Designed to meet the needs of multiple specialties like general surgery, urology, gynecology, ENT and more, VISERA ELITE III offers 3D and 4K imaging, impressive fluorescence-guided surgery, wellproven Narrow Band Imaging (NBI), the new Yellow Enhancement (YE) mode and more to come in the future, all in one system.
Benefit from compatibility with rigid and flexible scopes, camera heads and ENDOEYE series of the latest generation1 to efficiently reduce investment costs.
It starts with one platform that is tailored to your specific requirements. Always have access to the latest technology combined with system’s backward compatibility with a large legacy devices portfolio.
Simply upgrade functions like 3D and IR to grow the system with your individual hospital needs via software upgrade to cover patients needs across specialties with only one system.
No need to switch to another platform to access new technologies soon via software activation.
Only pay for what you need. Select upgrades to be activated via software licensing when needed without interruption of workflows and by minimizing OR downtime for the upgrade process.
Learn more
True 4K Image Quality
The exclusive 4K image sensor from Sony produces true 4K image quality, enabling the camera head to deliver fine detail.
Continuous Auto Focus (CAF)
The CAF function maintains constant focus and eliminates the need for focus adjustments.
Extended Depth of Field (EDOF)
The EDOF function allows precise endoscopic observations through continuous broad focus and seamless magnification.
Dr. Sara Pizzacalla, MD
Specialist in Gynecology and Obstetrics
Rome, Italy
The systems are designed for better orientation in surgical plains and decision support for experienced professionals combining capabilities to reduce OR time and decrease incident rates. Young professionals could increase their own confidence level to be able to make the right decision and face a shorter learning curve.
Adjust the visibility of the fluorescence by controlling IR gain to meet the best visualization regardless of scope, tissue or environment changes. The IR gain can be adjusted in three levels: low, medium and high, and the higher the level, the stronger the fluorescence is expressed.
Providing real-time 4K fluorescence imaging during white-light observation.
Providing the classically known magenta IR image with fluorescence.
Allowing blood perfusion to be generally checked with independent infrared light.
Introducing Yellow Enhancement (YE), a powerful new feature in VISERA ELITE III. Designed to support structure identification, YE emphasizes yellow, enhancing contrast and making orange-yellow tissue appear clearly yellow. Perfect for hospitals with multiple specialties, VISERA ELITE III offers immediate decision support without the need for dye administration. Experience the versatility and convenience of YE with Camera head and ENDOEYE, no additional preparation steps required.
Read more (PDF, 3.6 MB)Hands-on courses, e-learnings, workshops, peer-to-peer trainings, accredited continuing trainings, and custom on-demand learning for physicians who want to develop their skills and knowledge.
Browse through our lists and find the education that fits best to your needs.
Find nowExplore VISERA ELITE III live
Are you interested in experiencing VISERA ELITE III?
Request more information or a live demonstration and an Olympus consultant will contact you.
References
1Please contact OLYMPUS for compatibility details.
2 Fanfani F, Rossitto C, Restaino S, Ercoli A, Chiantera V, Monterossi G, Barbati G, Scambia G. How Technology Can Impact Surgeon Performance: A Randomized Trial Comparing 3-Dimensional versus 2-Dimensional Laparoscopy in Gynecology Oncology. J Minim Invasive Gynecol. 2016 Jul-Aug;23(5):810-7. doi: 10.1016/j.jmig.2016.03.020. Epub 2016 Apr 1. PMID: 27046747.
3 Velayutham V, Fuks D, Nomi T, Kawaguchi Y, Gayet B. 3D visualization reduces operating time when compared to high-definition 2D in laparoscopic liver resection: a case-matched study. Surg Endosc. 2016 Jan;30(1):147-53. doi: 10.1007/s00464-015-4174-1. Epub 2015 Mar 25. PMID: 25805241.
4 Kanaji S, Suzuki S, Harada H, Nishi M, Yamamoto M, Matsuda T, Oshikiri T, Nakamura T, Fujino Y, Tominaga M, Kakeji Y.Comparison of two- and three-dimensional display for performance of laparoscopic total gastrectomy for gastric cancer. Langenbecks Arch Surg. 2017 May;402(3):493-500. doi: 10.1007/s00423-017-1574-9. Epub 2017 Mar 17. PMID: 28314905.
5 SU16 3D VS. 2D-Imaging in Laparoscopic Procedures: Opportunity Costs Associated with the Reduction of Time in the Operating Room (OR) – L. Bruno, A. Zervakis, P. Reinders – DOI: https://doi.org/10.1016/j. jval.2020.08.2002
6 Padin EM, Santos RS, Fernández SG, Jimenez AB, Fernández SE, Dacosta EC, Duran AR, Artime Rial M, Dominguez SanchezI. Impact of Three-Dimensional Laparoscopy in a Bariatric Surgery Program: Influence in the Learning Curve. Obes Surg. 2017 Oct;27(10):2552-2556. doi: 10.1007/s11695-017-2687-5. PMID: 28456885.
7 Blanco-Colino, R. & Espin-Basany, E. (2018). Intraoperative use of ICG fluorescence imaging to reduce the risk of anastomotic leakage in colorectal surgery: a systematic review and meta-analysis. Tech Coloproctol, 22(1), 15-23. doi:10.1007/s10151-017-1731-8
8 Arezzo, A., Bonino, M. A., Ris, F., Boni, L., Cassinotti, E., Foo, D. C. C., …Morino, M. (2020). Intraoperative use of fluorescence with indocyanine green reduces anastomotic leak rates in rectal cancer surgery: an individual participant data analysis. Surg Endosc. 34(10), 4281-4290. doi:10.1007/s00464-020-07735-w
9 Bostrom, P., Haapamaki, M. M., Rutegard, J., Matthiessen, P. & Rutegard, M. (2019). Population-based cohort study of the impact on postoperative mortality of anastomotic leakage after anterior resection for rectal cancer. BJS Open, 3(1), 106-111. doi:10.1002/ bjs5.50106
10 Frasson, M., Flor-Lorente, B., Rodriguez, J. L., Granero-Castro, P., Hervas, D., Alvarez Rico, M. A., …Garcia-Granero, E. (2015). Risk Factors for Anastomotic Leak After Colon Resection for Cancer: Multivariate Analysis and Nomogram From a Multicentric, Prospective, National Study With 3193 Patients. Ann Surg, 262(2), 321-330. doi:10.1097/sla.0000000000000973
11 Roy, M., Dip, F., Nguyen, D., Simpfendorfer, C. H., Menzo, E. L., Szomstein, S. & Rosenthal, R. J. (2017). Fluorescent incisionless cholangiography as a teaching tool for Residents
12 Dip, F., LoMenzo, E., Sarotto, L., Phillips, E., Todeschini, H., Nahmod, M., …Rosenthal, R. J. (2019). Randomized Trial of Nearinfrared Incisionless Fluorescent Cholangiography. Ann Surg, 270(6), 992-999. doi:10.1097/SLA.0000000000003178
13 Broderick, R.C., Lee, A.M., Cheverie, J.N. et al. Fluorescent cholangiography significantly improves patient outcomes for laparoscopic cholecystectomy. Surg Endosc (2020).
14 Van Dam DA, van Rijswijk A-S, Ankersmit M van den Heuvel B, Tuynman JB, Meijerink WJHJ. Fluorescent Imaging With Indocyanine Green During Laparoscopic Cholecystectomy in Patients at Increased Risk of Bile Duct Injury. Surgical Innovation.2017;24(3):245-252. doi:10.1177/1553350617690309
15 Based on a wighted avarage, studies have shown that using NBI allows physicians to visualize lesion boundaries. NBI is not intended to replace histopathological sampling as a means of diagnosis.
16 Devices will be available upon declaration of conformity, product registration or market clearance in each country’s jurisdiction. Some devices might not be available in some areas. Pending 510(k), not available for sale in the United States.
17 Manufacturers: Olympus Surgical Technologies Europe, Olympus Winter & Ibe GmbH, Kuehnstraße 61, 22045 Hamburg, Germany, www.olympus.eu | Olympus Medical Systems Corp, 2951 Ishikawa-cho, Hachioji-shi, Tokyo 192-8507, Japan, www.olympusglobal.com | Olympus Surgical Technologies America, 800 West Park Drive, Westborough, MA 01581, U.S.A., www.medical.olympusamerica.com | Sony Corporation, 1-7-1 Konan Minato-ku, Tokyo, 108-0075 Japan
