https://www.selleckchem.com/products/gsk126.html The curriculum was incorporated into a 1-day course on gynecologic malignancies, with adaptation to local setting and routine. Among 15 attendees, eight were residents, from four programs. All completed the workshop. All domains assessed by the surveys improved and all respondents found the program to be helpful. International deployment of the simulation-based educational BT curriculum was feasible and well-received. Further collaboration is needed to deploy and adapt the curriculum to countries of high cervical cancer incidence that could benefit from increased education. International deployment of the simulation-based educational BT curriculum was feasible and well-received. Further collaboration is needed to deploy and adapt the curriculum to countries of high cervical cancer incidence that could benefit from increased education. To compare dosimetrically the stereotactic CyberKnife (CK) therapy and multicatheter high-dose-rate (HDR) brachytherapy (BT) for accelerated partial breast irradiation (APBI). Treatment plans of 25 patients treated with CK were selected, and additional plans using multicatheter HDR BT were created on the same CT images. The prescribed dose was 6.25/25Gy in both plans to the target volume (PTV). The dose-volume parameters were calculated for both techniques and compared. The D90 total dose of the PTV was significantly lower with CK than with HDR BT, D90 was 25.7Gy, and 27.0Gy (p < 0.001). However, CK plans were more conformal than BT, COIN was 0.87, and 0.81 (p= 0.0030). The V50 of the non-target breast was higher with CK than with BT 10.5% and 3.3% (p= 0.0010), while there was no difference in the dose of the contralateral breast and contralateral lung. Dose to skin, ipsilateral lung, and ribs were higher with CK than with BT D was 20.6Gy vs. 11.5Gy (p= 0.0018) to skin, 11.4Gy vs. 9.6Gy (p= 0.0272) to ipsilateral lung and 18.5Gy vs. 12.3Gy (p= 0.0013) to ribs, while D to heart was lower,