Implementing Workshops to Improve Radiation Therapists' Knowledge and Attitudes about Sexual Health Issues in Cancer Patients.

OBJECTIVES: Although it is widely acknowledged that radiotherapy treatments can have a negative impact on a patient's sexual health, this aspect of side effect management is not commonly addressed by radiation therapists or by other cancer specialists. It is important for radiation therapists to recognize and address possible sexual health issues to provide a holistic approach to care. This quality-improvement project was designed to help radiation therapists discuss the sexual health needs of patients undergoing radiotherapy by improving their clinical knowledge, skills, and comfort level about the topic. METHODS: This study used a cross-sectional descriptive prequestionnaire/postquestionnaire design, in which data were collected from a nonrandom sample of radiation therapists at a single urban radiation therapy center. Participants attended two 90-minute sexual health education workshops specifically designed for radiation therapists and completed online preworkshop/postworkshop questionnaires. All questions were quantitative in nature. The survey consisted of multiple-choice, multiple-select, and five-point Likert-scale questions. Descriptive analysis was used for data analysis. RESULTS: The results of this improvement project indicated that participants had introductory-level knowledge about how cancer treatments can impact patients' sexual health. Although there is potential for some changes in the general knowledge levels of the participants after the initiative, two general workshops about the topic are not enough to have radiation therapists feel comfortable enough with the topic to change their clinical practice. CONCLUSION: This project identified that although radiation therapists acknowledge the importance of discussing sexual health concerns as part of delivering holistic health care, lack of knowledge and expertise with the topic is a main barrier to initiating conversations. To help prepare radiation therapists, education and training initiatives, which build on knowledge and offer opportunities to develop and apply practical skills in both simulated and real-life situations, should be created. This can help to increase confidence in the sexual health counseling provided, which may result in more radiation therapists frequently engaging in these important sexual health conversations.

Quantification of interobserver variability in image registration using cone beam CT for partial bladder radiotherapy-a comparison between lipiodol and bladder wall surface.

OBJECTIVE:: The use of lipiodol or bladder wall surface (BWS) for image guidance has improved the treatment quality for partial bladder irradiation. Currently, this procedure is manually performed by different users. This study assessed the interobserver variability of using image guidance for partial bladder irradiation. METHODS:: 7 observers were prospectively recruited to manually register 5 cone beam CTs (CBCT) from each of 20 bladder cancer patients with lipiodol injected for tumor demarcation. Lipiodol and BWS were used to register the CBCT to pre-treatment reference images, and displacement values in three directions were collected. Mean difference among observers and the 95% limit of agreement were calculated to measure interobserver variability. Margin required and the resultant treatment volume were compared between the surrogates. RESULTS:: A total of 4200 displacement values were collected for analysis. Lipiodol was superior to BWS, with a mean difference among observers of <2 mm and a 95% limit of agreement of <5 mm in all directions. Of the three directions, greatest variability was observed in the superior-inferior direction for both surrogates, hence requiring a larger margin than the other two directions. After applying the corresponding margin, the mean volume of BWS-planning target volume was calculated to be significantly larger than lipiodol-planning target volume (166 cm3vs 134 cm3, p < 0.05). CONCLUSIONS:: The use of lipiodol achieved a higher interobserver agreement than BWS. A larger margin in the superior-inferior direction is recommended due to greater interobserver variability observed in this direction for both surrogates. ADVANCES IN KNOWLEDGE:: The uncertainty associated with the image registration by multiple observers for bladder image-guided radiotherapy is quantified for two surrogates.

Impact of image registration surrogates on the planning target volume geometry for bladder radiation therapy.

PURPOSE: The use of Lipiodol and cone beam computed tomography (CT) has facilitated the generation of patient-specific planning target volumes (PTV) to reduce irradiation of normal tissue. However, injecting Lipiodol to demarcate the target volume is an invasive procedure. Center of bladder (COB) and bladder wall surface (BWS) encompassed by the clinical target volume (CTV) are proposed to be the alternative noninvasive surrogates. This study examines the impact of using these 3 surrogates for image registration on the resultant geometry of patient-specific PTVs. METHODS AND MATERIALS: Twenty bladder cancer patients who had Lipiodol injection before planning CT were included. Lipiodol, CTV, and bladder were delineated on the planning CT. In addition, CTVs were delineated on 5 cone beam CT scans from each patient. Cone beam CT scans were registered to planning CT using Lipiodol, COB, and BWS to generate Lipiodol-PTV, COB-PTV, and BWS-PTV. Using Lipiodol as the reference, the difference in the 2-dimensional/3-dimensional displacement values and the geometry of the resultant PTVs were quantified. RESULTS: A total of 1200 displacement values and 60 volumes were included for analysis. The overall median and standard deviation (SD) of the 3-dimensional displacement (mm) measured by Lipiodol, BWS, and COB are 25 (SD, 15), 24 (SD, 14), and 21 (SD, 15), respectively. Lipiodol-PTV has the smallest mean volume, followed by BWS-PTV and COB-PTV. BWS-PTV was more geometrically similar to Lipiodol-PTV when compared with COB-PTV. Six of 20 COB-PTVs who had CTV located at either the dome or the base of the bladder were larger than the corresponding Lipiodol-PTV by more than 20%. CONCLUSION: Lipiodol is the optimal image registration surrogate for partial bladder radiation therapy. However, for patients who are contraindicated for Lipiodol injection, BWS is the preferred noninvasive surrogate because the derived PTV has a smaller geometric variation from the Lipiodol-PTV when compared with COB, especially when the CTV was located at the dome or the base of the bladder.

Assessing Patient Satisfaction in a Radiation Therapy Department Using a Survey Tool.

PURPOSE: The purpose of this study was to use a survey tool to measure the level of patient satisfaction with current health care delivery in the radiation therapy department, and provide insight into how the department can improve quality of care. METHODS: An anonymous patient satisfaction survey was distributed to radiation therapy patients near the end of their course of treatment. The survey was distributed over a 1-month timeframe to outpatients more than 18 years of age receiving a radical course of treatment. RESULTS: One hundred forty-five surveys were distributed, and 80 surveys were returned for a response rate of 55%. Patients were satisfied with their experience in terms of environmental features such as the waiting rooms and treatment rooms, accessibility and convenience of treatment including wait times, and the interpersonal relationships and clinical competence of the care providers. Results showed a variation in the use of support services depending on the treatment site. CONCLUSION: The survey tool was useful in showing that overall, patients were satisfied with the care in the radiation therapy department at the Princess Margaret Cancer Centre. The survey was also useful for comparing patients' opinions between treatment site groups. The survey responses provided few ideas for improvement strategies. For future directions, the survey may be distributed at regular intervals as a method of measuring levels of patient satisfaction on an ongoing basis.

Deriving patient-specific planning target volume for partial bladder image guided radiation therapy.

PURPOSE: Image guided radiation therapy (IGRT) using bony anatomy for bladder cancer requires the use of large population-based planning target volume (PTV) margins to compensate for geometric uncertainties. This may result in a large volume of normal tissue being irradiated unnecessarily. Identification of the clinical target volume (CTV) is also a challenge during target delineation and treatment position verification. This study describes the use of lipiodol (Guerbet, US) and cone beam computed tomography (CBCT) in deriving patient-specific PTV (PS-PTV) for partial bladder IGRT. METHODS AND MATERIALS: Twelve patients underwent lipiodol injection into the bladder wall prior to radiation treatment. A PS-PTV was generated by the following: (1) Delineating partial bladder CTV (CTVpb) on 15 CBCTs; (2) registering the CBCTs with the planning CT image using lipiodol; (3) combining the 15 CTVpb to create an occupancy volume (OV); and (4) expanding the OV by 3 mm. Its efficacy in reducing irradiated volume and in providing coverage was assessed by comparing it with a 20-mm population-based PTV (popPTV) and using phase 2 CBCTs. RESULTS: The median PS-PTV and popPTV (cm(3)) were 102 (range, 37-336) and 325 (range, 211-631), respectively. Median distance between the CTVpb and the PS-PTV edge (mm) were 6 superior, 6 right, 7 left, 7 anterior, 8 posterior, and 11 inferior. The absolute median reduction in the overlapping volume of rectum, small bowel, and large bowel were 0.3 cm(3), 5.3 cm(3), and 13.0 cm(3), respectively. Despite large reductions in volume and margin compared with popPTV, PS-PTV achieved 100% target coverage. CONCLUSIONS: Using lipiodol and CBCT to derive PS-PTV facilitated large reductions in the irradiated normal tissue volume without compromising target coverage.