspiration self‐breath‐holding: How precisely can patients reproduce the tumor position in the absence of respiratory monitoring devices?

Oda, Hiroshi; Kuriyama, Kinya; Komiyama, Takafumi; Tanaka, Shiho; Ueki, Junko; Sano, Nobuyuki; Araki, Tsutomu; Ikenaga, Satoshi; Tateda, Yoshihito; Aikawa, Yuri

doi:10.1118/1.1570372

Cited by 46 publications

(27 citation statements)

References 24 publications

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“…Tumour motion can be unrestricted and monitored, with delivery of RT gated to a pre-defined phase of the respiratory cycle [13][14][15] or following the moving tumour [16]. Alternatively motion can be Brock 5 minimized by planning and treating in passive [17][18][19][20][21] or active [22,23] breathhold.…”

Section: Introductionmentioning

confidence: 99%

The Use of the Active Breathing Coordinator Throughout Radical Non–Small-Cell Lung Cancer (NSCLC) Radiotherapy

Brock

McNair

Panakis

et al. 2011

International Journal of Radiation Oncology*Biology*Physics

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Section: Introductionmentioning

confidence: 99%

The Use of the Active Breathing Coordinator Throughout Radical Non–Small-Cell Lung Cancer (NSCLC) Radiotherapy

Brock

McNair

Panakis

et al. 2011

International Journal of Radiation Oncology*Biology*Physics

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“…Forth, we evaluated unidimensional measurements on the transaxial plane. Onishi and coworkers reported that tumors of lower or middle lung often demonstrated the largest respiratory movement along the craniocaudal axis and the smallest along the right-left axis [18]. Reproducible CT data for pulmonary nodules in the lung base must be obtained on coronal multiplanar reformatting plane to detect the largest respiratory movement.…”

Section: Discussionmentioning

confidence: 99%

Fluctuation in measurements of pulmonary nodule under tidal volume ventilation on four-dimensional computed tomography: preliminary results

et al. 2008

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The present study aimed to assess the feasibility of four-dimensional (4D) chest computed tomography (CT) under tidal volume ventilation and the impact of respiratory motion on quantitative analysis of CT measurements. Forty-four pulmonary nodules in patients with metastatic disease were evaluated. CT examinations were performed using a 256 multidetector-row CT (MDCT) unit. Volume data were obtained from the lower lung fields (128 mm) above the diaphragm during dynamic CT acquisition. The CT parameters used were 120 kV, 100 or 150 mA, 0.5 s(-1), and 0.5 mm collimation. Image data were reconstructed every 0.1 s during one respiratory cycle by a 180 degrees reconstruction algorithm for four independent fractions of the respiratory cycle. Pulmonary nodules were measured along their longest and shortest axes using electronic calipers. Automated volumetry was assessed using commercially available software. The diameters of long and short axes in each frame were 9.0-9.6 mm and 7.1-7.5 mm, respectively. There was fluctuation of the long axis diameters in the third fraction. The mean volume in each fraction ranged from 365 to 394 mm(3). Statistically significant fluctuation was also found in the third fraction. 4D-CT under tidal volume ventilation is feasible to determine diameter or volume of the pulmonary nodule.

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“…In our study, the PTV mDIBH included an extra 3 mm margin from the GTV to account for the reproducibility of the tumor position during breath holding. The PTV FB required an extra 10 mm in the left-right and anterior-posterior directions, and an additional 15 mm in the cranio-caudal direction, to account for the uncertainty introduced by breathing motions during CT, while these margins may be unnecessarily large to ensure adequate PTV coverage (14,15). The mean PTV decreased by 50%, which significantly reduced the irradiated region in the normal lungs.…”

Section: Discussionmentioning

confidence: 99%

“…PTV mDIBH contained GTV mDIBH plus 8 mm margins in all directions. All margins contained the 5 mm distance between the GTV and PTV (15).…”

Section: Acquisition Of Gtvs and Ptvsmentioning

confidence: 99%

High-dose-rate Three-dimensional Conformal Radiotherapy Combined with Active Breathing Control for Stereotactic Body Radiotherapy of Early-stage Non-small-cell Lung Cancer

Wang

Yin

Qin

et al. 2014

Technol Cancer Res Treat

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CT evaluation of patient deep inspiration self‐breath‐holding: How precisely can patients reproduce the tumor position in the absence of respiratory monitoring devices?

Cited by 46 publications

References 24 publications

The Use of the Active Breathing Coordinator Throughout Radical Non–Small-Cell Lung Cancer (NSCLC) Radiotherapy

The Use of the Active Breathing Coordinator Throughout Radical Non–Small-Cell Lung Cancer (NSCLC) Radiotherapy

Fluctuation in measurements of pulmonary nodule under tidal volume ventilation on four-dimensional computed tomography: preliminary results

High-dose-rate Three-dimensional Conformal Radiotherapy Combined with Active Breathing Control for Stereotactic Body Radiotherapy of Early-stage Non-small-cell Lung Cancer

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