Access to eBooks is limited to institutions that have purchased or currently subscribe to the SPIE eBooks program. eBooks are not available via an individual subscription. SPIE books (print and digital) may be purchased individually on SPIE.Org.

Contact your librarian to recommend SPIE eBooks for your organization.
Digital Endoscope Design
Abstract
Endoscopes have traditionally been considered either “rigid” or “flexible,” depending on the geometry required by the physician in accessing different areas of the body. Rigid endoscopes were the high-quality devices with stacks of lenses arranged to relay images from the tip of the scopes to eyepieces or large video cameras outside the body. These rigid endoscopes are surgical devices and are inserted through temporary access ports created by the physician. Flexible endoscopes were lower-quality devices, typically fiber-optic or with a miniature video camera at the tip directly coupled with an equally small camera lens. Due largely to cell phone camera improvements, the state-of-the-art for miniature video cameras has undertaken a renaissance in image quality. The endoscope industry has been a fortunate beneficiary of this progress. Improvements in miniature video cameras initially advanced flexible endoscopes, allowing them to be made with a smaller diameter and higher resolution. This was obviously a boon to patients, providing access to additional areas in the body with less trauma and with faster recovery times. Rigid endoscopes are also benefitting from image sensor improvements. With Olympus Corporation as the forerunner, we are now seeing “chip on-tip” endoscopes with quality that rivals their relay lens predecessors.1 We are even seeing the newest three-dimensional (3-D) endoscopes, previously using relay lenses, now using pairs of miniature cameras positioned side-by-side.2 This eBook discusses the optics of digital endoscopes, whether used for flexible or rigid applications. As the optical engineering community is challenged to provide ever-decreasing diameters and ever-increasing pixel counts, the optical engineer has to be aware of the clinical trade-offs that are inevitable in their new innovative designs. At every step in the development of digital endoscopes, the designer must consider the bottom line, which is what is of importance to the physician and, therefore, what is of importance to the patient.
Online access to SPIE eBooks is limited to subscribing institutions.
SPOTLIGHT
34 PAGES


SHARE
Back to Top