Ramiah Duvern, Ngcezu Sonwabile, Ayeni Oluwatosin, Achilonu Okechinyere, Adeleke Mariam, Nair Theo, Otten Joseph, Mmereki Daniel
Division of Radiation Oncology, School of Clinical Medicine, Faculty of Health Sciences, University of the Witwatersrand, Johannesburg, South Africa.
School of Clinical Medicine, Medical Physics, Faculty of Health Sciences, University of the Witwatersrand, Johannesburg, South Africa.
JMIR Res Protoc. 2025 Jul 28;14:e60131. doi: 10.2196/60131.
Access to timely radiotherapy in resource-constrained environments, particularly low- and middle-income countries (LMIC), is hampered by infrastructure constraints, workforce shortages, and a rising cancer burden. Remote radiotherapy planning (treatment planning as a service [TPaaS]) has the potential to enhance workflow efficiency, reduce wait times, and expand access to treatment. However, its integration and feasibility in LMIC public health systems remain underexplored.
This study evaluates the feasibility and initial effectiveness of remote radiotherapy planning using the Varian Eclipse system integrated with Elekta Versa HD linear accelerators (LINACs) at the busiest public hospital in South Africa. The primary goal is to determine whether remote planning can maintain plan quality while enhancing efficiency and minimizing treatment delays.
A prospective, single-site, pilot study is being conducted at Charlotte Maxeke Johannesburg Academic Hospital (CMJAH) in 2 phases. Phase 1 (feasibility) encompasses system commissioning, including beam modeling, computed tomography (CT)-to-electron density calibration, multileaf collimator (MLC) optimization, and dose calculations using the anisotropic analytical algorithm. System performance is validated through gamma index analysis (≥95% pass at 3%/3 mm). Interoperability and workflow readiness are assessed using simulated clinical scenarios and time integration steps. Phase 2 (effectiveness/impact) evaluates operational outcomes in 100 screened adult patients (≥18 years) with cervical, breast, prostate, head and neck, or rectal cancers requiring curative radiotherapy. Patients are grouped by cancer type (25 per group). Time to treatment, plan quality, and system efficiency will be compared with historical in-person planning data. Key workflow metrics include dates of first consultation, CT simulation, planning initiation, plan approval, quality assurance, and treatment start and completion.
The study commenced enrollment in November 2023, with completion anticipated by mid-2025. As of July 2024, approximately 44 patients were screened and are anticipated to complete the remote planning. Initial findings show successful MLC transmission and dosimetric leaf gap optimization through iterative testing. Gamma pass rates exceeded 90% on both clinical and test servers, demonstrating initial accuracy. Results, including planning timelines, quality assurance outcomes, and system performance, will be available following comprehensive analysis in the third quarter of 2025. Preliminary findings indicate effective integration of remote planning in a resource-constrained public health sector setting.
This study shows that remote radiotherapy planning is feasible and might improve cancer treatment in LMIC. The integration of commercially available systems, such as TPaaS, was successfully achieved without compromising dosimetric quality and ensured workflow continuity. Remote planning could serve as an effective tool to reduce treatment delays and enhance resource utilization in oncology units facing high demand. These findings offer valuable insights into technical integration, quality planning, and workflow outcomes, which can inform the future implementation of effective strategies in resource-constrained settings.
INTERNATIONAL REGISTERED REPORT IDENTIFIER (IRRID): DERR1-10.2196/60131.
在资源有限的环境中,尤其是在低收入和中等收入国家(LMIC),基础设施限制、劳动力短缺以及癌症负担不断上升,阻碍了及时获得放射治疗。远程放射治疗计划(作为服务的治疗计划[TPaaS])有潜力提高工作流程效率、减少等待时间并扩大治疗可及性。然而,其在LMIC公共卫生系统中的整合及可行性仍未得到充分探索。
本研究评估在南非最繁忙的公立医院使用与医科达Versa HD直线加速器(LINAC)集成的瓦里安Eclipse系统进行远程放射治疗计划的可行性和初步效果。主要目标是确定远程计划能否在提高效率并尽量减少治疗延迟的同时保持计划质量。
在约翰内斯堡夏洛特·马克塞克学术医院(CMJAH)分两个阶段进行一项前瞻性、单中心试点研究。第1阶段(可行性)包括系统调试,包括射束建模、计算机断层扫描(CT)到电子密度校准、多叶准直器(MLC)优化以及使用各向异性分析算法进行剂量计算。通过伽马指数分析(在3%/3毫米时通过率≥95%)验证系统性能。使用模拟临床场景和时间整合步骤评估互操作性和工作流程就绪情况。第2阶段(有效性/影响)评估100名经筛选的成年患者(≥18岁)的手术结果,这些患者患有需要根治性放射治疗 的宫颈癌、乳腺癌、前列腺癌、头颈癌或直肠癌。患者按癌症类型分组(每组25人)。将治疗时间、计划质量和系统效率与历史现场计划数据进行比较。关键工作流程指标包括首次咨询、CT模拟、计划启动、计划批准、质量保证以及治疗开始和完成的日期。
该研究于2023年11月开始招募患者,预计2025年年中完成。截至2024年7月,大约44名患者已接受筛选,预计将完成远程计划。初步结果显示通过迭代测试成功实现了MLC传输和剂量学叶片间隙优化。临床和测试服务器上的伽马通过率均超过90%,证明了初步准确性。在2025年第三季度进行全面分析后将得出包括计划时间表、质量保证结果和系统性能在内的结果。初步结果表明远程计划在资源有限的公共卫生部门环境中得到了有效整合。
本研究表明远程放射治疗计划是可行的,可能会改善LMIC的癌症治疗。成功实现了商业可用系统(如TPaaS)的整合,而不影响剂量学质量,并确保了工作流程的连续性。远程计划可以作为一种有效工具,减少面临高需求的肿瘤科室的治疗延迟并提高资源利用率。这些发现为技术整合、质量计划和工作流程结果提供了宝贵见解,可为未来在资源有限环境中实施有效策略提供参考。
国际注册报告识别号(IRRID):DERR1-10.2196/60131。
