1.Impacts of bladder filling status on dosimetric parameters of target volume and OAR in intensity-modulated radiotherapy for prostate cancer
Liang ZHANG ; Yongjian JU ; Gaoren WANG ; Dijun WU ; Kexin LI ; Liyuan CAO
Chinese Journal of Radiation Oncology 2014;23(5):382-385
Objective To study the impacts of bladder filling status on the dosimetric parameters of the target volume and organs at risk (OAR) in intensity-modulated radiotherapy (IMRT) for prostate cancer.Methods Ten localized prostate cancer patients without serious complications treated with IMRT were selected for this study.These patients underwent CT scans of the whole pelvic cavity three times in different bladder filling status (empty and injected with 150 ml and 300 ml of normal saline) to obtain three series of pelvic CT images.The three sets of CT images were transferred to the treatment planning system.The target volume and OAR such as the rectum,bladder,and femoral heads were contoured by the same doctor.The treatment planning was performed and optimized by the physicist.The dosimetric parameters of the target volume and OAR in three bladder filling status were subjected to analysis by paired t-test.Results If the bladder filling status was consistent in orientation and radiation,the bladder filling status was not associated with the dosimetric parameters of the target volume and femoral heads (P =0.077-0.998 ; P =0.219-0.969) ;it had significant impacts on the dosimetric parameters of the bladder (P =0.000-0.562) and some dosimetric parameters of the rectum (P =0.000-0.645),and bladder filling was favorable for the protection of the bladder and rectum.If the bladder filling status was not consistent in orientation and actual radiation,the calculated planning target volume,the dosimetric parameters of the bladder,and some dosimetric parameters of the rectum were different from those in actual treatment (P =0.000-0.913).Conclusions For the prostate cancer patients treated with IMRT,it is recommended to keep the bladder well and consistently filled.
2.Murine cytomegalovirus IE3 protein interacts with Ankrd17.
Hui, WANG ; Xinglou, LIU ; Sainan, SHU ; Ju, ZHANG ; Yongjian, HUANG ; Feng, FANG
Journal of Huazhong University of Science and Technology (Medical Sciences) 2011;31(3):285-9
Murine cytomegalovirus (MCMV) IE3 protein is a multifunctional viral protein that interacts with several target proteins of both viral and host cellular origin. To investigate the biological function of IE3 in the pathogenesis of the brain disorders caused by CMV, a screening for host cellular proteins that could interact with IE3 was performed. By yeast two-hybrid screening, ankyrin repeats domain 17 (Ankrd17, also known as Gtar) was identified as a host factor that could interact with IE3. This interaction was verified by yeast two-hybrid assay and chemiluminescent co-immunoprecipitaion. Mapping analysis suggested that the 1-148 residues of IE3 were responsible for the interaction. These results suggested that the interaction between Ankrd17 and IE3 may play a key role in the pathogenesis of MCMV-associated disease.
3.The dosimetric effect of inconsistency of bladder filling states between CT simulation and IMRT treatment for prostate cancer patients
Kexin LI ; Yongjian JU ; Liyuan CAO ; Liang ZHANG ; Xuan GAO
Chinese Journal of Radiological Medicine and Protection 2019;39(3):192-196
Objective To analyze the dosimetric effect of inconsistent bladder filling states between the CT simulation and treatment for prostate cancer patients undergoing intensity-modulated radiotherapy (IMRT).Methods A total of 42 prostate cancer patients treated with IMRT were selected.After vacuum pad immobilization and simulation CT scan,the delineation of targets and organs-at-risk (OARs),treatment planning and dose calculation were performed on treatment planning system (TPS).The cone-beam-CT (CBCT) acquired before the first treatment was registered to planning CT,on which the target contours were duplicated and OARs were delineated.After dose recalculation on the CBCT using the same plan,the dosimetric differences on the CT and CBCT were compared,including mean dose of the planning target volume (PTV),homogeneity index (HI),conformity index (CI);the mean dose,V30,V40,V50,V60,and V65 of bladder and rectum respectively.Results Relative to the bladder volumes at simulation,the patients were divided into two groups with larger (15 cases) or smaller (27 cases) bladders at the first treatment.Comparing the parameters obtained from simulation CT with that from CBCT,the differences of the following parameters were of statistical significance:the bladder volume,PTV HI,PTV CI in both groups (t =6.838,-4.372,-3.553,-3.462,6.380,5.037,P< 0.05),the bladder V30,V40,V50,V60,V65(t=-5.004,-4.092,-3.124,-2.707,-2.489,P <0.05) and rectal V40,V50,V60,V65,mean dose in the group with smaller bladders (t=-2.946,-2.643,-2.426,-3.127,-2.530,P < 0.05),and the bladder V30,V40,V50 and mean dose in group with larger bladders (t =5.107,4.204,3.777,4.155,P<0.05).Conclusions For prostate cancer patients undergoing IMRT,the inconsistent bladder filling states between the planning and treatment will cause disimetric differences of targets and OARs.
4.Murine Cytomegalovirus IE3 Protein Interacts with Ankrd17
WANG HUI ; LIU XINGLOU ; SHU SAINAN ; ZHANG JU ; HUANG YONGJIAN ; FANG FENG
Journal of Huazhong University of Science and Technology (Medical Sciences) 2011;31(3):285-289
Murine cytomegalovirus (MCMV) IE3 protein is a multifunctional viral protein that interacts with several target proteins of both viral and host cellular origin.To investigate the biological function of IE3 in the pathogenesis of the brain disorders caused by CMV,a screening for host cellular proteins that could interact with IE3 was performed.By yeast two-hybrid screening,ankyrin repeats domain 17 (Ankrd17,also known as Gtar) was identified as a host factor that could interact with IE3.This interaction was verified by yeast two-hybrid assay and chemiluminescent co-immunoprecipitaion.Mapping analysis suggested that the 1-148 residues of IE3 were responsible for the interaction.These results suggested that the interaction between Ankrd17 and IE3 may play a key role in the pathogenesis of MCMV-associated disease.
5.Analysis of dosimetric differences between active control and passive tracking of jaws
Liyuan CAO ; Yongjian JU ; Kexin LI
Chinese Journal of Radiological Health 2023;32(5):556-559
Objective To analyze the effect of the fixed-jaw technique on dosimetric parameters during dynamic intensity-modulated radiotherapy (DIMRT) planning. Methods Ten patients each with nasopharyngeal carcinoma, postoperative cervical cancer, and right breast cancer after radical surgery were selected for this study; all patients underwent DIMRT in our hospital in 2020. After administration at the prescribed dose, two methods were used to design the radiotherapy plan for each patient: split-field technique (SFT) and fixed-jaw technique (FJT). The two plans were compared for the differences in the dosimetric parameters and plan verification pass rate. Results Compared with SFT, FJT showed significant decreases (P <0.05) in the following parameters for patients with nasopharyngeal carcinoma, postoperative cervical cancer, and right breast cancer after radical surgery: number of radiation fields (down by 41.5%, 47.3%, and 34.9%, respectively, t = 7.954, 24.2, and 4.949, respectively), total number of monitor units (MUs) (down by 5.6%, 5.3%, and 13.5%, respectively, t = 3.211, 2.423, and 5.481, respectively), and actual beam-on time (down by 25.3%, 23.8%, and 13.6%, respectively, t = 5.814, 9.208, and 5.655, respectively). There were significant differences in some of the dosimetric parameters for all three types of cancer patients between the two plans (P <0.05). There were no significant differences in the plan verification pass rate (P >0.05). Conclusion FJT can reduce the total number of MUs and actual beam-on time while meeting the requirements for clinically prescribed doses in DIMRT planning.
6.The application of different Auto-shells and optimization steps of CyberKnife treatment plans for pancreatic cancer
Yangsen CAO ; Jian LI ; Chunshan YU ; Yongjian SUN ; Xiaoping JU ; Xiaofei ZHU ; Yangyang GENG ; Yin TANG ; Huojun ZHANG
Chinese Journal of Pancreatology 2018;18(1):35-38
Objective To propose the method of dose distribution calculated by one-step optimization with 7 shells (Cao method) and compare with that by three-step optimization with 4 shells (Blanck method) and CyberKnife treatment plans for pancreatic cancer. Methods 20 cases of pancreatic cancer who underwent CyberKnife treatment were retrospectively analyzed,and CT was performed to localize and delineate the target area and endangering organs. Dosage was optimized and evaluated with Blanck method and Cao method. The planning target volume (PTV) conformity index (CI), new conformity index (nCI), homogeneity index (HI),gradient index (GI), coverage, dose-volume and doses to organs at risk were compared. Results Compared with Blanck method, CI (1.11 ± 0.05 vs 1.15 ± 0.05), nCI (1.20 ± 0.06 vs 1.23 ± 0.06), coverage [(92.48 ± 1.85)% vs (93.53 ± 2.15)%], volumes encompassed by 100% and 30% prescription dose line (36.46 ± 16.64 vs 38.19 ± 17.68; 286.19 ± 126.52 vs 320.93 ± 154.82) and monitor unit (56 369 ± 20 019 vs 57 814 ± 20 531) were significantly decreased,while GI was increased (3.22 ± 0.19 vs 3.11 ± 0.19), and all the differences were statistically significant (P<0.05). Additionally, Dmax of the intestine (21.17 ± 2.90 vs 20.63 ± 3.13), D10cc of the stomach (12.78 ± 2.57 vs 13.11 ± 2.43), D5ccof the duodenum (11.01 ± 3.45 vs 11.50 ± 3.25), D10ccof the duodenum (9.30 ± 3.31 vs 9.78 ± 3.07) and D0.35ccof the spinal cord (6.09 ± 0.98 vs 6.59 ± 0.92) were all significantly decreased (P<0.05). No significant differences were found on other parameters. Conclusions Better dose distributions are accessible by one-step optimization with 7 shells in CyberKnife treatment plans for pancreatic cancer.
7.The study on the parameters of treatment plans for pancreatic cancer with cyber-nife system
Xueling GUO ; Yongming LIU ; Zhitao DAI ; Chunshan YU ; Yongjian SUN ; Yangsen CAO ; Xiaoping JU ; Huojun ZHANG
Chinese Journal of Pancreatology 2018;18(4):228-232
[Abstact] Objective To analyze the related parameters of the treatment plans for the pancreatic cancer with the Cyber-knife system.Methods The clinical data of 129 patients with single-target pancreatic cancer for the first time who underwent CyberkKnife radiosurgery between January 2017 and December 2017 in Shanghai Changhai Hospital were retrospectively analyzed.The parameters were all selected from the MultiPlan @4.0.2 treatment planning system and the data were analyzed.Results The volume of the targets in 129 patients with pancreatic cancer was 3.355-238.936 cm3,with the average volume of 51.43 ± 55.64 cm3.Patients were averagely treated for 5 to 8 sessions,and the average prescription dose was 6 Gy × 6 fraction,which equaled to 58 Gy in the biological equivalent dose (BED).The collimators with 20 mm and 15 mm accounted for up to 31% and 27%,respectively,which were the top 2 options.The finally designed the conformal index(CI),new conformal index(nCI),and the homogeneity index were 1.14 ± 0.09,1.29 ± 0.09 and 1.42 ± 0.04,respectively.The coverages of tumor target was 80.3%-95.6%,with the average of 90.0 ± 4.6%.The treatment nodes,beams and Mus are 79,180 and 7 060 in average.The estimated treatment time was 42 ± 8 minutes.The organs at risk can be protected very well.Conclusions Reasonable Cyber-knife treatment plan can guarantee that stereotactic body radiation therapy can effectively treat Pancreatic Cancer.