Trials / Completed

CompletedNCT02033343

Feasibility Study Into Adjustment of the Radiation Beam to Account for Prostate Motion During Radiotherapy.

Phase I Feasibility Study of Prostate Cancer Radiotherapy Using Realtime Dynamic Multileaf Collimator Adaptation and Radiofrequency Tracking (Calypso)

Status: Completed
Phase: N/A
Study type: Interventional
Enrollment: 30 (actual)

Sponsor: Royal North Shore Hospital · Academic / Other
Sex: Male
Age: 35 Years – 85 Years
Healthy volunteers: Not accepted

Summary

The purpose of this study is to monitor movement of the prostate during radiotherapy and adjust the radiation beam to account for any motion seen. This will increase the radiation dose to the prostate and decrease the dose to the rectum and bladder.

Detailed description

Prostate cancer now accounts for one third of all new cancer diagnoses in men and approximately 30% of men will have external beam radiotherapy as their primary local therapy. Prostate motion during radiotherapy can be divided into interfraction and intrafraction motion. Interfraction motion has been well established and has been largely overcome by daily online image verification with either ultrasound, online CT or implanted fiducial markers, however motion during the radiation beam on time (intrafraction motion) is not corrected and can be the cause of significant errors in radiation dose delivery. The most common technology utilised in 2012 to allow prostate gating is the Calypso system. The Calypso system consists of implantable electromagnetic transponders, an array that contains source and receiver coils, computers for data analysis and display purposes, and an infrared camera system to localise the electromagnetic array in the treatment room. The array is placed over the patient, and the source coil in the array emit an electromagnetic signal that excites the transponders. Once the transponders are excited, the source coils are turned off and the receiver coils detect the signal emitted from the excited transponders. This process is repeated at a rate of 10 Hz, providing a realtime radiofrequency localisation of the prostate triangulating three implanted beacons. The current study will investigate using the continuous prostate positioning data from Calypso to integrate with the treatment beam delivery and allow real-time adaptation based on the prostate motion. This is called Realtime Dynamic Multileaf Collimator (DMLC) tracking. In this technique the multileaf collimator motion is altered in the gantry head in real time during beam delivery to account for the measured prostate motion. The proposed study is examining the dosimetric impact of accounting for intrafraction motion with Calypso and DMLC tracking. We hypothesise the improvements in delivered prostate dose with DMLC tracking will be even greater than gating. This improved treatment delivery will ensure that the prostate cancer receives the appropriate dose and that normal tissues are spared from extra radiation.

Conditions

Prostate Cancer

Interventions

Type	Name	Description
RADIATION	Prostate cancer radiotherapy using real-time tracking	Radiotherapy delivered using Calypso radiofrequency emitting beacon guided real-time prostate localisation and beam adjustment using Dynamic Multi-leaf Collimator tracking software.

Timeline

Start date: 2013-10-01
Primary completion: 2018-02-01
Completion: 2018-02-01
First posted: 2014-01-10
Last updated: 2021-06-14

Locations

1 site across 1 country: Australia

Source: ClinicalTrials.gov record NCT02033343. Inclusion in this directory is not an endorsement.