Remote diagnosis of cervical neoplasia: 2 types of telecolposcopy compared with cervicography

Discussion

Until recently, cervicography had been the only type of remote diagnostic system available for the evaluation of women with potential lower genital tract neoplasia. With the advent of telemedicine during the past decade, expert-level health care has now become more readily available to patients previously isolated from this important resource.

The future of telecolposcopy

Because of its nature, telecolposcopy may also be well suited to assist in the evaluation and management of women with lower genital tract neoplasia. Computer-based telecolposcopy has the potential to support clinical sites located wherever standard telephone service exists. Cellular telephone systems now broaden access to nearglobal availability. Soon, assuming sufficient funding is obtained, the provision of expertenhanced colposcopy may become a reality for all women. However, universal availability may be irrelevant if computer-based telecolposcopy performs at a substandard level.

Telecolposcopy vs cervicography

We have demonstrated that telecolposcopy was at least as effective as cervicography for detecting cervical cancer precursors. Although the difference was not statistically significant, both network and computer-based telecolposcopy systems detected a higher percentage of women with CIN 2 or 3 than cervicography.

Our results also included on-site colposcopy. As anticipated, on-site colposcopy had the greatest sensitivity for disease detection at either positive test thresholds (at least CIN 1 and CIN 2). Ability to manipulate the cervix, stereoscopic viewing, longitudinal observation after 5% acetic acid application, and better resolution of the cervical epithelium and vascularity all favor on-site colposcopic diagnoses. Of the 2 telecolposcopy systems, network telecolposcopy had a slightly, but not significantly, greater sensitivity for detecting cervical cancer precursors compared with computer-based telecolposcopy.

Expert colposcopists’ accuracy with interpretation of network (real-time) cervical images was similar to that for on-site colposcopy, as might be expected. Network telecolposcopy might be equated with remote video colposcopy. Previously we have shown that traditional optical colposcopy is equivalent to video colposcopy with respect to colposcopic/histologic agreement.⁹

Comparison of telecolposcopy systems

The computer-based telecolposcopy system used in our study was, in all fairness, more similar to cervicography. Each method involves evaluation of 2 static images. Computer-based telecolposcopy provides 2 digitized images, but of a low- and high-power magnification view of the cervix. In comparison, cervicography produces dual low-power magnification celluloid images (2 x 2 slides) of the cervix. The provision of a high-power cervical image may explain the better sensitivity of computer-based telecolposcopy. This one feature may be more valuable than the better image resolution obtained from cervicography. However, computer-based resolution appears to be sufficient to render diagnoses at a level equivalent to or better than cervicography.

These 2 “static” systems differ in other aspects as well. First, computer-based systems are nonproprietary. Several systems are commercially available and other colposcopists have devised their own unique systems using modifications of off-the-shelf technology. Although not available at the initiation of our trial, computerbased systems now have the capability of capturing short video streams. These video segments should help improve the diagnostic ability of consulting colposcopists as demonstrated by our study.

Second, computer-based telecolposcopy can provide instantaneous consultation as opposed to cervicography, which generally takes a minimum of several weeks to receive a report. Computerbased telecolposcopy also allows interaction between the on-site provider and remote expert.

Third, cervicography is a screening test adjunct. The computer-based system was used as a colposcopy diagnostic adjunct. However, colposcopy could easily be adapted to provide the function of cervicography. A simple handheld miniature change-coupled device camera and light source could potentially replace a more expensive colposcope and video camera, or video colposcope. With an average laptop computer (with appropriate software) and cellular phone, health care providers of potentially all women in the world could have access to expert-level cervical evaluation services.

Finally, computer-based telecolposcopy images and associated data automatically become part of a modern electronic medical record. This format is more conducive to the direction toward which contemporary medicine is rapidly shifting. Consequently, computer-based telecolposcopy may offer clinicians superior, modern diagnostic services not previously available to women.

Acknowledgments

Special thanks to Dr. Debra Crawley and Diane Watson, MSN, for rural site participation.