Your search keyword '"Zhong, Renming"' showing total 5 results

1. Prediction of proton beam range in phantom with metals based on monochromatic energy CT images.

Author

Meng, Qianqian, Li, Jing, Jiang, Wei, Hu, Birong, Xu, Feng, Shi, Xiaomeng, and Zhong, Renming

Subjects

PROTON beams, COMPUTED tomography, FEMUR head, METALS, RADIATION, TITANIUM alloys

Abstract

The purpose of the study was to evaluate the accuracy of monochromatic energy (MonoE) computed tomography (CT) images reconstructed by spectral CT in predicting the stopping power ratio |$(SP{R}_w)$| of materials in the presence of metal. The CIRS062 phantom was scanned three times using spectral CT. In the first scan, a solid water insert was placed at the center of the phantom |$(C{T}_{no\ metal})$|⁠. In the second scan, the solid water insert was replaced with a titanium alloy femoral head |$(C{T}_{metal})$|⁠. The metal artifact reduction (MAR) algorithm was used in the last scan |$(C{T}_{metal+ MAR})$|⁠. The MonoE-CT images of 40 keV and 80 keV were reconstructed. Finally, the single-energy CT method (SECT) and the dual-energy CT method (DECT) were used to calculate the |$SP{R}_w$|⁠. The mean absolute error (MAE) of the |$SP{R}_w$| of the inner layer inserts calculated by the SECT method were 3.19%, 13.88% and 2.71%, corresponding to |$C{T}_{no\ metal}$|⁠ , |$C{T}_{metal}$| and |$C{T}_{metal+ MAR}$|⁠ , respectively. For the outer layer inserts, the MAE of |$SP{R}_w$| were 3.43%, 5.42% and 2.99%, respectively. Using the DECT method, the MAE of the |$SP{R}_w$| of the inner layer inserts was 1.30%, 3.69% and 1.46% and the MAE of the outer layer inserts– was 1.34%, 1.36% and 1.05%. The studies shows that, compared with the SECT method, the accuracy of the DECT method in predicting the |$SP{R}_w$| of a material is more robust to the presence of metal. Using the MAR algorithm when performing CT scans can further improve the accuracy of predicting the SPR of materials in the presence of metal. [ABSTRACT FROM AUTHOR]

Published

2022

2. Application of 3D-print silica bolus for nasal NK/T-cell lymphoma radiation therapy.

Author

Dai, Guyu, Xu, Xin, Wu, Xiaohong, Lei, Xiaolin, Wei, Xing, Li, Zhibin, Xiao, Qing, Zhong, Renming, and Bai, Sen

Subjects

T-cell lymphoma, RADIOTHERAPY, METAL oxide semiconductors

Abstract

The aim of the study was to evaluate the clinical feasibility of a 3D-print silica bolus for nasal NK/T-cell lymphoma radiation therapy. Intensity modulated radiotherapy (IMRT) and volumetric modulated arc therapy (VMAT) plans were designed using an anthropomorphic head phantom with a 3D-print silica bolus and other kinds of bolus used clinically, and the surface dose was measured by a metal oxide semiconductor field-effect transistor (MOSFET) dosimeter. Four nasal NK/T patients with or without 3D-print silica bolus were treated and the nose surface dose was measured using a MOSFET dosimeter during the first treatment. Plans for the anthropomorphic head phantom with 3D-print bolus have more uniform dose and higher conformity of the planning target volume (PTV) compared to other boluses; the homogeneity index (HI) and conformity index (CI) of the VMAT plan were 0.0589 and 0.7022, respectively, and the HI and CI of the IMRT plan were 0.0550 and 0.7324, respectively. The MOSFET measurement results showed that the surface dose of the phantom with 3D-print bolus was >180 cGy, and that of patients with 3D-print bolus was higher than patients without bolus. The air gap volume between the 3D-print bolus and the surface of patients was <0.3 cc. The 3D-print silica bolus fitted well on the patient's skin, effectively reducing air gaps between bolus and patient surface. Meanwhile, the 3D-print silica bolus provided patients with higher individuation, and improved the conformity and uniformity of the PTV compared to other kinds of boluses. [ABSTRACT FROM AUTHOR]

Published

2020

3. Design of a new breast vacuum bag to reduce the global and local setup errors and to reduce PTV margin in post-mastectomy radiation therapy.

Author

Shen, Konglong, Xiong, Jie, Wang, Zhiguo, Wang, Weifeng, Li, Wan, Zhou, Jidan, Deng, Zhonghua, Li, Bin, and Zhong, Renming

Subjects

RADIOTHERAPY, MASTECTOMY complications, CONE beam computed tomography

Abstract

To design a new breast vacuum bag to reduce global and local setup errors in post-mastectomy radiation therapy (PMRT). A total of 24 PMRT patients were immobilized with an old vacuum bag and 26 PMRT patients were immobilized with a new vacuum bag. The registration results were analysed using four regions of interest (ROI): the global ROI [including the whole region of the planning target volume (PTV), GROI], the supraclavicular area (SROI), the ipsilateral chest wall region (CROI) and the ipsilateral arm region (AROI). The global and local setup errors of the two groups were compared. The global setup errors of the new vacuum group were significantly smaller than those in the old vacuum group with the exception of yaw axes (P  < 0.05). The systematic error (Σ) and random error (σ) ranged from 1.21 to 2.13 mm. In the new vacuum group, the local setup errors in the medial-lateral (ML) direction and roll axes for CROI (the Σ and σ ranged from 0.65 to 1.35 mm), and the local setup errors in ML and superior-inferior (SI) directions for SROI were significantly smaller than those in the old vacuum group. The total required PTV margins for the chest wall in ML, SI, and anterior-posterior (AP) were 4.40, 3.12 and 3.77 mm respectively. The new vacuum bag can significantly reduce the global setup errors and local setup errors in PMRT. The respiratory motion of the chest wall was negligible, and the 5 mm PTV margin could cover the local setup errors in PMRT using the new vacuum bag with cone beam CT (CBCT) correction. [ABSTRACT FROM AUTHOR]

Published

2020

4. Analysis of local setup errors of sub-regions in cone-beam CT-guided post-mastectomy radiation therapy.

Author

Zhou, Jidan, Li, Shuai, Ye, Chengwei, Shen, Konglong, Li, An, Chen, Gang, Li, Xiaoyu, Bai, Sen, Wang, Weifeng, and Zhong, Renming

Subjects

MASTECTOMY, CONE beam computed tomography, CANCER radiotherapy

Abstract

The purpose of the study was to quantify local setup errors and evaluate the planning target volume (PTV) margins for sub-regions in cone-beam computed tomography (CBCT)-guided post-mastectomy radiation therapy (PMRT). The local setup errors of 20 patients undergoing CBCT-guided PMRT were analysed retrospectively. Image registration between CBCT and planning CT was performed using four sub-regions of interest (ROIs): the supraclavicular area (SROI), ipsilateral chest wall region (CROI), ipsilateral chest wall plus supraclavicular region (SROI + CROI) and vertebral region (TROI). Bland–Altman analysis, correlation, local setup errors and PTV margins among these ROIs were evaluated. There was no significant consistency or correlation for registration results between the TROI and the CROI or SROI regions on any translational axis. When using the SROI + CROI as the ROI, the systematic error (Σ) and random error (σ) of the local setup errors for the CROI region were 1.81, 1.19 and 1.76 mm and 1.84, 2.64 and 3.00 mm along the medial–lateral (ML), superior–inferior (SI) and anterior–posterior (AP) directions, respectively. The PTV margins for the CROI region were 5.80, 4.82 and 6.50 mm. The Σ and σ of the local setup errors for the SROI region were 1.29, 1.15 and 0.77 mm and 1.96, 2.65 and 2.2 mm, respectively, and the PTV margins were 4.59, 4.73 and 3.47 mm. Large setup errors and local setup errors occur in PMRT. The vertebral body should not be a position surrogate for the supraclavicular region or chest wall. To compensate for the local setup errors, different PTV margins are required, even with CBCT guidance. [ABSTRACT FROM AUTHOR]

Published

2020

5. Analysis of which local set-up errors can be covered by a 5-mm margin for cone beam CT-guided radiotherapy for nasopharyngeal carcinoma.

Author

Zhong, Renming, Song, Ying, Yan, Yuying, Wang, Xuetao, Li, Shuai, Zhou, Jidan, Li, Xiaoyu, and Bai, Sen

Subjects

*NASOPHARYNX cancer, *CANCER radiotherapy, *CONE beam computed tomography, *IMAGE registration, *SPHENOID sinus, *RECEIVER operating characteristic curves

Abstract

To analyse which local set-up errors can be covered by a 5-mm margin for cone beam computed tomography (CBCT)-guided radiotherapy in nasopharyngeal carcinoma (NPC). 11 regions of interest (ROIs) were registered for 24 NPC patients, with a total of 323 CBCT scans. According to the registration results, clinical target volume–planning target volume (CTV–PTV)/organs at risk-planning risk volume (OAR-PRV) margin analysis; Pearson correlation analysis; Bland–Altman plots; and a receiver operating characteristic (ROC) analysis were used to investigate which local set-up errors of substructure can be represented by the PTVROI. The clinical target volume-PTV/OAR-planning risk volume margins were less than 5 mm for C1ROI-C4ROI, mandible (MROI), and sphenoid sinus (SROI) with respect to PTVROI. C1ROI-C4ROI, MROI, and SROI exhibited significant correlations and consistencies in the mediolateral, superior–inferior, and anteroposterior (AP) directions and significant receiver operating characteristic analysis results in the anteroposterior direction. Only the upper local set-up error of C1ROI-C4ROI, MROI, and SROI can be covered by a 5-mm margin for CBCT-guided NPC radiotherapy with a large ROI. Using these ROIs as an integral reference ROI is better than individual bony landmark. This report is helpful to CBCT registration for NPC radiotherapy in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2018