The Role and Future of Endoscopic Imaging Systems

M. O. Schurr; W. Kunert; A. Arezzo; G. Buess

doi:10.1055/s-1999-52

Endoscopy, Inhaltsverzeichnis

Endoscopy 1999; 31(7): 557-562
DOI: 10.1055/s-1999-52

Review in Minimally Invasive Surgery

Georg Thieme Verlag Stuttgart ·New York

The Role and Future of Endoscopic Imaging Systems

M. O. Schurr, W. Kunert, A. Arezzo, G. Buess

Section for Minimally Invasive Surgery, Eberhard-Karls-University, Tübingen, Germany

Abstract

Visual perception is the main sensory input from the environment in most situations of daily life. It is the only sensory input from the operating field in endoscopic surgery, and thus the qualities of the optical imaging system have a considerable impact on the course of the surgical intervention. Significant improvements have been made recently in various fields of science and engineering, influencing endoscopic imaging systems in experimental and clinical use. Among these are technologies that improve the endoscope itself in terms of providing new visual features, such as fogging prevention and plastic images, using new illumination techniques. Other developments concern the improvement of image resolution and color fidelity through new charge-coupled device (CCD) sensors or alternative techniques for image creation. Finally, the combination of endoscopic technologies with robotics provides for intuitive and more efficient direction of the line of sight.

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Referenzen

References

1 Silbernagel S, Despopoulos A. Taschenatlas der Physiologie. Stuttgart; Thieme 1991: 272-324
2 Handwerker HO . Allgemeine Sinnesphysiologie. In: Schmidt RF, Thews G (eds). Physiologie des Menschen. Heidelberg; Springer Verlag 1995: 195-215
3 Schurr M O, Buess G, Kunert W, et al. Human sense of vision: a guide to future endoscopic imaging systems. Minimal Invasive Ther Allied Technol. 1996; 5 410-418
4 Kunert W, Flemming E, Schurr M O, Buess G. Optik mit natürlich wirkender Zusatzbeleuchtung. Langenbecks Arch Chir. 1997; 114 1232-1234
5 Schurr M O, Bablich H, Melzer A, et al. A new optic cleaning and visualization stablizing system for endoscopic surgery. Minimal Invasive Ther. 1994; 3 131-134
6 Lange T, Buess G. Video technology for minimally invasive surgery. In: Cuschieri A, Buess G, Perissat J (eds). Operative manual of endoscopic surgery 2. Heidelberg; Springer 1994: 71-90
7 Schurr M O, Buess G, Rininsland H H, et al. ARTEMIS-Manipulatorsystem für die endoskopische Chirurgie. Endoskopie Heute. 1996; 9 245-251
8 Buess G, Bergen P, Kunert W, Schurr M O. 2D and 3D Sichtsysteme in der minimal invasiven Chirurgie. Der Chirurg. 1996; 67 1041-1046
9 Wagner B. Principles and design of microsystems. Endosc Surg. 1995; 3 204-209

M.D. M. O. Schurr

Universitätsklinikum Tübingen

Sektion für Minimal Invasive Chirurgie

Eberhard-Karls-University

Waldhörnlestrasse 22

72072 Tübingen

Germany

Telefon: + 49-7071-295569

eMail: marc.schurr@uni-tuebingen.de