The same template is also used when changes in the shape of the radiation field are desired. The template containing this information is given to the physicist to incorporate within the intraoperative treatment planning system. The orientation of the applicator and the template must be established to implement such dose prescriptions correctly. The dose to a larger area (Dose 1) and to the boost region (Dose 2) is determined by the radiation oncologist
and prescribed to 0.5 cm from the applicator’s surface. The HAM applicator is positioned in direct www.selleckchem.com/products/Erlotinib-Hydrochloride.html contact with the area at risk using either sutures or packing to hold the applicator in place (Fig. 3a). Packing is also used to displace normal adjacent organs (e.g., large bowel, bladder, and small intestines) away from the field, as well as lead shields to reduce the dose to normal structures in close contact with the applicator (Fig. 3b). The HAM applicator catheters are then connected to the HDR machine (Fig. 4), the staff leaves the room, and the patient is prepared for treatment via remote afterloader control. Treatment planning is performed while the applicator is secured in the treatment position using
the Abacus HDR planning software Ribociclib chemical structure (GammaMed, Inc., North Jackson, OH). It is especially efficient for planning treatments using applicators with fixed or predefined geometry as it allows the import of the implant geometry. Such a program was developed in-house to interface with Abacus and transfer the treatment geometry as defined in the operating room. The treatment geometry includes source stopping positions and dose reference points, required for dwell-time optimization. A secondary dose calculation algorithm for quality assurance of HDR treatment planning is also performed [5] and [6]. Figure 5 shows a coronal view of dose distribution using the DP for dose-escalation and also dose distribution in an irregular field. After the plan is evaluated and approved by the physician, a second physicist performs an independent check of the treatment plan. The process of planning and checking the plan has been streamlined and takes approximately 5 min. Once the plan is Cediranib (AZD2171) checked and
approved, the treatment proceeds and patient vital signs are monitored remotely. All patients in this study were followed by the surgeon and/or radiation oncologist at 3- to 6-month intervals. All information related to clinical outcome was obtained from the patient electronic medical record system. This was a retrospective study approved by the Institutional Review Board. Treatment-related complications were classified using the Common Toxicity Criteria of Adverse Effects version 3.0. Overall survival (OS) and LC rates were calculated by the Kaplan–Meier method. Local failure was defined as recurrent disease inside of the IORT field and distant failure included any extra-IORT site described by the physician on physical examination, radiographic, and/or pathologic findings.