Pelvis Adaptive Radiation Therapy
概览
- 阶段
- 不适用
- 干预措施
- Adaptive radiotherapy +/- margin reduction
- 疾病 / 适应症
- Pelvis Neoplasms
- 发起方
- Royal North Shore Hospital
- 入组人数
- 280
- 试验地点
- 1
- 主要终点
- Dose coverage of Clinical Target Volume (CTV) (% of CTV receiving 95% of prescribed dose) will be performed between the two arms (Safety).
- 状态
- 招募中
- 最后更新
- 2个月前
概览
简要总结
Pelvis Adaptive radiotherapy (ART) is a two phase study looking at using adaptive radiotherapy to help reduce toxicity for cancer patients having radiotherapy in the pelvic region.
Adaptive radiotherapy is a new technology that provides the ability to account for daily changes in anatomy. Adaptive radiotherapy also provides a foundation for which radiotherapy margins might be safely reduced.
Phase 1 of this study is looking to see if a radiation therapist centred adaptive workflow can be implemented. If phase 1 of this study is safe and feasible, the study will proceed to phase 2. Phase 2 of the study looks at using adaptive technology to reduce radiation treatment margins. The primary aim of this study is to see whether margin reduced treatment using adaptive radiotherapy can reduce side effects for patients with cancer in the pelvic area.
详细描述
Despite major technological advancements in the delivery of pelvic radiation therapy including the use of dynamic therapy, image guidance, integrated boosting and stereotactic techniques, toxicity from pelvic radiation remains a significant issue impacting on patient's quality of life and preventing the delivery of higher (and more curative) doses of radiation. Although evidence showed that adaptive radiotherapy demonstrating promising reduction of acute toxicity, the uptake of adaptive radiotherapy remains poor as adaptive radiation therapy is very labour intensive, time consuming and usually requires a radiation oncologist (RO) and Medical Physicist in attendance to review/modify target contours. These practices of daily multi-disciplinary team (MDT) in person attendance is not sustainable in the long term. Since 2021, Royal North Shore Hospital has been treating patients with cancer in the pelvic with Adaptive Radiation Therapy (ART) and Radiation Therapists (RT) at the site have undergone a rigorous University based Advanced Practitioner training programme. This study aims to evaluate RT-led ART in a randomised trial to assess the safety and feasibility of ART in a two stage phase 3 randomised controlled trial. If this study can prove safety and feasibility in the first phase, it will proceed to the second phase of the study which will look at using adaptive radiotherapy to safely reduce CTV and PTV margins. The primary aim of the study will be to measure the difference in combined acute patient reported gastrointestinal (GI) and genitourinary (GU) toxicity between ART with margin reduction versus standard radiotherapy. Secondary aims will be to look at differences in clinician and patient reported acute and late GI and GU toxicity, disease free survival locoregional control, location of recurrence, the efficiency of ART including time taken per treatment, radiation dosimetric differences between the treatment arms and patients' perception of ART.
研究者
入排标准
入选标准
- •ECOG performance status 0-2
- •Patients receiving curative or adjuvant pelvic radiation including:
- •Prostate cancer where nodal treatment is required
- •Prostate cancer post prostatectomy
- •Bladder cancer
- •Rectal cancer
- •Anal cancer
- •Adjuvant radiotherapy for gynaecological cancers
- •Pelvic Lymph nodes only
- •Ability to understand and the willingness to sign an informed consent
排除标准
- •Hip prosthesis
- •Patient separation from approximate radiation centre to skin edge \> 24cm, measured on diagnostic scan
研究组 & 干预措施
Adaptive radiotherapy +/- margin reduction
Phase 1 and 2: Treating Radiation Therapists (RTs) on the treatment machine will review the treatment target and organs at risk contours that are automatically generated on the plan of the day. They will modify these safely, as required, and then also approve the computer generated re-plan of the day, within the bounds of departmental protocols and decision guides (RT led). Phase 2 only: Margin reduction facilitated by adaptive radiotherapy.
干预措施: Adaptive radiotherapy +/- margin reduction
Standard radiotherapy
Patients will receive standard image guided radiotherapy
干预措施: Image guided radiotherapy
结局指标
主要结局
Dose coverage of Clinical Target Volume (CTV) (% of CTV receiving 95% of prescribed dose) will be performed between the two arms (Safety).
时间窗: 12 months
The CTV dose coverage must be equal or better in 90% of fractions for 90% of patients in the adaptive arm will be compared with the virtual image guided radiotherapy (IGRT) fraction. Dose coverage will be calculated as the percent of CTV receiving at least 95% of the prescribed dose (TD). Percentage will be measured from 0-100%, a higher % is a better outcome.
The percentage of organ at risk (OAR) dose volume histogram (DVH) metrics satisfying departmental protocol constraints will be compared for each patient between the two arms (Safety).
时间窗: 12 months
The OAR DVH dose constraints must be equal or better in 90% of fractions for 90% of patients compared with the virtual image guided radiotherapy (IGRT) fraction (safety). Percentage will be measured from 0-100%, a higher % is a better outcome.
The percentage of successfully delivered fractions on the adaptive arm will be measured (feasibility).
时间窗: 12 months
At least 90% of patients must have 90% of planned adaptive treatments successfully delivered in phase 1 of the study. Percentage will be measured from 0-100%, a higher % is a better outcome.
Acute patient reported toxicity
时间窗: Within 90 days of patients completing treatment
The study will measure the difference in patient reported combined maximum genitourinGU and GI toxicity (Grade 2 or higher) as per PRO-CTCAE between the two treatment arms. PRO-CTCAE scale is generally measured from 0 to 5, higher scale being a worse outcome.
次要结局
- Acute clinician reported toxicity(Within 90 days of patients completing treatment)
- Late clinician reported toxicity(5 years)
- Late patient reported toxicity(5 years)
- Disease free survival (DFS) (incorporating biochemical DFS for prostate cancer patients(5 years)
- Time differences between treatment arms(5 years)
- Radiation dosimetric differences between treatment arms(5 years)
- Patient reported attitudes and perceptions(1 and 5 years)