158 results on '"Shen, Jiajian"'
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2. The Status and Challenges for Prostate Stereotactic Body Radiation Therapy Treatments in United States Proton Therapy Centers: An NRG Oncology Practice Survey
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Shen, Jiajian, Taylor, Paige A., Vargas, Carlos E., Kang, Minglei, Saini, Jatinder, Zhou, Jun, Wang, Peilong, Liu, Wei, Simone, Charles B., II, Xiao, Ying, and Lin, Liyong
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- 2024
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3. The AAPM/ASTRO 2023 Core Physics Curriculum for Radiation Oncology Residents
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Studenski, Matthew T., Cetnar, Ashley, Derosiers, Colleen M., Dooley, Sarah, Gagneur, Justin D., Galavis, Paulina E., Kainz, Kristofer K., Lamichhane, Narottam, Sandwall, Peter A., Shen, Jiajian, Tien, Christopher J., Wang, Dongxu, Wang, Iris Z., Warkentin, Heather K., and McAvoy, Sarah
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- 2024
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4. Online Adaptive Proton Therapy Facilitated by Artificial Intelligence–Based Autosegmentation in Pencil Beam Scanning Proton Therapy
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Feng, Hongying, Shan, Jie, Vargas, Carlos E., Keole, Sameer R., Rwigema, Jean-Claude M., Yu, Nathan Y., Ding, Yuzhen, Zhang, Lian, Hu, Yanle, Schild, Steven E., Wong, William W., Vora, Sujay A., Shen, JiaJian, and Liu, Wei
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- 2024
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5. Developing an accurate model of spot-scanning treatment delivery time and sequence for a compact superconducting synchrocyclotron proton therapy system
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Zhao, Lewei, Liu, Gang, Chen, Shupeng, Shen, Jiajian, Zheng, Weili, Qin, An, Yan, Di, Li, Xiaoqiang, and Ding, Xuanfeng
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- 2022
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6. Time structures of proton pencil beam scanning delivery on a microsecond scale measured with a pixelated semiconductor detector Timepix3.
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Shen, Jiajian, Ding, Xuanfeng, Charyyev, Serdar, Liang, Xiaoying, Oancea, Cristina, Wang, Peilong, Rule, William G., Liu, Wei, Bues, Martin, and Lin, Liyong
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SEMICONDUCTOR detectors ,SYNCHROTRONS ,PROTON therapy ,RADIO frequency ,RADIOTHERAPY ,PROTON beams - Abstract
Purpose: The time structures of proton spot delivery in proton pencil beam scanning (PBS) radiation therapy are essential in many clinical applications. This study aims to characterize the time structures of proton PBS delivered by both synchrotron and synchrocyclotron accelerators using a non‐invasive technique based on scattered particle tracking. Methods: A pixelated semiconductor detector, AdvaPIX‐Timepix3, with a temporal resolution of 1.56 ns, was employed to measure time of arrival of secondary particles generated by a proton beam. The detector was placed laterally to the high‐flux area of the beam in order to allow for single particle detection and not interfere with the treatment. The detector recorded counts of radiation events, their deposited energy and the timestamp associated with the single events. Individual recorded events and their temporal characteristics were used to analyze beam time structures, including energy layer switch time, magnet switch time, spot switch time, and the scanning speeds in the x and y directions. All the measurements were repeated 30 times on three dates, reducing statistical uncertainty. Results: The uncertainty of the measured energy layer switch times, magnet switch time, and the spot switch time were all within 1% of average values. The scanning speeds uncertainties were within 1.5% and are more precise than previously reported results. The measurements also revealed continuous sub‐milliseconds proton spills at a low dose rate for the synchrotron accelerator and radiofrequency pulses at 7 µs and 1 ms repetition time for the synchrocyclotron accelerator. Conclusion: The AdvaPIX‐Timepix3 detector can be used to directly measure and monitor time structures on microseconds scale of the PBS proton beam delivery. This method yielded results with high precision and is completely independent of the machine log files. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Exploratory Investigation of Dose-Linear Energy Transfer (LET) Volume Histogram (DLVH) for Adverse Events Study in Intensity Modulated Proton Therapy (IMPT)
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Yang, Yunze, Vargas, Carlos E., Bhangoo, Ronik S., Wong, William W., Schild, Steven E., Daniels, Thomas B., Keole, Sameer R., Rwigema, Jean-Claude M., Glass, Jennifer L., Shen, Jiajian, DeWees, Todd A., Liu, Tianming, Bues, Martin, Fatyga, Mirek, and Liu, Wei
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- 2021
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8. Impact of proton PBS machine operating parameters on the effectiveness of layer rescanning for interplay effect mitigation in lung SBRT treatment.
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Liang, Xiaoying, Liu, Chunbo, Shen, Jiajian, Flampouri, Stella, Park, Justin C., Lu, Bo, Yaddanapudi, Sridhar, Tan, Jun, Furutani, Keith M., and Beltran, Chris J.
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LUNGS ,PROTONS ,PROTON beams ,MACHINERY - Abstract
Background: Rescanning is a common technique used in proton pencil beam scanning to mitigate the interplay effect. Advances in machine operating parameters across different generations of particle therapy systems have led to improvements in beam delivery time (BDT). However, the potential impact of these improvements on the effectiveness of rescanning remains an underexplored area in the existing research. Methods: We systematically investigated the impact of proton machine operating parameters on the effectiveness of layer rescanning in mitigating interplay effect during lung SBRT treatment, using the CIRS phantom. Focused on the Hitachi synchrotron particle therapy system, we explored machine operating parameters from our institution's current (2015) and upcoming systems (2025A and 2025B). Accumulated dynamic 4D dose were reconstructed to assess the interplay effect and layer rescanning effectiveness. Results: Achieving target coverage and dose homogeneity within 2% deviation required 6, 6, and 20 times layer rescanning for the 2015, 2025A, and 2025B machine parameters, respectively. Beyond this point, further increasing the number of layer rescanning did not further improve the dose distribution. BDTs without rescanning were 50.4, 24.4, and 11.4 s for 2015, 2025A, and 2025B, respectively. However, after incorporating proper number of layer rescanning (six for 2015 and 2025A, 20 for 2025B), BDTs increased to 67.0, 39.6, and 42.3 s for 2015, 2025A, and 2025B machine parameters. Our data also demonstrated the potential problem of false negative and false positive if the randomness of the respiratory phase at which the beam is initiated is not considered in the evaluation of interplay effect. Conclusion: The effectiveness of layer rescanning for mitigating interplay effect is affected by machine operating parameters. Therefore, past clinical experiences may not be applicable to modern machines. [ABSTRACT FROM AUTHOR]
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- 2024
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9. Implementation and experimental evaluation of Mega-voltage fan-beam CT using a linear accelerator
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Gong, Hao, Tao, Shengzhen, Gagneur, Justin D., Liu, Wei, Shen, Jiajian, McCollough, Cynthia H., Hu, Yanle, and Leng, Shuai
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- 2021
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10. Applications of various range shifters for proton pencil beam scanning radiotherapy
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Lin, Haibo, Shi, Chengyu, Huang, Sheng, Shen, Jiajian, Kang, Minglei, Chen, Qing, Zhai, Huifang, McDonough, James, Tochner, Zelig, Deville, Curtiland, Simone, II, Charles B., and Both, Stefan
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- 2021
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11. Beam mask and sliding window‐facilitated deep learning‐based accurate and efficient dose prediction for pencil beam scanning proton therapy.
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Zhang, Lian, Holmes, Jason M., Liu, Zhengliang, Vora, Sujay A., Sio, Terence T., Vargas, Carlos E., Yu, Nathan Y., Keole, Sameer R., Schild, Steven E., Bues, Martin, Li, Sheng, Liu, Tianming, Shen, Jiajian, Wong, William W., and Liu, Wei
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DEEP learning ,PROTON therapy ,PROTON beams ,PROSTATE cancer patients ,COMPUTED tomography ,FORECASTING - Abstract
Background: Accurate and efficient dose calculation is essential for on‐line adaptive planning in proton therapy. Deep learning (DL) has shown promising dose prediction results in photon therapy. However, there is a scarcity of DL‐based dose prediction methods specifically designed for proton therapy. Successful dose prediction method for proton therapy should account for more challenging dose prediction problems in pencil beam scanning proton therapy (PBSPT) due to its sensitivity to heterogeneities. Purpose: To develop a DL‐based PBSPT dose prediction workflow with high accuracy and balanced complexity to support on‐line adaptive proton therapy clinical decision and subsequent replanning. Methods: PBSPT plans of 103 prostate cancer patients (93 for training and the other 10 for independent testing) and 83 lung cancer patients (73 for training and the other 10 for independent testing) previously treated at our institution were included in the study, each with computed tomography scans (CTs), structure sets, and plan doses calculated by the in‐house developed Monte‐Carlo dose engine (considered as the ground truth in the model training and testing). For the ablation study, we designed three experiments corresponding to the following three methods: (1) Experiment 1, the conventional region of interest (ROI) (composed of targets and organs‐at‐risk [OARs]) method. (2) Experiment 2, the beam mask (generated by raytracing of proton beams) method to improve proton dose prediction. (3) Experiment 3, the sliding window method for the model to focus on local details to further improve proton dose prediction. A fully connected 3D‐Unet was adopted as the backbone. Dose volume histogram (DVH) indices, 3D Gamma passing rates with a criterion of 3%/3 mm/10%, and dice coefficients for the structures enclosed by the iso‐dose lines between the predicted and the ground truth doses were used as the evaluation metrics. The calculation time for each proton dose prediction was recorded to evaluate the method's efficiency. Results: Compared to the conventional ROI method, the beam mask method improved the agreement of DVH indices for both targets and OARs and the sliding window method further improved the agreement of the DVH indices (for lung cancer, CTV D98 absolute deviation: 0.74 ± 0.18 vs. 0.57 ± 0.21 vs. 0.54 ± 0.15 Gy[RBE], ROI vs. beam mask vs. sliding window methods, respectively). For the 3D Gamma passing rates in the target, OARs, and BODY (outside target and OARs), the beam mask method improved the passing rates in these regions and the sliding window method further improved them (for prostate cancer, targets: 96.93% ± 0.53% vs. 98.88% ± 0.49% vs. 99.97% ± 0.07%, BODY: 86.88% ± 0.74% vs. 93.21% ± 0.56% vs. 95.17% ± 0.59%). A similar trend was also observed for the dice coefficients. This trend was especially remarkable for relatively low prescription isodose lines (for lung cancer, 10% isodose line dice: 0.871 ± 0.027 vs. 0.911 ± 0.023 vs. 0.927 ± 0.017). The dose predictions for all the testing cases were completed within 0.25 s. Conclusions: An accurate and efficient deep learning‐augmented proton dose prediction framework has been developed for PBSPT, which can predict accurate dose distributions not only inside but also outside ROI efficiently. The framework can potentially further reduce the initial planning and adaptive replanning workload in PBSPT. [ABSTRACT FROM AUTHOR]
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- 2024
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12. SO038 / #458 - OPTIMIZING INTERPLAY EFFECT MITIGATION IN LUNG SBRT: INFLUENCE OF PROTON PBS MACHINE OPERATING PARAMETERS ON LAYER RESCANNING EFFICACY
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Liu, Chunbo, Shen, Jiajian, Flampouri, Stella, Park, Chunjoo, Lu, Bo, Yaddanapudi, Sridhar, Tan, Jun, Furutani, Keith, and Beltran, Chris
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- 2024
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13. P051 / #309 - MULTI-INSTITUTIONAL ANALYSIS OF SOURCE MODEL PARAMETERS FOR BEAM COMMISSIONING OF SCANNING PROTON THERAPY TREATMENT PLANNING SYSTEM
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Chang, Chih-Wei, Lin, Liyong, Dong, Lei, Li, Heng, Schuemann, Jan, Shen, Jiajian, and Ding, Xuanfeng
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- 2024
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14. Impact of Spot Size and Spacing on the Quality of Robustly Optimized Intensity Modulated Proton Therapy Plans for Lung Cancer
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Liu, Chenbin, Schild, Steven E., Chang, Joe Y., Liao, Zhongxing, Korte, Shawn, Shen, Jiajian, Ding, Xiaoning, Hu, Yanle, Kang, Yixiu, Keole, Sameer R., Sio, Terence T., Wong, William W., Sahoo, Narayan, Bues, Martin, and Liu, Wei
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- 2018
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15. Robustness quantification methods comparison in volumetric modulated arc therapy to treat head and neck cancer
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Liu, Wei, Patel, Samir H., Shen, Jiajian (Jason), Hu, Yanle, Harrington, Daniel P., Ding, Xiaoning, Halyard, Michele Y., Schild, Steven E., Wong, William W., Ezzell, Gary A., and Bues, Martin
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- 2016
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16. Exploratory Study of 4D versus 3D Robust Optimization in Intensity Modulated Proton Therapy for Lung Cancer
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Liu, Wei, Schild, Steven E., Chang, Joe Y., Liao, Zhongxing, Chang, Yu-Hui, Wen, Zhifei, Shen, Jiajian, Stoker, Joshua B., Ding, Xiaoning, Hu, Yanle, Sahoo, Narayan, Herman, Michael G., Vargas, Carlos, Keole, Sameer, Wong, William, and Bues, Martin
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- 2016
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17. Impact of planned dose reporting methods on Gamma pass rates for IROC lung and liver motion phantoms treated with pencil beam scanning protons
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Kang, Yixiu, Shen, Jiajian, Liu, Wei, Taylor, Paige A., Mehrens, Hunter S., Ding, Xiaoning, Hu, Yanle, Tryggestad, Erik, Keole, Sameer R., Schild, Steven E., Wong, William W., Fatyga, Mirek, and Bues, Martin
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- 2019
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18. Technical note: Delivery benefit and dosimetric implication of synchrotron‐based proton pencil beam scanning using continuous scanning mode.
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Liang, Xiaoying, Beltran, Chris J., Liu, Chunbo, Shen, Jiajian, Li, Heng, and Furutani, Keith M.
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PROTON beams ,STANDARD deviations ,PHOTON beams ,PROSTATE - Abstract
Background: Discrete spot scanning (DSS) is the commonly used method for proton pencil beam scanning (PBS). There is lack of data on the dose‐driven continuous scanning (DDCS). Purpose: To investigate delivery benefits and dosimetric implications of DDCS versus DSS for PBS systems. Methods: The irradiation duty factor, beam delivery time (BDT), and dose deviation were simulated for eight treatment plans in prostate, head and neck, liver, and lung, with both conventional fractionation and hypofractionation schemes. DDCS results were compared with those of DSS. Results: The DDCS irradiation duty factor (range, 11%–41%) was appreciably improved compared to DSS delivery (range, 4%–14%), within which, hypofractionation schemes had greater improvement than conventional fractionation. With decreasing stop ratio constraints, the DDCS BDT reduction was greater, but dose deviation also increased. With stop ratio constraints of 2, 1, 0.5, and 0, DDCS BDT reduction reached to 6%, 10%, 12%, and 15%, respectively, and dose deviation reached to 0.6%, 1.7%, 3.0%, and 5.2% root mean square error in PTV DVH, respectively. The 3%/2‐mm gamma passing rate was greater than 99% with stop ratio constraints of 2 and 1, and greater than 95% with a stop ratio of 0.5. When the stop ratio constraint was removed, five of the eight treatment plans had a 3%/2‐mm gamma passing rate greater than 95%, and the other three plans had a 3%/2‐mm gamma passing rate between 90% and 95%. Conclusions: The irradiation duty factor was considerably improved with DDCS. Smaller stop ratio constraints led to shorter BDTs, but with the cost of larger dose deviations. Our finding suggested that a stop ratio of 1 constraint seems to yield acceptable DDCS dose deviation. [ABSTRACT FROM AUTHOR]
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- 2023
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19. Impact of respiratory motion on worst-case scenario optimized intensity modulated proton therapy for lung cancers
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Liu, Wei, Liao, Zhongxing, Schild, Steven E., Liu, Zhong, Li, Heng, Li, Yupeng, Park, Peter C., Li, Xiaoqiang, Stoker, Joshua, Shen, Jiajian, Keole, Sameer, Anand, Aman, Fatyga, Mirek, Dong, Lei, Sahoo, Narayan, Vora, Sujay, Wong, William, Zhu, X. Ronald, Bues, Martin, and Mohan, Radhe
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- 2015
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20. Development and Clinical Implementation of a Universal Bolus to Maintain Spot Size During Delivery of Base of Skull Pencil Beam Scanning Proton Therapy
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Both, Stefan, Shen, Jiajian, Kirk, Maura, Lin, Liyong, Tang, Shikui, Alonso-Basanta, Michelle, Lustig, Robert, Lin, Haibo, Deville, Curtiland, Hill-Kayser, Christine, Tochner, Zelig, and McDonough, James
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- 2014
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21. Technical Note: An efficient daily QA procedure for proton pencil beam scanning
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Younkin, James E., Shen, Jiajian, Bues, Martin, Robertson, Daniel G., Mundy, Daniel W., Clouser, Edward, Liu, Wei, Ding, Xiaoning, and Stoker, Joshua B.
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- 2018
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22. Use of a radial projection to reduce the statistical uncertainty of spot lateral profiles generated by Monte Carlo simulation
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Ding, Xiaoning, Liu, Wei, Shen, Jiajian, Anand, Aman, Stoker, Joshua B., Hu, Yanle, and Bues, Martin
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- 2017
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23. Technical note: Comprehensive evaluations of gantry and couch rotation isocentricities for implementing proton stereotactic radiosurgery.
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Shen, Jiajian, Robertson, Daniel G., Bues, Martin, Shipulin, Konstantin, Liu, Wei, Stoker, Joshua, Ashman, Jonathan B., Lara, Pedro, Keole, Sameer R., Wong, William, and Vora, Sujay A.
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STEREOTACTIC radiosurgery , *PROTON beams , *LINEAR accelerators , *PROTONS , *SOFAS , *METALLIC films , *PROTON therapy - Abstract
Background: Mechanical accuracy should be verified before implementing a proton stereotactic radiosurgery (SRS) program. Linear accelerator (Linac)‐based SRS systems often use electronic portal imaging devices (EPIDs) to verify beam isocentricity. Because proton therapy systems do not have EPID, beam isocentricity tests of proton SRS may still rely on films, which are not efficient. Purpose: To validate that our proton SRS system meets mechanical precision requirements and to present an efficient method to evaluate the couch and gantry's rotational isocentricity for our proton SRS system. Methods: A dedicated applicator to hold brass aperture for proton SRS system was designed. The mechanical precision of the system was tested using a metal ball and film for 11 combinations of gantry and couch angles. A more efficient quality assurance (QA) procedure was developed, which used a scintillator device to replace the film. The couch rotational isocentricity tests were performed using orthogonal kV x‐rays with the couch rotated isocentrically to five positions (0°, 315°, 270°, 225°, and 180°). At each couch position, the distance between the metal ball in kV images and the imaging isocenter was measured. The gantry isocentricity tests were performed using a cone‐shaped scintillator and proton beams at five gantry angles (0°, 45°, 90°, 135°, and 180°), and the isocenter position and the distance of each beam path to the isocenter were obtained. Daily QA procedure was performed for 1 month to test the robustness and reproducibility of the procedure. Results: The gantry and couch rotational isocentricity exhibited sub‐mm precision, with most measurements within ±0.5 mm. The 1‐month QA results showed that the procedure was robust and highly reproducible to within ±0.2 mm. The gantry isocentricity test using the cone‐shaped scintillator was accurate and sensitive to variations of ±0.2 mm. The QA procedure was efficient enough to be completed within 30 min. The 1‐month isocentricity position variations were within 0.5 mm, which demonstrating that the overall proton SRS system was stable and precise. Conclusion: The proton SRS Winston–Lutz QA procedure using a cone‐shaped scintillator was efficient and robust. We were able to verify radiation delivery could be performed with sub‐mm mechanical precision. [ABSTRACT FROM AUTHOR]
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- 2023
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24. Technical Note: Using experimentally determined proton spot scanning timing parameters to accurately model beam delivery time
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Shen, Jiajian, Tryggestad, Erik, Younkin, James E., Keole, Sameer R., Furutani, Keith M., Kang, Yixiu, Herman, Michael G., and Bues, Martin
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- 2017
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25. A novel and fast method for proton range verification using a step wedge and 2D scintillator
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Shen, Jiajian, Allred, Bryce C., Robertson, Daniel G., Liu, Wei, Sio, Terence T., Remmes, Nicholas B., Keole, Sameer R., and Bues, Martin
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- 2017
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26. Technical note: Investigation of dose and LETd effect to rectum and bladder by using non‐straight laterals in prostate cancer receiving proton therapy.
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Yang, Yunze, Rwigema, Jean‐Claude M., Vargas, Carlos, Yu, Nathan Y., Keole, Sameer R., Wong, William W., Schild, Steven E., Bues, Martin, Liu, Wei, and Shen, Jiajian
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PROTON beams ,PROTON therapy ,PROSTATE cancer ,PROSTATE ,LINEAR energy transfer ,RECTUM ,WILCOXON signed-rank test - Abstract
Background: Parallel‐opposed lateral beams are the conventional beam arrangements in proton therapy for prostate cancer. However, when considering linear energy transfer (LET) and RBE effects, alternative beam arrangements should be investigated. Purpose: To investigate the dose and dose averaged LET (LETd) impact of using new beam arrangements rotating beams 5°–15° posteriorly to the laterals in prostate cancer treated with pencil‐beam‐scanning (PBS) proton therapy. Methods: Twenty patients with localized prostate cancer were included in this study. Four proton treatment plans for each patient were generated utilizing 0°, 5°, 10°, and 15° posterior oblique beam pairs relative to parallel‐opposed lateral beams. Dose‐volume histograms (DVHs) from posterior oblique beams were analyzed. Dose‐LETd‐volume histogram (DLVH) was employed to study the difference in dose and LETd with each beam arrangement. DLVH indices, V(d,l)$V({d,l})$, defined as the cumulative absolute volume that has a dose of at least d (Gy[RBE]) and a LETd of at least l (keV/µm), were calculated for both the rectum and bladder to the whole group of patients and two‐sub groups with and without hydrogel spacer. These metrics were tested using Wilcoxon signed‐rank test. Results: Rotating beam angles from laterals to slightly posterior by 5°–15° reduced high LETd volumes while it increased the dose volume in the rectum and increased LETd in bladders. Beam angles rotated five degrees posteriorly from laterals (i.e., gantry in 95° and 265°) are proposed since they achieved the optimal balance of better LETd sparing and minimal dose increase in the rectum. A reduction of V(50 Gy[RBE], 2.6 keV/µm) from 7.41 to 3.96 cc (p < 0.01), and a slight increase of V(50 Gy[RBE], 0 keV/µm) from 20.1 to 21.6 cc (p < 0.01) were observed for the group without hydrogel spacer. The LETd sparing was less effective for the group with hydrogel spacer, which achieved the reduction of V(50 Gy[RBE], 2.6 keV/µm) from 4.28 to 2.10 cc (p < 0.01). Conclusions: Posterior oblique angle plans improved LETd sparing of the rectum while sacrificing LETd sparing in the bladder in the treatment of prostate cancer with PBS. Beam angle modification from laterals to slightly posterior may be a strategy to redistribute LETd and perhaps reduce rectal toxicity risks in prostate cancer patients treated with PBS. However, the effect is reduced for patients with hydrogel spacer. [ABSTRACT FROM AUTHOR]
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- 2022
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27. Investigation of beam delivery time for synchrotron-based proton pencil beam scanning system with novel scanning mode.
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Liang, Xiaoying, Liu, Chunbo, Furutani, Keith M, Shen, Jiajian, Bues, Martin, Dougherty, Jingjing M, Li, Heng, Parisi, Alessio, Shrestha, Deepak K, Yaddanpudi, Sridhar, and Beltran, Chris
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SCANNING systems ,PROTON beams ,PROTON therapy ,SYNCHROTRONS - Abstract
Objective. To investigate synchrotron-based proton pencil beam scanning (PBS) beam delivery time (BDT) using novel continuous scanning mode. Approach. A BDT calculation model was developed for the Hitachi particle therapy system. The model was validated against the measured BDT of 36 representative clinical proton PBS plans with discrete spot scanning (DSS) in the current Hitachi proton therapy system. BDTs were calculated with the next generation using Mayo Clinic Florida system operating parameters for conventional DSS, and novel dose driven continuous scanning (DDCS). BDTs of DDCS with and without Break Spots were investigated. Main results. For DDCS without Break Spots, the use of Stop Ratio to control the transit dose largely reduced the beam intensity and consequently, severely prolonged the BDT. DDCS with Break Spots was able to maintain a sufficiently high beam intensity while controlling transit dose. In DDCS with Break Spots, tradeoffs were made between beam intensity and number of Break Spots. Therefore, BDT decreased with increased beam intensity but reached a plateau for beam intensity larger than 10 MU s
â'1 . Averaging over all clinical plans, BDT was reduced by 10% for DDCS with Break Spots compared to DSS. Significance. DDCS with Break Spots reduced BDT. DDCS has the potential to further reduce BDT under the ideal scenario which requests both stable beam intensity extraction and accurately modelling the transit dose. Further investigation is warranted. [ABSTRACT FROM AUTHOR]- Published
- 2022
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28. Effects of dietary cholesterol and phospholipid levels on growth performance, antioxidant capacity, and tissue fatty acid in the juvenile mud crab Scylla paramamosain Estampador, 1950 (Decapoda: Brachyura: Portunidae).
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Chen, Cuiying, Nie, Xiaofeng, Cheng, Yu, Shen, Jiajian, Zhang, Pengyuan, Zhong, Wenjie, Wang, Shuqi, You, Cuihong, and Li, Yuanyou
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SCYLLA (Crustacea) ,DIETARY cholesterol ,OXIDANT status ,ADIPOSE tissues ,OMEGA-6 fatty acids ,GLUTATHIONE transferase - Abstract
To investigate whether an interaction between the levels of dietary cholesterol (CHOL) and phospholipid (PL) exists in the growth performance, antioxidant, and immune parameters of juvenile Scylla paramamosain Estampador, 1950 , a 3 × 3 factorial feeding trial was conducted in polypropylene tanks with nine diets containing three CHOL levels (0.5%, 1.0%, 1.5% of dry weight) and three PL levels (0.5%, 1.0%, 1.5% of dry weight). After the eight-week feeding trial, crabs fed the diets with 0.5% CHOL and 1.0 or 1.5% PL achieved the best growth performance with a relatively higher survival rate. Hemolymph CHOL, low-density lipoprotein cholesterol (LDLC), and high-density lipoprotein cholesterol (HDLC) increased with the increasing dietary CHOL levels, whereas decreased LDLC levels were observed as dietary PL levels increased. With the increasing dietary levels of PL, the activities of superoxide dismutase (SOD), glutathione S-transferase (GST), glutathione peroxidase (GSH-Px), and total antioxidant capacity (T-AOC) were markedly enhanced in crabs fed the basal diets with 0.5 or 1.0% CHOL and PL. Tissue fatty acid composition reflected dietary fatty acids. Increasing dietary PL levels resulted in rising contents of total n-6 polyunsaturated fatty acids (PUFA) in the hepatopancreas and muscle. A synergistic effect between CHOL and PL was not observed on growth performance but such effect was found instead in the biochemical indices of hemolymphs and the antioxidant capacity of the hepatopancreas. These results suggest that proper dietary levels of 0.5% CHOL and 1.0–1.5% PL could maintain solid growth performance and antioxidant capacity of juvenile S. paramamosain. [ABSTRACT FROM AUTHOR]
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- 2022
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29. Technical note: Evaluation and second check of a commercial Monte Carlo dose engine for small‐field apertures in pencil beam scanning proton therapy.
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Holmes, Jason, Shen, Jiajian, Shan, Jie, Patrick, Christopher L., Wong, William W., Foote, Robert L., Patel, Samir H., Bues, Martin, and Liu, Wei
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PROTON beams , *PROTON therapy , *IMAGING phantoms , *DOSIMETERS , *ENGINES - Abstract
Purpose: To evaluate the accuracy of the RayStation Monte Carlo dose engine (RayStation MC) in modeling small‐field block apertures in proton pencil beam scanning. Furthermore, we evaluate the suitability of MCsquare as a second check for RayStation MC. Methods: We have enhanced MCsquare to model block apertures. To test the accuracy of both RayStation MC and the newly enhanced MCsquare, we compare the dose predictions of each to in‐water dose measurements obtained using diode detectors and radiochromic film. Nine brass apertures with openings of 1, 2, 3, 4, and 5 cm and either 2 cm or 4 cm thickness were used in the irradiation of a water phantom. Two measurement setups were used, one with a range shifter and 119.7 MeV proton beam energy and the other with no range shifter and 147 MeV proton beam energy. To further test the validity of RayStation MC and MCsquare in modeling block apertures and to evaluate MCsquare as a second check tool, 10 small‐field (average target volume 8.3 cm3) patient treatment plans were calculated by each dose engine followed by a statistical comparison. Results: Comparing to the absolute dose measurements in water, RayStation MC differed by 1.2% ± 1.0% while MCsquare differed by −1.8% ± 3.7% in the plateau region of a pristine Bragg peak. Compared to the in‐water film measurements, RayStation MC and MCsquare both performed well with an average 2D‐3D gamma passing rate of 99.4% and 99.7% (3%/3 mm), respectively. A t‐test comparing the agreement with the film measurements between RayStation MC and MCsquare suggested that the relative spatial dose distributions calculated by MCsquare and RayStation MC were statistically indistinguishable. Directly comparing the dose calculations between MCsquare and RayStation MC over 10 patients resulted in an average 3D‐3D gamma passing rates of 98.5% (3%/3 mm) and 94.1% (2%/2 mm), respectively. Conclusion: The validity of RayStation MC algorithm for use with patient‐specific apertures has been expanded to include small apertures. MCsquare has been enhanced to model apertures and was found to be an adequate second check of RayStation MC in this scenario. [ABSTRACT FROM AUTHOR]
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- 2022
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30. Molecular clouds associated with compact HII regions in Galactic plane
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Sun, Jin, Shen, Jiajian, Sun, Yanchun, and Zhang, Yanping
- Published
- 2002
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31. Building a precise machine-specific time structure of the spot and energy delivery model for a cyclotron-based proton therapy system.
- Author
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Zhao, Lewei, Liu, Gang, Zheng, Weili, Shen, Jiajian, Lee, Andrew, Yan, Di, Deraniyagala, Rohan, Stevens, Craig, Li, Xiaoqiang, Tang, Shikui, and Ding, Xuanfeng
- Subjects
PROTON therapy ,CYCLOTRONS ,DATA transmission systems - Abstract
Objective. We proposed an experimental approach to build a precise machine-specific beam delivery time (BDT) prediction and delivery sequence model for standard, volumetric, and layer repainting delivery based on a cyclotron accelerator system. Approach. Test fields and clinical treatment plans’ log files were used to experimentally derive three main beam delivery parameters that impacted BDT: energy layer switching time (ELST), spot switching time, and spot drill time. This derived machine-specific model includes standard, volumetric, and layer repainting delivery sequences. A total of 103 clinical treatment fields were used to validate the model. Main results. The study found that ELST is not stochastic in this specific machine. Instead, it is actually the data transmission time or energy selection time, whichever takes longer. The validation showed that the accuracy of each component of the BDT matches well between machine log files and the model’s prediction. The average total BDT was about (â'0.74 ± 3.33)% difference compared to the actual treatment log files, which is improved from the current commercial proton therapy system’s prediction (67.22%±26.19%). Significance. An accurate BDT prediction and delivery sequence model was established for an cyclotron-based proton therapy system IBA ProteusPLUS
® . Most institutions could adopt this method to build a machine-specific model for their own proton system. [ABSTRACT FROM AUTHOR]- Published
- 2022
- Full Text
- View/download PDF
32. Technical Note: Clinical modeling and validation of breast tissue expander metallic ports in a commercial treatment planning system for proton therapy.
- Author
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Kang, Yixiu, Shen, Jiajian, Bues, Martin, Hu, Yanle, Liu, Wei, and Ding, Xiaoning
- Subjects
- *
PROTON therapy , *BREAST , *MODEL validation , *BREAST cancer , *PROTON beams , *ACRYLIC paint , *METHYL parathion - Abstract
Purpose: To validate breast tissue expander metallic port (MP) models in a commercial treatment planning system (TPS) in proton pencil beam scanning (PBS) treatments for breast cancer patients with breast tissue expanders. Methods and materials: Three types of MPs taken out of a Mentor CPX4, a Natrelle 133, and a PMT Integra breast tissue expanders and a 650 cc saline filled Mentor CPX4 expander were placed on top of acrylic slabs, and scanned using a Siemens Somatom Definition AS Open RT CT scanner. Structure templates for each of the MPs were designed within Eclipse TPS. The CT numbers for the metallic parts were overridden to reflect measured or calculated relative proton stopping powers (RPSPs). Mock targets were contoured in acrylic to represent postmastectomy chest‐wall radiation therapy (PMRT) targets. Plans with different beam incident angles were optimized using the Eclipse TPS to deliver uniform prescription dose to the target using Hitachi Probeat‐V PBS beams. Eclipse calculated doses and an in‐house Monte Carlo (MC) code calculated doses were compared to the measured Gafchromic EBT3 film doses in acrylic. Results: TPS/MC and film dose comparison results showed that (1) 3%/2 mm/10% threshold Gamma pass rates were better than 90.8% in the acrylic target region for all plans; (2) comparing TPS and film doses for the individual beam plans in the MP dose shadow areas, the area with dose difference above 5% ([ΔA] 5%) ranged from 1.1 to 5.0 cm2, and the maximum dose difference ([ΔD] 0.01 cm2) ranged from 12.5% to 25.0%; (3) comparing MC and film doses for the individual beam plans in the MP dose shadow areas, the (ΔA) 5% varied from 1.1 to 2.9 cm2 and (ΔD) 0.01 cm2 varied from 8.5% to 24.2%; (4) for a plan composed of three individual beams treating through the Mentor CPX4 expander, the TPS (ΔA) 5% was less than 0.13 cm2, and the (ΔD) 0.01 cm2 was less than 6% in the MP dose shadow areas. Conclusions: It is feasible to treat patients with tissue expanders using multiple PBS beams using a structure template with CT number overridden to represent the measured/calculated RPSP for MPs for PBS treatment planning. MC dose was more accurate than analytical dose in the areas with high dose gradient caused by the density heterogeneity of the breast tissue expander MPs. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
33. Technical Note: Long‐term monitoring of diode sensitivity degradation induced by proton irradiation.
- Author
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Younkin, James E., Robertson, Daniel G., Liu, Wei, Hu, Yanle, Morales, Danairis Hernandez, Bues, Martin, Shen, Jiajian, and Ding, Xiaoning
- Subjects
DIODES ,PROTONS ,PROTON beams ,IRRADIATION ,QUALITY assurance - Abstract
Purpose: To measure diode sensitivity degradation (DSD) induced by cumulative proton dose delivered to a commercial daily quality assurance (QA) device. Methods: At our institution, six Daily QA 3 (DQA3, Sun Nuclear Corporation, Melbourne, FL, USA) devices have been used for daily proton pencil beam scanning QA in four proton gantry rooms over a span of 4 years. DQA3 diode counts were cross‐calibrated using a homogenous field with a known dose of 1 Gy. The DSD rate (ΔR%/100 Gy) was calculated using linear regression on time‐series plots of diode counts and an estimate of cumulative dose per year based on the cross‐calibration. The effect of DSD on daily QA spot position measurements was quantified by converting DSD to baseline spot position shift. Results: The average dose delivered to the four inner DQA3 diodes was 104 ± 5 Gy/year, and the rate of DSD was ‐5.1% ± 1.0/100 Gy with the exception of one DQA3 device that had a significantly higher rate of DSD (–12%/100 Gy). The R2s of the linear fit to time‐series plots were between 0.92 and 0.98. The DSD rates were not constant but decreases with accumulated doses. The four center diodes, which received 40% of the cumulative dose received by inner diodes, had a DSD rate of –7.2% ± 0.9/100 Gy. For our daily QA program, 1 year of DSD was equivalent to a 0.2 mm shift in spot position. Conclusions: The DSD rate of DQA3 diodes determined by long‐term proton daily QA data was about –5%/100 Gy, which is more than 10 times greater than the reported DSD rate from photon irradiation. DQA3 diodes may be used for daily proton QA programs, provided that they are recalibrated at an appropriate frequency that should be determined specifically for different daily QA programs. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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- View/download PDF
34. Technical Note: Multiple energy extraction techniques for synchrotron‐based proton delivery systems may exacerbate motion interplay effects in lung cancer treatments.
- Author
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Younkin, James E., Morales, Danairis Hernandez, Shen, Jiajian, Ding, Xiaoning, Stoker, Joshua B., Yu, Nathan Y., Sio, Terence T., Daniels, Thomas B., Bues, Martin, Fatyga, Mirek, Schild, Steven E., and Liu, Wei
- Subjects
EXTRACTION techniques ,LUNG cancer ,SYNCHROTRONS ,PROTON beams ,WILCOXON signed-rank test ,CANCER treatment ,PROTONS - Abstract
Purpose: The multiple energy extraction (MEE) delivery technique for synchrotron‐based proton delivery systems reduces beam delivery time by decelerating the beam multiple times during one accelerator spill, but this might cause additional plan quality degradation due to intrafractional motion. We seek to determine whether MEE causes significantly different plan quality degradation compared to single energy extraction (SEE) for lung cancer treatments due to the interplay effect. Methods: Ten lung cancer patients treated with IMPT at our institution were nonrandomly sampled based on a representative range of tumor motion amplitudes, tumor volumes, and respiratory periods. Dose‐volume histogram (DVH) indices from single‐fraction SEE and MEE four‐dimensional (4D) dynamic dose distributions were compared using the Wilcoxon signed‐rank test. Distributions of monitor units (MU) to breathing phases were investigated for features associated with plan quality degradation. SEE and MEE DVH indices were compared in fractionated deliveries of the worst‐case patient treatment scenario to evaluate the impact of fractionation. Results: There were no clinically significant differences in target mean dose, target dose conformity, or dose to organs‐at‐risk between SEE and MEE in single‐fraction delivery. Three patients had significantly worse dose homogeneity with MEE compared to SEE (single‐fraction mean D5%‐D95% increased by up to 9.6% of prescription dose), and plots of MU distribution to breathing phases showed synchronization patterns with MEE but not SEE. However, after 30 fractions the patient in the worst‐case scenario had clinically acceptable target dose homogeneity and coverage with MEE (mean D5%–D95% increased by 1% compared to SEE). Conclusions: For some patients with breathing periods close to the mean spill duration, MEE resulted in significantly worse single‐fraction target dose homogeneity compared to SEE due to the interplay effect. However, this was mitigated by fractionation, and target dose homogeneity and coverage were clinically acceptable after 30 fractions with MEE. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
35. Comparative analysis of growth performance, feed utilization, and antioxidant capacity of juvenile mud crab, Scylla paramamosain, reared at two different conditions.
- Author
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Chen, Cuiying, Nie, Xiaofeng, Cheng, Yu, Shen, Jiajian, He, Xianda, Wang, Shuqi, You, Cuihong, and Li, Yuanyou
- Subjects
SCYLLA (Crustacea) ,OXIDANT status ,ANTIOXIDANTS ,GLUTATHIONE transferase ,ACID phosphatase ,SURVIVAL rate ,ALKALINE phosphatase - Abstract
This study was carried out to analyse the growth performance, feed utilization, and antioxidant capacity of juvenile mud crab (Scylla paramamosain) reared in two conditions. Here, a new indoor polypropylene tank culture system and a traditional outdoor pond cage facility were used to perform feeding experiments on juvenile crabs. After eight weeks, the survival rate, weight gain, moulting rate and feed efficiency of crabs cultured in polypropylene tanks were markedly higher than those cultured in pond cages. Moreover, the activities of serum acid phosphatase (ACP) and alkaline phosphatase (ALP), and the antioxidant indices including glutathione peroxidase (GSH-PX), glutathione transferase (GST), superoxide dismutase (SOD) and total antioxidant capacity (T-AOC) in hepatopancreas were higher in crabs cultured in the polypropylene tank system than those in pond cages. Based on these results, compared with the traditional pond cages, the polypropylene tank culture system is more suitable for the short-term culture of mud crabs. Résumé: Cette étude avait pour but d'analyser la performance de croissance, l'utilisation de la nourriture et les capacités antioxydantes des juvéniles du crabe de vase (Scylla paramamosain) élevé dans deux conditions. Un nouveau système d'élevage intérieur dans un bassin en polypropylène et la traditionnelle cage dans un étang à l'extérieur ont été utilisés pour les expériences d'alimentation sur les crabes juvéniles. Après 8 semaines, le taux de survie, le gain de poids, le rythme de mues et l'efficacité alimentaire des crabes élevés dans les bassins en polypropylène ont été plus élevés que ceux des crabes élevés dans les cages en étang. De plus les activités sériques de la phosphatase acide (ACP), de la phosphatase alcaline (ALP), les valeurs d'antioxydants dont la glutathion peroxydase (GSH-PX), la glutathion transférase (GST), la superoxyde dismutase (SOD) et les capacités antioxydantes totales (T-AOC) dans l'hépatopancréas étaient plus élevées chez les crabes des bassins en polypropylène que ceux des cages en étang. Sur la base de ces résultats, pour un élevage à court terme des crabes de vase les bassins en polypropylène conviennent mieux que les traditionnelles cages en étang. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
36. A method for quantitative evaluations of scanning‐proton dose distributions.
- Author
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Allred, Bryce C., Shan, Jie, Robertson, Daniel G., DeWees, Todd A., Shen, Jiajian, Liu, Wei, and Stoker, Joshua B.
- Subjects
QUANTITATIVE research ,IMAGE registration ,MACHINE performance ,EVALUATION methodology ,STANDARD deviations ,PLASMA beam injection heating ,HISTOGRAMS ,DATA binning - Abstract
Purpose: Patient‐Specific Quality Assurance (PSQA) measurement analysis depends on generating metrics representative of calculation and measurement agreement. Considering the heightened capability of discrete spot scanning protons to modulate individual dose voxels, a dose plane comparison approach that maintained all of the capabilities of the well‐established γ test, but that also provided a more intuitive error parameterization, was desired. Methods: Analysis was performed for 300 dose planes compared by searching all calculated points within a fixed radius around each measured pixel to determine the dose deviation. Dose plane agreement is reported as the dose difference minimum (DDM) within an empirically established search radius: ΔDmin(r). This per‐pixel metric is aggregated into a histogram binned by dose deviation. Search‐radius criteria were based on a weighted‐beamlet 3σ spatial deviation from imaging isocenter. Equipment setup error was mitigated during analysis using tracked image registration, ensuring beamlet deviations to be the dominant source of spatial error. The percentage of comparison points with <3% dose difference determined pass rate. Results: The mean beamlet radial deviation was 0.38mm from x‐ray isocenter, with a standard deviation of 0.19mm, such that 99.9% of relevant pencil beams were within 1 mm of nominal. The dose‐plane comparison data showed no change in passing rate between a 3%/1mm ΔDmin(r) analysis (97.6 +/‐ 3.6%) and a 3%/2mm γ test (97.7 +/‐ 3.2%). Conclusions: PSQA dose‐comparison agreements corresponding to a search radius outside of machine performance limits are likely false positives. However, the elliptical shape of the γ test is too dose‐restrictive with a spatial‐error threshold set at 1 mm. This work introduces a cylindrical search shape, proposed herein as more relevant to plan quality, as part of the new DDM planar‐dose comparison algorithm. DDM accepts all pixels within a given dose threshold inside the search radius, and carries forward plan‐quality metrics in a straightforward manner for evaluation. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
37. Feasibility of using megavoltage computed tomography to reduce proton range uncertainty: A simulation study.
- Author
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Hu, Yanle, Ding, Xiaoning, Shen, Jiajian, Bues, Martin, Liu, Wei, Kang, Yixiu, Leng, Shuai, and Yu, Lifeng
- Subjects
COMPUTED tomography ,DUAL energy CT (Tomography) ,DUAL-energy X-ray absorptiometry ,PROTONS ,ATOMIC number ,ADIPOSE tissues ,COMPTON scattering ,POSITRON emission - Abstract
Purpose: To demonstrate that variation in chemical composition has a negligible effect on the mapping curve from relative electron density (RED) to proton stopping power ratio (SPR), and to establish the theoretical framework of using Megavoltage (MV) computed tomography (CT), instead of kilovoltage (kV) dual energy CT, to accurately estimate proton SPR. Methods: A simulation study was performed to evaluate the effect of chemical composition variation on kVCT number and proton SPR. The simulation study involved both reference and simulated human tissues. The reference human tissues, together with their physical densities and chemical compositions, came from the ICRP publication 23. The simulated human tissues were created from the reference human tissues assuming that elemental percentage weight followed a Gaussian distribution. For all tissues, kVCT number and proton SPR were obtained through (a) theoretical calculation from tissue's physical density and chemical composition which served as the ground truth, and (b) estimation from RED using the calibration curves established from the stoichiometric method. Deviations of the estimated values from the calculated values were quantified as errors in using RED to estimate kVCT number and proton SPR. Results: Given a chemical composition variation of 5% (1σ) of the nominal percentage weights, the total estimation error of using RED to estimate kVCT number was 0.34%, 0.62%, and 0.77% and the total estimation error of using RED to estimate proton SPR was 0.30%, 0.22%, and 0.16% for fat tissues, non‐fat soft tissues and bone tissues, respectively. Conclusion: Chemical composition had a negligible effect on the method of using RED to determine proton SPR. RED itself is sufficient to accurately determine proton SPR. MVCT number maintains a superb linear relationship with RED because it is highly dominated by Compton scattering. Therefore, MVCT has great potential in reducing the proton range uncertainty. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
38. Technical Note: Integrating an open source Monte Carlo code "MCsquare" for clinical use in intensity‐modulated proton therapy.
- Author
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Deng, Wei, Younkin, James E., Souris, Kevin, Huang, Sheng, Augustine, Kurt, Fatyga, Mirek, Ding, Xiaoning, Cohilis, Marie, Bues, Martin, Shan, Jie, Stoker, Joshua, Lin, Liyong, Shen, Jiajian, and Liu, Wei
- Subjects
MONTE Carlo method ,PROTON therapy ,LINEAR energy transfer ,WEB-based user interfaces ,PROTON beams ,ROBUST optimization ,GAUSSIAN beams ,GRAPHICS processing units - Abstract
Purpose: To commission an open source Monte Carlo (MC) dose engine, "MCsquare" for a synchrotron‐based proton machine, integrate it into our in‐house C++‐based I/O user interface and our web‐based software platform, expand its functionalities, and improve calculation efficiency for intensity‐modulated proton therapy (IMPT). Methods: We commissioned MCsquare using a double Gaussian beam model based on in‐air lateral profiles, integrated depth dose of 97 beam energies, and measurements of various spread‐out Bragg peaks (SOBPs). Then we integrated MCsquare into our C++‐based dose calculation code and web‐based second check platform "DOSeCHECK." We validated the commissioned MCsquare based on 12 different patient geometries and compared the dose calculation with a well‐benchmarked GPU‐accelerated MC (gMC) dose engine. We further improved the MCsquare efficiency by employing the computed tomography (CT) resampling approach. We also expanded its functionality by adding a linear energy transfer (LET)‐related model‐dependent biological dose calculation. Results: Differences between MCsquare calculations and SOBP measurements were <2.5% (<1.5% for ~85% of measurements) in water. The dose distributions calculated using MCsquare agreed well with the results calculated using gMC in patient geometries. The average 3D gamma analysis (2%/2 mm) passing rates comparing MCsquare and gMC calculations in the 12 patient geometries were 98.0 ± 1.0%. The computation time to calculate one IMPT plan in patients' geometries using an inexpensive CPU workstation (Intel Xeon E5‐2680 2.50 GHz) was 2.3 ± 1.8 min after the variable resolution technique was adopted. All calculations except for one craniospinal patient were finished within 3.5 min. Conclusions: MCsquare was successfully commissioned for a synchrotron‐based proton beam therapy delivery system and integrated into our web‐based second check platform. After adopting CT resampling and implementing LET model‐dependent biological dose calculation capabilities, MCsquare will be sufficiently efficient and powerful to achieve Monte Carlo‐based and LET‐guided robust optimization in IMPT, which will be done in the future studies. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
39. Hybrid 3D analytical linear energy transfer calculation algorithm based on precalculated data from Monte Carlo simulations.
- Author
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Deng, Wei, Ding, Xiaoning, Younkin, James E., Shen, Jiajian, Bues, Martin, Schild, Steven E., Patel, Samir H., and Liu, Wei
- Subjects
LINEAR energy transfer ,ERROR functions ,MONTE Carlo method ,PROTON therapy ,DATABASES ,ALGORITHMS ,PROTON beams - Abstract
Purpose: The dose‐averaged linear energy transfer (LETd) for intensity‐modulated proton therapy (IMPT) calculated by one‐dimensional (1D) analytical models deviates from more accurate but time‐consuming Monte Carlo (MC) simulations. We developed a fast hybrid three‐dimensional (3D) analytical LETd calculation that is more accurate than 1D analytical model. Methods: We used the Geant4 MC code to generate 3D LETd distributions of monoenergetic proton beams in water for all energies and used a customized error function to fit the LETd lateral profiles at various depths to the MC simulation. The 3D LETd calculation kernel was a lookup table of these fitted coefficients, and LETd was determined directly from spot energies and voxel coordinates during analytical dose calculations. We validated our new method by comparing the calculated LETd distributions to MC results using 3D Gamma index analysis with 3%/2 mm criteria in 12 patient geometries. The significance of the improvement in Gamma index analysis passing rates over the 1D analytical model was determined using the Wilcoxon rank‐sum test. Results: The passing rate of 3D Gamma analysis comparing LETd distributions from the hybrid 3D method and the 1D method to MC simulations was significantly improved from 94.0% ± 2.5% to 98.0% ± 1.0% (P = 0.0003). The typical time to calculate dose and LETd simultaneously using an Intel Xeon E5‐2680 2.50 GHz workstation was approximately 2.5 min. Conclusions: Our new method significantly improved the LETd calculation accuracy compared to the 1D method while maintaining significantly shorter calculation time even comparing with the GPU‐based fast MC code. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
40. Technical Note: Comprehensive evaluation and implementation of two independent methods for beam monitor calibration for proton scanning beam.
- Author
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Shen, Jiajian, Ding, Xiaoning, Hu, Yanle, Kang, Yixiu, Liu, Wei, Deng, Wei, and Bues, Martin
- Subjects
- *
CENTROID , *CALIBRATION , *WATER depth , *PROTON beams , *WATER use - Abstract
Purpose: To clinically implement and comprehensively evaluate two independent methods for beam monitor calibration of scanning proton beam. Methods: Seven proton energies that represent the lowest to highest energy proton beams were selected. Single energy layer circular fields of diameter 15 cm with 2.5 mm spot spacing and 10 times of repainting (FS15cm) were designed for all energies. The effective measurement points of Bragg peak chamber (BPC), advanced Markus chamber (AMC) and farmer chamber (FC) were all aligned to 2 cm depth in water using SSD setup. The BPC and AMC were cross‐calibrated with farmer chamber (FC) using the field FS15cm. In order to evaluate BPC's lateral response uniformity, a collimated narrow proton beam (5.8 mm diameter) was delivered to the active area and edge of the BPC. The dose area product (DAP) was measured using two methods by two BPCs, one AMC and one FC. For method 1, a single spot proton beam was delivered to the geometric center of the BPC. For method 2, the fields FS15cm were delivered to FC and AMC, respectively. Accumulated charges by these chambers were converted to DAPs, and the quantitative difference of DAPs between both methods was calculated. The causes of the uncertainties were discussed, and the advantages of the two methods were compared. Results: The two BPCs showed different lateral response uniformity. BPC1 has a uniform response from the center up to a radius of 3.5 cm. BPC2 has a uniform response only to 2 cm and the response dropped 1% to 2% at 3.5 cm from center. BPC2 also has significant over‐response compared to BPC1. A 2.2% systematic error would be transferred to DAP if the over‐response from BPC2 was not considered. The DAPs measured by method 1 with two BPCs and by method 2 with FC and AMC were consistent to 0.5%. The major uncertainty component of method 1 is from the cross‐calibration of the BPC. Conclusions: The two independent methods for DAP were shown to give consistent results, given the sources of uncertainties were carefully addressed in the measurements. Direct measurement of DAP with BPC is very efficient, but it may be subject to more than 2% systematic error if the BPC lateral response is not carefully evaluated. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
41. Automation of routine elements for spot‐scanning proton patient‐specific quality assurance.
- Author
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Hernandez Morales, Danairis, Shan, Jie, Liu, Wei, Augustine, Kurt E., Bues, Martin, Davis, Michael J., Fatyga, Mirek, Johnson, Jedediah E., Mundy, Daniel W., Shen, Jiajian, Younkin, James E., and Stoker, Joshua B.
- Subjects
QUALITY assurance in radiotherapy ,QUALITY assurance ,INTENSITY modulated radiotherapy ,PROTON therapy ,LOCAL area networks ,THERAPEUTIC use of nuclear particles - Abstract
Purpose: At our institution, all proton patient plans undergo patient‐specific quality assurance (PSQA) prior to treatment delivery. For intensity‐modulated proton beam therapy, quality assurance is complex and time consuming, and it may involve multiple measurements per field. We reviewed our PSQA workflow and identified the steps that could be automated and developed solutions to improve efficiency. Methods: We used the treatment planning system's (TPS) capability to support C# scripts to develop an Eclipse scripting application programming interface (ESAPI) script and automate the preparation of the verification phantom plan for measurements. A local area network (LAN) connection between our measurement equipment and shared database was established to facilitate equipment control, measurement data transfer, and storage. To improve the analysis of the measurement data, a Python script was developed to automatically perform a 2D–3D γ‐index analysis comparing measurements in the plane of a two‐dimensional detector array with TPS predictions in a water phantom for each acquired measurement. Results: Device connection via LAN granted immediate access to the plan and measurement information for downstream analysis using an online software suite. Automated scripts applied to verification plans reduced time from preparation steps by at least 50%; time reduction from automating γ‐index analysis was even more pronounced, dropping by a factor of 10. On average, we observed an overall time savings of 55% in completion of the PSQA per patient plan. Conclusions: The automation of the routine tasks in the PSQA workflow significantly reduced the time required per patient, reduced user fatigue, and frees up system users from routine and repetitive workflow steps allowing increased focus on evaluating key quality metrics. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
42. Small‐spot intensity‐modulated proton therapy and volumetric‐modulated arc therapies for patients with locally advanced non‐small‐cell lung cancer: A dosimetric comparative study.
- Author
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Liu, Chenbin, Sio, Terence T., Deng, Wei, Shan, Jie, Daniels, Thomas B., Rule, William G., Lara, Pedro R., Korte, Shawn M., Shen, Jiajian, Ding, Xiaoning, Schild, Steven E., Bues, Martin, and Liu, Wei
- Subjects
INTENSITY modulated radiotherapy ,COMPUTED tomography ,ELECTROTHERAPEUTICS ,RADIOTHERAPY ,CANCER treatment ,NON-small-cell lung carcinoma - Abstract
Purpose: To compare dosimetric performance of volumetric‐modulated arc therapy (VMAT) and small‐spot intensity‐modulated proton therapy for stage III non‐small‐cell lung cancer (NSCLC). Methods and Materials: A total of 24 NSCLC patients were retrospectively reviewed; 12 patients received intensity‐modulated proton therapy (IMPT) and the remaining 12 received VMAT. Both plans were generated by delivering prescription doses to clinical target volumes (CTV) on averaged 4D‐CTs. The dose‐volume‐histograms (DVH) band method was used to quantify plan robustness. Software was developed to evaluate interplay effects with randomized starting phases of each field per fraction. DVH indices were compared using Wilcoxon rank sum test. Results: Compared with VMAT, IMPT delivered significantly lower cord Dmax, heart Dmean, and lung V5 Gy[RBE] with comparable CTV dose homogeneity, and protection of other OARs. In terms of plan robustness, the IMPT plans were statistically better than VMAT plans in heart Dmean, but were statistically worse in CTV dose coverage, cord Dmax, lung Dmean, and V5 Gy[RBE]. Other DVH indices were comparable. The IMPT plans still met the standard clinical requirements with interplay effects considered. Conclusions: Small‐spot IMPT improves cord, heart, and lung sparing compared to VMAT and achieves clinically acceptable plan robustness at least for the patients included in this study with motion amplitude less than 11 mm. Our study supports the usage of IMPT to treat some lung cancer patients. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
43. Technical Note: Using dual step wedge and 2D scintillator to achieve highly precise and robust proton range quality assurance.
- Author
-
Deng, Wei, Liu, Wei, Robertson, Daniel G., Bues, Martin, Sio, Terence T., Keole, Sameer R., and Shen, Jiajian
- Subjects
PROTON beams ,QUALITY assurance ,SCINTILLATORS ,TRIGONOMETRIC identities ,TRIGONOMETRY - Abstract
Purpose: The purpose of this study was to develop a fast method for proton range quality assurance (QA) using a dual step wedge and two‐dimensional (2D) scintillator and to evaluate the robustness, sensitivity, and long‐term reproducibility of this method. Methods: An in‐house customized dual step wedge and a 2D scintillator were developed to measure proton ranges. Proton beams with homogenous fluence were delivered through wedge, and the images captured by the scintillator were used to calculate the proton ranges by a simple trigonometric method. The range measurements of 97 energies, comprising all clinically available synchrotron energies at our facility (ranges varying from 4 to 32 cm) were repeated ten times in all four gantry rooms for range baseline values. They were then used for evaluating room‐to‐room range consistencies. The robustness to setup uncertainty was evaluated by measuring ranges with ±2 mm setup deviations in the x, y, and z directions. The long‐term reproducibility was evaluated by 1 month of daily range measurements by this method. Results: Ranges of all 97 energies were measured in less than 10 minutes including setup time. The reproducibility in a single day and daily over 1 month is within 0.1 and 0.15 mm, respectively. The method was very robust to setup uncertainty, with measured range consistencies within 0.15 mm for ±2 mm couch shifts. The method was also sensitive enough for validating range consistencies among gantry rooms and for detecting small range variations. Conclusions: The new method of using a dual step wedge and scintillator for proton range QA was efficient, highly reproducible, and robust. This method of proton range QA was highly feasible and appealing from a workflow point of view. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
44. Exploratory study of the association of volumetric modulated arc therapy ( VMAT) plan robustness with local failure in head and neck cancer.
- Author
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Liu, Wei, Patel, Samir H., Harrington, Daniel P., Hu, Yanle, Ding, Xiaoning, Shen, Jiajian, Halyard, Michele Y., Schild, Steven E., Wong, William W., Ezzell, Gary E., and Bues, Martin
- Subjects
HEAD & neck cancer diagnosis ,HEAD & neck cancer treatment ,VOLUMETRIC-modulated arc therapy ,DRUG dosage ,POSITRON emission tomography - Abstract
This work is to show which is more relevant to cause local failures ( LFs) due to patient setup uncertainty between the planning target volume ( PTV) underdosage and the potential target underdosage subject to patient setup uncertainties in head and neck (H&N) cancer treated with volumetric-modulated arc therapy ( VMAT). Thirteen LFs in 10 H&N patients treated by VMAT were analyzed. Measures have been taken to minimize the chances of insufficient target delineation for these patients and the patients were clinically determined to have LF based on the PET/ CT scan results by an experienced radiologist and then reviewed by a second experienced radiation oncologist. Two methods were used to identify the possible locations of LF due to underdosage: (a) examining the standard VMAT plan, in which the underdosed volume in the nominal dose distribution ( UVN) was generated by subtracting the volumes receiving the prescription doses from PTVs, and (b) plan robustness analysis, in which in addition to the nominal dose distribution, six perturbed dose distributions were created by translating the CT iso-center in three cardinal directions by the PTV margin. The coldest dose distribution was represented by the minimum of the seven doses in each voxel. The underdosed volume in the coldest dose distribution ( UVC) was generated by subtracting the volumes receiving the prescription doses in the coldest dose distribution from the volumes receiving the prescription doses in the nominal dose distribution. UVN and UVC were subsequently examined for spatial association with the locations of LF. The association was tested using the binominal distribution and the Fisher's exact test of independence. We found that of 13 LFs, 11 were associated with UVCs ( P = 0.011), while three were associated with UVNs ( P = 0.99). We concluded that the possible target underdosage due to patient setup uncertainties appeared to be a more relevant factor associated with LF in VMAT for H&N cancer than the compromised PTV coverage at least for the patients included in this study. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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- View/download PDF
45. Using field size factors to characterize the in-air fluence of a proton machine with a range shifter.
- Author
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Jiajian Shen, Lentz, Jarrod M., Yanle Hu, Wei Liu, Morales, Danairis Hernandez, Stoker, Joshua B., Bues, Martin, Shen, Jiajian, Hu, Yanle, and Liu, Wei
- Subjects
QUALITY assurance ,RADIOTHERAPY treatment planning ,AERODYNAMICS ,GAUSSIAN channels ,GAUSSIAN processes - Abstract
Introduction: The range shifter (RS) is used to treat shallow tumors for a proton pencil beam scanning system (PBS). Adding RS certainly complicates the commissioning of the treatment planning system (TPS) because the spot sizes are significantly enlarged with RS. In this work, we present an efficient method to configure a commercial TPS for a PBS system with a fixed RS.Methods: By combining a spiral delivery with customized control points, we were able to significantly improve measurement efficiency and obtain 250 field size factors (FSF) within three hours. The measured FSFs were used to characterize the proton fluence and fit the parameters for the double-Gaussian fluence model used in the TPS. Extensive validation was performed using FSFs measured in air and in water, absolute doses of spread-out Bragg peak (SOBP) fields, and the dose measurements carried out for patient-specific quality assurance (QA).Results: The measured in-air FSFs agreed with the model's prediction within 3% for all 250 FSFs, and within 2 for 94% of the FSFs. The agreement between model's prediction and measurement was within 2% for the in-air and in-water FSFs and the absolute doses for SOBP beams. The patient-specific QA of 113 fields showed an excellent gamma passing rates (96.95 ± 2.51%) for the absolute dose comparisons with gamma criteria of 2 mm and 2%.Conclusion: The excellent agreement between the model's prediction and measurements proved the efficiency and accuracy of the proposed method of using FSFs to characterize the proton fluence and configure the TPS for a PBS system with fixed RS. [ABSTRACT FROM AUTHOR]- Published
- 2017
- Full Text
- View/download PDF
46. An efficient method to determine double Gaussian fluence parameters in the eclipse™ proton pencil beam model.
- Author
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Shen, Jiajian, Liu, Wei, Stoker, Joshua, Ding, Xiaoning, Anand, Aman, Hu, Yanle, Herman, Michael G., and Bues, Martin
- Subjects
- *
PROTON therapy , *RADIOTHERAPY treatment planning , *STANDARD deviations , *SUPERPOSITION (Optics) , *GAUSSIAN processes - Abstract
Purpose: To find an efficient method to configure the proton fluence for a commercial proton pencil beam scanning (PBS) treatment planning system (TPS). Methods: An in-water dose kernel was developed to mimic the dose kernel of the pencil beam convolution superposition algorithm, which is part of the commercial proton beam therapy planning software, ECLIPSE™ (Varian Medical Systems, Palo Alto, CA). The field size factor (FSF) was calculated based on the spot profile reconstructed by the in-house dose kernel. The workflow of using FSFs to find the desirable proton fluence is presented. The in-house derived spot profile and FSF were validated by a direct comparison with those calculated by the ECLIPSE TPS. The validation included 420 comparisons of the FSFs from 14 proton energies, various field sizes from 2 to 20 cm and various depths from 20% to 80% of proton range. Results: The relative in-water lateral profiles between the in-house calculation and the ECLIPSE TPS agree very well even at the level of 10-4. The FSFs between the in-house calculation and the ECLIPSE TPS also agree well. The maximum deviation is within 0.5%, and the standard deviation is less than 0.1%. Conclusions: The authors' method significantly reduced the time to find the desirable proton fluences of the clinical energies. The method is extensively validated and can be applied to any proton centers using PBS and the ECLIPSE TPS. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
47. Facile synthesis of a thermally stable Ce3+:Y3Al5O12 phosphor-in-glass for white LEDs.
- Author
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Huang, Jun, Hu, Xianli, Shen, Jiajian, Wu, Donglin, Yin, Congfei, Xiang, Run, Yang, Cheng, Liang, Xiaojuan, and Xiang, Weidong
- Subjects
CHEMICAL synthesis ,PHOSPHORS ,LIGHT emitting diodes ,GLASS ,LOW temperatures ,SINTERING - Abstract
This study outlines a general but convenient approach towards the synthesis of a Ce
3+ :Y3 Al5 O12 phosphor-in-glass (PiG) with a relatively low sintering temperature. A comparative study of the as-synthesized PiG and glass ceramic prepared using a conventional route was carried out to explore the structural, morphological and optical properties. In addition, the effect of phosphor concentration and the sintering temperature/time on the luminescence properties was systematically investigated. Notably, we fabricated a high-performance white LED based on PiG with a high luminous efficacy (125 lm W−1 ), low correlated colour temperature (4329 K) and colour rendering index of 68. Furthermore, the PiG material demonstrates an excellent thermal stability up to 150 °C, superior to the low thermal stability of conventional Ce3+ :Y3 Al5 O12 doped silicone. Therefore, we present a transparent phosphor glass with desirable potential for application in high powered W-LEDs. [ABSTRACT FROM AUTHOR]- Published
- 2015
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- View/download PDF
48. Impact of range shifter material on proton pencil beam spot characteristics.
- Author
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Shen, Jiajian, Liu, Wei, Anand, Aman, Stoker, Joshua B., Ding, Xiaoning, Fatyga, Mirek, Herman, Michael G., and Bues, Martin
- Subjects
- *
PROTON beams , *ACRYLONITRILE , *POLYETHYLENE , *THICKNESS measurement , *AIR gap (Engineering) - Abstract
Purpose: To quantitatively investigate the effect of range shifter materials on single-spot characteristics of a proton pencil beam. Methods: An analytic approximation for multiple Coulomb scattering ("differential Moliere" formula) was adopted to calculate spot sizes of proton spot scanning beams impinging on a range shifter. The calculations cover a range of delivery parameters: six range shifter materials (acrylonitrile butadiene styrene, Lexan, Lucite, polyethylene, polystyrene, and wax) and water as reference material, proton beam energies ranging from 75 to 200 MeV, range shifter thicknesses of 4.5 and 7.0 g/cm2, and range shifter positions from 5 to 50 cm. The analytic method was validated by comparing calculation results with the measurements reported in the literature. Results: Relative to a water-equivalent reference, the spot size distal to a wax or polyethylene range shifter is 15% smaller, while the spot size distal to a range shifter made of Lexan or Lucite is about 6% smaller. The relative spot size variations are nearly independent of beam energy and range shifter thickness and decrease with smaller air gaps. Conclusions: Among the six material investigated, wax and polyethylene are desirable range shifter materials when the spot size is kept small. Lexan and Lucite are the desirable range shifter materials when the scattering power is kept similar to water. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
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49. Dynamic simulation of motion effects in IMAT lung SBRT.
- Author
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Zou, Wei, Yin, Lingshu, Shen, Jiajian, Corradetti, Michael N, Kirk, Maura, Munbodh, Reshma, Fang, Penny, Jabbour, Salma K, Simone 2nd, Charles B, Yue, Ning J, Rengan, Ramesh, Teo, Boon-Keng Kevin, and Simone, Charles B 2nd
- Abstract
Background: Intensity modulated arc therapy (IMAT) has been widely adopted for Stereotactic Body Radiotherapy (SBRT) for lung cancer. While treatment dose is optimized and calculated on a static Computed Tomography (CT) image, the effect of the interplay between the target and linac multi-leaf collimator (MLC) motion is not well described and may result in deviations between delivered and planned dose. In this study, we investigated the dosimetric consequences of the inter-play effect on target and organs at risk (OAR) by simulating dynamic dose delivery using dynamic CT datasets.Methods: Fifteen stage I non-small cell lung cancer (NSCLC) patients with greater than 10 mm tumor motion treated with SBRT in 4 fractions to a dose of 50 Gy were retrospectively analyzed for this study. Each IMAT plan was initially optimized using two arcs. Simulated dynamic delivery was performed by associating the MLC leaf position, gantry angle and delivered beam monitor units (MUs) for each control point with different respiratory phases of the 4D-CT using machine delivery log files containing time stamps of the control points. Dose maps associated with each phase of the 4D-CT dose were calculated in the treatment planning system and accumulated using deformable image registration onto the exhale phase of the 4D-CT. The original IMAT plans were recalculated on the exhale phase of the CT for comparison with the dynamic simulation.Results: The dose coverage of the PTV showed negligible variation between the static and dynamic simulation. There was less than 1.5% difference in PTV V95% and V90%. The average inter-fraction and cumulative dosimetric effects among all the patients were less than 0.5% for PTV V95% and V90% coverage and 0.8 Gy for the OARs. However, in patients where target is close to the organs, large variations were observed on great vessels and bronchus for as much as 4.9 Gy and 7.8 Gy.Conclusions: Limited variation in target dose coverage and OAR constraints were seen for each SBRT fraction as well as over all four fractions. Large dose variations were observed on critical organs in patients where these organs were closer to the target. [ABSTRACT FROM AUTHOR]- Published
- 2014
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50. THE BLACK HOLE-BULGE RELATIONSHIP IN LUMINOUS BROAD-LINE ACTIVE GALACTIC NUCLEI AND HOST GALAXIES.
- Author
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Shen, Jiajian, Berk, Daniel E. Vanden, Schneider, Donald P., and Hall, Patrick B.
- Published
- 2008
- Full Text
- View/download PDF
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