Objective To characterize angular dependency of MatfiXX and develop a method for its calibration in order to verify treatment plan with original gantry angles.Methods Absolute dose calibration was carried with thimble ionization chamber on the linear accelerator.so as to make sure 1 MU=1 cGy at the depth of maximum dose(dmax).A MatriXX was put into a Mutlicube phantom,and the ionization chamber matrix was calibrated with absolute dose.In order to determine a correction factor CF as a function of gantry angle θ.open beam fields of 10 cm×10 cm size were irradiated for gantry angles θ=0°-180°(every 5°)and every 1°for lateral angles θ in the range of 85°-95°.CF was defined as the ratio of the dose measured with ionization chamber and the dose from MatriXX.Results Relatively large discrepancies in response to posterior VS.anterior fields for MatriXX detectors(up to 10%)were found during the experiment and relatively large variability of response as a function of gantry angle.The pass rate of treatment plan in lateral beams was lower than that of other beams.The isodose distribution of corrected MatriXX matched well with the outcome from the treatment planning system. Conclusions The angular dose dependency of MatriXX must be considered when it is used to verify the treatment plan with original gantry angles.

Objective To investigate the changes in volume and spatial location of target areas and normal tissues before and during intensity?modulated radiotherapy (IMRT) for cervical cancer by quantitative means. Methods Forty patients with cervical cancer who were treated with IMRT were enrolled as subjects. Computed tomography ( CT) was performed before IMRT and during IMRT when a dose of 27 Gy ( 15 fractions) was reached. Clinicians delineated the target areas and organs at risk in the two groups of CT images. The target areas and organs at risk in one group of images were mapped to the other group of CT image by image registration using the Pinnacle treatment planning system. Volume changes in target areas and organs at risk were analyzed, and changes in the spatial location were evaluated by volume difference method and Dice similarity method. Comparison was made by paired t?test. Results There were significant differences in gross target volumes of primary tumor lesions ( GTV?T) and pelvic metastatic lymph nodes (GTV?N) before and during IMRT ( P= 0?? 000; P= 0?? 000). According to the evaluation by volume difference method, the average rate of change in GTV?T was (38.64±19?? 50)% with a range between 3?? 16%and 86?? 49%, while the average rate of change in GTV?N was (42.49± 25?? 68)% with a range between 2?? 79% and 87?? 42%. In the organs at risk, the bladder had the maximum rate of volume change, the average of which was (55.13±33?? 40)% with a range between 3?? 25% and 116?? 01%. According to the evaluation by Dice similarity method, the average Dice similarity coefficient for GTV?T was 0.50± 0?? 18 with a range between 0?? 10 and 0?? 85, while the average Dice similarity coefficient for GTV?N was 0.31±0?? 20 with a range between 0?? 00 and 0?? 71. The rectum had the minimum Dice coefficient in the organs at risk, the average of which was 0.57± 0?? 14 with a range between 0?? 18 and 0?? 76 . Conclusions For patients with cervical cancer to receive IMRT, since there are substantial changes in volume and spatial location of target areas and normal tissues before and during treatment, it is quite necessary to modify the treatment regimen in time in order to provide adequate doses for target areas and avoid overdose for organs at risk.

ObjectiveTo analyze the correlation between primary tumor volume (PTV) and prognosis of nasopharyngeal carcinoma ( NPC ) treated by intensity-modulated radiotherapy ( IMRT ).Methods330 NPC patients treated by IMRT were included.Pretreatment computerized tomography image were input into tree-dimensional treatment-planning system,in which the primary tumor volume were calculated automatically.The receiver operating characteristic curve was used to determine the best cut-off point of PTV.Within the framework of UICC 2002 T stage,The PTV was divided into four groups:V1 ＜ 10cm3,V2 10-25 cm3,V3 ＞ 25-50 cm3 and V4 ＞ 50 cm3.Kaplan-Meier and Logrank test was used to analyze the survival,Cox proportion risk regression model were used to analysis the correlation between PTV and prognosis.ResultsThe mean PTV for all NPC patients was ( 34.2 ± 27.1 ) cm3 with the range of 0.4- 153.7 cm3.The 3-year overall survival for V1,V2,V3 and V4 stage were 88.6％,90.0％,91.2％ and 74.2％,respectively (x2 =12.83,P =0.005 ).There was no significant difference among V1,V2 and V3in terms of overall survival ( x2 =1.96,P =0.376).The 3-year distant metastasis-free survival and diseasesfree survival or overall survival were decrease in PTV ＞50 cm3 and PTV≤50 cm3 (77.4％:89.9％,x2 =7.24,P=0.007and 64.5％:85.1％,x2 =13.95,P=0.000 or 74.2％:90.3％,x2 =11.76,P=0.001).Multivariate analysis revealed that PTV was a adverse prognostic factors for overall survival (x2 =0.00,P =2.580).ConclusionOur data showed that the primary tumor volume had significantly impacted on the prognosis of NPC patients treated by intensity modulated radiotherapy.

Objective To study the feasibility of dose calculation using kilovoltage X-ray cone-beam CT (KVCBCT) imaging for head-and-neck radiation therapy.Methods 11 patients with nasopharyngeal carcinoma were scanned with KVCBCT to adjust position before treatment, and rescanning images with KVCBCT after correction were input a treatment-planning system.The dose was recalculated by applying the patients′ treatment plans based on planning CT to the KVCBCT images.The dose distributions and dose volume histograms (DVH) of the tumor and critical structures were compared with the original treatment plan.Results The DVH and dose distribution of the plan based on the KVCBCT are compared with that of the planning CT, and they shows a good consistency for the 11 cases.The doses calculated from the planning CT and KVCBCT were compared on the isocenter planes.Using γ analysis with a criterion of 3%/3 mm, 98.0%±1.33% of the points on the isocenter planes in the planning CT and KVCBCT.The difference of the dose to target volume was<1% and to normal structure was<2%.Conclusions This study indicated that CBCT images can be used to make a treatment plan with its individual hounsfield unit-electron density calibration curve.

Objective To investigate the dosimetric performance of COMPASS system,a novel 3D quality assurance system for the verification of nasopharyngeal carcinoma volumetric modulated therapy (VMAT) treatment plan.Methods Eight VMAT treatment plans of nasopharyngeal carcinoma patients were performed with MasterPlan,a treatment planning system (TPS),and then these treatment plans were sent to the COMPASS and MOSAIQ system,a coherent control system,respectively.Comparison of the COMPASS reconstructed dose versus TPS dose was conducted by using the dose volume-based indices:dose received by 95％ volume of target ( D95％ ),mean dose ( Dmean ) and γ pass rate,dose to the 1％ of the spinal cord and brain stem volume ( D1％ ),mean dose of leaf and right parotid ( Dmean ),and the volume received 30 Gy for left and right parotid (V30).COMPASS can reconstruct dose with the real measured delivery fluence after detector commissioning.Results The average dose difference for the target volumes was within 1％,the difference for D95 was within 3％ for most treatment plans,and the γ pass rate was higher than 95％ for all target volumes.The average differences for the D1％ values of spinal cord and brain stem were ( 4.3 ± 3.0) ％ and ( 5.9± 2.9 ) ％ respectively,and the average differences for the Dmean values of spinal cord and brain stem were ( 5.3 ± 3.0 ) ％ and ( 8.0 ± 3.5 ) ％ respectively.In general the COMPASS measured doses were all smaller than the TPS calculated doses for these two organs.The average differences of the Dmean values of the left and right parotids were( 6.1± 3.1 ) ％ and ( 4.7 ± 4.4 ) ％ respectively,and the average differences of the V30 values of the left and right parotids were (9.4 ± 7.5 ) ％ and (9.4 ± 9.9)％ respectively.Conclusions An ideal tool for the VMAT verification,the patient anatomy based COMPASS 3D dose verification system can check the dose difference between the real delivery and TPS calculation directly for each individual organ,either target volumes or critical organs.

Objective To evaluate the impact of reducing clinical target volume (CTV) on the efficacy of intensity modulated radiation therapy (IMRT) for nasopharyngeal carcinoma (NPC) . Methods Between August 2003 and March 2007, 380 NPC patients were treated with IMRT with reduced CTV.CTV1, defined as high risk region, included GTV +5 - 10 mm margin and the entire nasopharyngeal mucosa +5 mm submucosal volume; CTV2, designed for potentially involved regions, included the nasopharyngeal cavity (limited to the posterior part of nasal cavity only), maxillary sinus (limited to 5 mm anterior to the posterior nasal aperture and maxillary mucosa), pterygopalatine fossa, posterior ethmoid sinus,parapharyngeal space, skull base, anterior third of clivus and cervical vertebra, inferior spheniod sinus and cavernous sinus and internal group of retropharyngeal lymph nodal regions from the base of skull to cranial edge of the second cervical vertebra. The prescription dose was: GTV 66. 00 -69. 75 Gy/30 - 33 f, CTV1 60. 00 -66. 65 Gy,CTV2/CTVN 54. 0 -55.8 Gy. 308 patients with stage Ⅲ or Ⅳ diseases also received cisplatin-based neoadjuvant chemotherapy. Results The follow-up rate was 100%. 145 patients were followed-up to 3 years. The 3-year estimated local control, regional control, metastasis-free survival,disease-free survival and overall survival rates were 94. 9%, 97.4%, 86. 2%, 80. 9% and 89. 0%,respectively. Multivariate analysis revealed that N-classification was a significant prognostic factor for metastasis-free survival (x2 = 20. 80, P = 0. 001), N-classification (x2 = 18. 30, P = 0. 003) and age (x2 =7. 31, P =0. 004) were independent prognostic factors for overall survival. Grade 2 xerostomia was observed in 5.6% of the patients after two years of IMRT, no Grade 3 or 4 xerostomia was observed. Local, regional,and distant failures were developed in 4. 2%, 2. 6% and 12. 1% of the patients, respectively. Conclusions The IMRT approach with reduced CTV2 provids a favorable outcome for NPC with acceptable toxicities.

Objective To investigate change of the volume and the epicenter of target volume under different scan speed of the three-dimensional (3D) simulation computed tomography (CT) and determine the scan speed which close to ITV.Methods A dynamic phantom-QUASAR,with a 3 cm × 3 cm × 3 cm target cubic simulating respiratory motion was used.The phantom was set with three different amplitudes and breathing frequencies under different scan speed.The dynamic phantom was also scanned using simulation 4DCT as ITV was the standard.The length of the phantom was 12 cm,the scan time were 6.6 s,12.8 s,31.7 s.The volume and epicenter of the target identified from 3DCT images were calculated and compared to 4DCT images.The number of times of target length (30 ± 2) mm/total scan times was used to assese the accuracy.Results The total accuracy was 6.8％.For different scan speed,the accuracy were 13％,4％ and 2％,respectively.The length of the epicenter of the target volume was (318.9 ±0.37) mm,(683.2 ±0.44) mm,(682.9 ± 0.66) mm under the 0.5 cm,1.0 cm and 2.0 cm,respectively.When the scan time was 31.7 s,the volume of the target from the 3DCT were close to ITV-10 mm,the frequency were 50％,78％,56％ for three different amplitude.Conclusions This study shows that the images from the 3D simulation CT were the partial image of the breathing cycle,and the epicenters were diversed with the breathing amplitude and scan speed.The accuracy rate of the 3DCT reflects the real target is low.In addition,the epicenter of the target changed randomly.

Objective To compare the dosimetric differences of fixed field intensity-modulated radiation therapy(IMRT),volumetric modulated arc therapy (VMAT) and helical tomotherapy (HT) for nasopharyngeal carcinoma (NPC) patients.Methods Eighteen NPC patients previously treated with VMAT were retrospectively included and re-planned using HT and IMRT (7 fields) techniques utilizing the same dose prescription and optimization objectives.The following parameters were compared across the three types of plans:homogeneity index (HI),conformity index (CI),maximum dose (Dmax) and mean dose (Dmean) of targets ; the Dmax and Dmean of organs at risk (OARs) ; the doses and volumes of volume of interest; the treatment delivery time and monitor units (MU).Results Clinically acceptable target coverage could be achieved by IMRT,VMAT and HT plans.The HT plans were the best yet IMRT plans were the worst in HI and CI of targets.IMRT imposed highest doses to OARs while HT deposited least doses to the spinal cord,brainstem and parotid.However,the VMAT plans displayed the lowest doses on optic nerves,chiasma and lens while highest doses were found in IMRT plans.The average delivery time per fraction of IMRT (8.0±0.5) min were more than that of HT (7.4 ±0.9) min and VMAT (3.9 ±0.1) min plans.The MUs of IMRT plans (711.4 ±78.7) were larger than that of VMAT plans (596.4 ±33.7).Conclusions Three types of plans can all achieve the clinical dosimetric demands,but HT has the best performance on CI and HI.VMAT is most efficient regarding the delivery time and total MUs.

Objective To measure the set-up errors of patients with head and neck (H&N) cancer during the image guided intensity-modulated radiotherapy (IMRT) treatment and analyze the impact of setup errors on dose distribution ; then to further investigate the necessity of adjustment online for H&N cancer during IMRT treatment.Methods Cone-beam CT (CBCT) scanning of thirty patients with H&N cancer were acquired by once weekly with a total of 6 times during IMRT treatment.The CBCT images and the original planning CT images were matched by the bony structure and worked out the translational errors of the x,y,z axis,as well as rotational errors.The dose distributions were recalculated based on the data of each setup error.The dose of planning target volume (PTV) and organs at risk were calculated in the replanning,and than compared with the original plan by paired t-test.Results The mean value of x,y,z axis translational set-up errors were ( 1.06 ± 0.95 ) mm,( 0.95 ± 0.77 ) mm and ( 1.31 ± 1.07 ) mm,respectively.The rotational error of x,y,z axis were ( 1.04 ±0.791 ),( 1.06 ±0.89) and (0.81 ±0.61 ),respectively.PTV 95％ volume dose ( D95 ) and PTV minimal dose of replanning for 6 times set-up were lower than original plan (6526.6 cGy:6630.3 cGy,t =3.98,P =0.000 and 5632.6 cGy:5792.5 cGy,t =- 2.89,P =0.007).Brain stem received 45 Gydose volume ( V45 ) and 1％ brain stem volume dose ( D01 )were higher than original plan ( 3.54％:2.75％,t =3.84,P =0.001 and 5129.7 cGy:4919.3 cGy,t =4.36,P =0.000).Conclusions The set-up errors led to the dose of PTV D95 obviously insufficient and significantly increased V45,D01 of the brainstem.So,adjustment online is necessary for H&N cancer during IMRT treatment.

Objective To compare the dosimetric difference among plans designed by 4-field,6-field TomoDirect and TomoHelical techniques in Tomotherapy system for left-breast cancer patients with radiotherapy after breast-conserving surgery.Method A total of 16 patients with left-breast cancer following breast-conserving surgery and intensity-modulated radiation therapy were enrolled in this retrospective study.The 4-field TomoDirect (TD4),6-field TomoDirect (TD6),and TomoHelical (TH) techniques were applied to design simulation plans in tomotherapy system for each patient,respectively.The differences of dose distribution and treatment parameters were analyzed in this study.Results Three plans all met the clinical requirement.Thereinto,TD4 was superior to TH in the dose limitation of organs at risk (OARs),especially the max dose of cord and right-breast,thc 5 Gy radiation volume of lung,and the mean dose of heart(F =595.60,129.24,60.44,65.37,P ＜ 0.05),but inferior to TH in dose homogeneity (HI) and conformity (CI) (F =2.78,60.93,P ＜ 0.05).However,TD6 improved TD4's HI and CI when delivered the lower OARs dose compared to TH.Meanwhile,the number of monitor units was less in TD technique and reduced the treatment times (F =24.89,3.75,P ＜ O.05).Conclusions For the radiotherapy of left-breast cancer patients after breast-conserving surgery,TD6 technique appeared to be superior,with the lower radiation dose of OARs compared to TH technique,and the better target's HI and CI in comparison with TD4 technique,especially in patients with early stage breast cancer.