Spots Global Cancer Trial Database for OCT-AF Imaging of Pre-cancers of Vulva and Cervix

The following info and data is provided "as is" to help patients around the globe.
We do not endorse or review these studies in any way.

Trial Identification

Brief Title: OCT-AF Imaging of Pre-cancers of Vulva and Cervix

Official Title: Co-registered Multimodal Optical Imaging for the Early Detection and Management of Cancers of the Vulva and Cervix

Study ID: NCT03285841

Conditions

Interventions

OCT-AFI

Study Description

Brief Summary: The multimodal imaging technology, OCT-AFI, will be used to image sites on the cervix, the endocervical canal and vulva. The imaging probe is small enough, it can be inserted into the endocervical canal for imaging. The probe can also be placed in a conformable holder that can be shaped to conform the the folds of the vulva for vulvar imaging. The resultant images will be compared to histology images. The objectives are to determine 1. feasibility of the technology in imaging vulva and its capability in detecting vulvar intraepithelial neoplasias 2. feasibility in imaging cervix from endocervical canal to transformation zone to ectocervix 3. if combined OCT with AFI increases the sensitivity of detecting high grade lesions in the cervix compared to just AFI alone (previous work was AFI alone).

Detailed Description: The multimodal optical imaging technology, OCT-AFI, has demonstrated the ability to image the small peripheral airways of the lung, allowing for high resolution of structural and functional details of airway tissue and the vasculature. Through the OCT (optical coherence tomography) component, the bronchial epithelium can be visualized and its thickness quantifiable. Micro invasion of the basement membrane can be seen in the acquired images. The AFI (autofluorescence imaging) component showed the vascular network, areas of pulmonary fibrosis and areas with loss of endogenous fluorescence beside pulmonary nodules. The investigators anticipate OCT-AFI to be able to see subsurface structures in the cervix and vulva as well. Through previous work, the investigators found AFI to be sensitive to detecting high grade cervical lesions but the technology was confounded by normal subsurface tissue structures. By combining OCT with AFI, the investigators anticipate a higher sensitivity to detecting high grade lesions on the cervix than with just AFI. The OCT-AFI imaging probe is also small enough to fit into the endocervical canal and will allow for imaging of neoplasias that originate in the canal. These abnormalities are on the rise. Vulvar neoplasias are also on the rise and visually difficult to identify and determine surgical margins. OCT-AFI may help clinicians locate and determine the extent of vulvar lesions. The objectives are to determine 1. feasibility of the technology in imaging vulva and its capability in detecting carcinoma and vulvar intraepithelial neoplasias 2. feasibility in imaging complete cervix from endocervical canal to transformation zone to ectocervix 3. if combined OCT with AFI increases the sensitivity of detecting high grade lesions in the cervix compared to just AFI alone (previous work was AFI alone). This study will image 10 subjects for endocervical canal and ectocervix sites. Another 10 subjects will be imaged for vulvar sites. Imaging will not affect where standard of care biopsies will be taken from. Imaging results will be correlated with histology. No statistical analysis will be performed. This feasibility study will look at the quality and utility of the acquired image sets. If possible, the investigators will quantify the images in terms of epithelium thickness, basement membrane location, presence of vasculature and sub-epithelial structures.