Abstract
We develop a stereo-multispectral endoscopic prototype in which a filter-wheel is used for surgical guidance to remove cholesteatoma tissue in the middle ear. Cholesteatoma is a destructive proliferating tissue. The only treatment for this disease is surgery. Removal is a very demanding task, even for experienced surgeons. It is very difficult to distinguish between bone and cholesteatoma. In addition, it can even reoccur if not all tissue particles of the cholesteatoma are removed, which leads to undesirable follow-up operations. Therefore, we propose an image-based method that combines multispectral tissue classification and 3D reconstruction to identify all parts of the removed tissue and determine their metric dimensions intraoperatively. The designed multispectral filter-wheel 3D-endoscope prototype can switch between narrow-band spectral and broad-band white illumination, which is technically evaluated in terms of optical system properties. Further, it is tested and evaluated on three patients. The wavelengths 400 nm and 420 nm are identified as most suitable for the differentiation task. The stereoscopic image acquisition allows accurate 3D surface reconstruction of the enhanced image information. The first results are promising, as the cholesteatoma can be easily highlighted, correctly identified, and visualized as a true-to-scale 3D model showing the patient-specific anatomy.
Highlights
Cholesteatoma is a disease of the middle ear
The working distance of our stereo-multispectral system is adjusted on the normal broad-band illuminated RGB image to focus on anatomical structures with the highest interest; cf
Undesired small movements may be present in the image as the surgeon is holding the endoscopic camera head, which can cause irregular small camera shakes and lead to misaligned spectral images in the sequence
Summary
Cholesteatoma is a disease of the middle ear. It is not cancerous, but cholesteatoma can lead to life-threatening complications due to its destructive growth. The growth needs to be treated by surgery, which is currently the only possible treatment. Cholesteatoma requires a complete resection of affected tissue to avoid a recurrence. The proliferation of this epithelium in the middle ear cavity and further growth into the mastoid and lateral skull base can lead to life-threatening complications. The damage of adjacent structures, as the ossicular chain and the cochlea, can cause hearing loss and lead to deafness
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