Abnormalities, Radiation-Induced Clinical Trial
Official title:
Optical Coherence Tomography for Monitoring Late Oral Radiation Toxicity After Radiotherapy of Head and Neck Cancer Patients
Radiation therapy of the head and neck cancer patients causes late oral radiation complications such as xerostomia (dry mouth) or mucosal atrophy. Currently, methods such as hyperbaric oxygen are used to treat these complications; however, there are no quantifiable means of assessing the outcome of these methods. At present, subjective methods such as superficial examination of the oral cavity are used, yet complications are known to mostly start in the subsurface layers. In this feasibility study, we apply an imaging technique called optical coherence tomography (OCT) as a means of providing objective and quantifiable images of the subsurface micro-structural and micro-vascular changes of oral tissue. Depth-resolved, micrometer-resolution OCT images provide information on changes associated with late radiation complications.
Patient imaging At the imaging session, the patient will be asked to sit on the chair and put her/his chin on the chin-rest and the height of the chair will be adjusted accordingly. Before turning on the light source, the patient will be asked to wear the safety goggles and open her/his mouth while the probe is slowly moved inside the oral cavity. At this point, by looking at the superficial oral tissue, we will find regions in the oral cavity with superficial changes. When such regions are found, OCT images of these regions will be taken. Imaging of each location is expected to take about 3 to 4 minutes (including the time required to find the region of interest, acquisition of structural, Doppler and speckle variance images, and the time between each of these processes). After this, the patient can close her/his mouth and rest for couple of minutes. The same procedure will be performed on another site of complication. The 3-4 minute imaging procedure is repeated 3 to 5 times (depending on the patients' ability to keep the mouth open), after which the patient is dismissed and the sterile probe cover will be disposed. All the acquired data will be stored in a computer which is kept in a locked office. The data will be processed within the week after the imaging session so that structural, Doppler and speckle variance images of the imaged sites of complication can be compared. During imaging, structural OCT real-time images are shown on the monitor to facilitate the task of finding the region of interest and keeping track of the patient's movements and move the probe accordingly. During the Doppler or speckle variance imaging (approximately 7 seconds each within the 3-4 minutes interval mentioned before), the patient is asked to keep as still as possible, in order to avoid any motion artifact in the OCT images. Note that time frame for this study is 1 day, since subjects are only imaged once with no follow-up assessments. Imaging healthy volunteers The imaging session of the volunteers takes between 30 to 60 minutes. The imaging procedure of these healthy volunteers is very similar to that explained for the patients; however, all the acquired OCT images of this group would be of healthy oral tissue. Note that time frame for this study is 1 day, since the volunteers are only imaged once with no follow-up assessments. **Important note: The aim of this study is to compare the images from patients with those of healthy volunteers and show that there are specific changes in the structural and vascular features of the patients (due to radiation toxicity) when compared to the volunteers. So, the comparison is done between the two cohorts of the study. Data analysis For the healthy volunteers, the gathered OCT data will be processed to form structural, Doppler and speckle variance images of healthy oral tissue to serve as a reference. The same procedure will be performed on late oral radiation toxicity patients to reconstruct structural, Doppler and speckle variance images of the site of oral complications. Then, the images of healthy volunteers and patients will be compared in terms of the layer thickness, the back-reflection properties of each layer, and the size and profile of blood flow of the microvasculature. In order to compare these two sets of images quantitatively, certain metrics will be defined based on the images of the healthy volunteers. All these quantitative comparisons of healthy oral tissue and tissue with radiation complication will be used to form an OCT atlas of oral radiation toxicity. Moreover, white-light images of the regions of OCT study will be taken in order to serve as a reference for the superficial complications caused by radiation. ;
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