Lung Cancer Clinical Trial
Official title:
Feasibility Study of Navigated Endoscopy for the Placement of High Dose Rate Brachytherapy Applicators in the Esophagus and Lung
The scope of this clinical trial is to assess the clinical feasibility of this procedure, optimize the protocol and perform an initial comparison of the positional accuracy of navigated endoscopy and applicator insertion versus the standard of care 2D fluoroscopy protocol.
High dose rate brachytherapy is used in a limited number of esophagus and lung patients,
often in combination with external beam radiation therapy. The procedure uses an applicator
inserted into the lumen with the applicator connected to an automated "afterloader", a device
with a radioactive brachytherapy source attached to a thick guide wire that positions the
source within the applicator at set positions and times based on a treatment plan.
Identification of the ideal applicator position is determined by white light endoscopy. With
the endoscope in the lumen, fluoroscopic imaging can visualize the endoscope position.
Temporary radio-opaque skin markers are placed on the patient's anterior surface under
fluoroscopy imaging so that they align with the endoscope tip. The proximal and the distal
ends of the target volume are marked in this manner by the surgeon stopping the endoscope at
these positions. The endoscope is removed and the applicator inserted, with the positions of
the applicator and "dummy" seeds (i.e. non-radioactive seeds used only for positioning
purposes) aligned under fluoroscopy to match the skin markers. The procedure has 2
disadvantages: i. There is extra radiation dose to the clinical staff due to the fluoroscopy
used to identify the source position.
ii. Visualization is only in 2D, which is inaccurate since it does not account for
separations in the vertical direction and the angle of projection between the applicator and
the so patient surface. Furthermore, any movement of the fluoroscopy device during the
insertion leads to errors in visualization.
Medical applications of navigated endoscopy continue to grow, especially when used in
combination with volumetricimaging for image-guided procedures. This feasibility study is
aimed to use navigation endoscopy technology to overcome the disadvantages of the current
practice and improve the overall process.
In the proposed protocol, applicator insertion, tracking and recording of the endoscope and
applicator positions would enable placement of the applicator using 3D information, with
greater accuracy and without extra radiation dose to the clinical staff. The tracking
technology would be used to replace the use of radio-opaque skin markers; rather than placing
these markers on the patient's skin, the location of the target volume boundaries would be
noted by the tracker position within the endoscope. Applicator insertion would also be
tracked, with the applicator positioning based on the location of the applicator relative to
the previously recorded endoscope positions, including the locations of the distal and
proximal ends of the target volume.
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