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Erweitern Sie Ihre Möglichkeiten
mit der leistungsstarken
Centurion®-Plattform.

 

Die Centurion®-basierten Phakosysteme von Alcon stellen Ihnen
die führende Technologie in der Kataraktchirurgie zur Verfügung.
Erfahren Sie mehr über die Vorteile der Centurion®-Plattform.

Erweitern Sie Ihre Möglichkeiten mit der leistungsstarken Centurion®-Plattform.

 

Die Centurion®-basierten Phakosysteme von Alcon stellen Ihnen   die führende Technologie in der Kataraktchirurgie zur Verfügung. Erfahren Sie mehr über die Vorteile der Centurion®-Plattform.

 

Foundational, Incremental and Premium table

Centurion® Vision System mit Active Sentry® Handstück

 

Die führende Technologie in der Kataraktchirurgie bietet eine neue Basis für Sicherheit, Stabilität und Effizienz bei jeder Kataraktoperation.1,4,6,7,12,24-26

CENTURION Vision System with ACTIVE SENTRY Handpiece in front of a light-blue background

Centurion® Silver System

 

Das fortschrittlichste Schwerkraftsystem von Alcon mit verbesserter Stabilität und Zuverlässigkeit während der Phakoemulsifikation.5-7,17,27-30

CENTURION Silver System in front of a light-blue background

Legion® System

 

Ein Centurion®-basiertes, kompaktes Phakoemulsifikationssystem, das Ihnen Stabilität, Effizienz und eine einfache Anwendung bietet.6,7,17,27,29,30

LEGION System in front of a light-blue background

INTREPID® Phakotips und I/A-Handstücke

 

Optimieren Sie Ihre Phako-Operation durch die Kombination der Centurion®-basierten Gerätetechnologie und der Effizienz und Vielseitigkeit des INTREPID® Hybrid Tips, INTREPID® BALANCED Tips und INTREPID® Transformer I/A-Handstücks.13,14,31,32

INTREPID BALANCED Tip and I/A Handpiece in front of a grey background

Alcon Experience Academy

 

Interessante Schulungsinhalte und Trainingsangebote

Referenzen:

1. CENTURION® Vision System Operator’s Manual. (FEF-03592)
2. CENTURION® Silver System Operator’s Manual.
3. LEGION® System Operator’s Manual.
4. Alcon Data on File: Final engineering study report- Alcon phacoemulsification systems' occlusion break surge performance in support of comparison apps. May 3, 2017.
5. Sharif-Kashani et al. Comparison of occlusion break responses and vacuum rise times of phacoemulsification systems. BMC Ophthalmology 2014;14:96.
6. Aravena et al. Aqueous volume loss associated with occlusion break surge in phacoemulsifiers from 4 different manufacturers. J Cataract Refract Surg. 2018 Jul;44(7):884-888. 
7. Thorne A, Dyk DW, Fanney D, Miller KM. Phacoemulsifier occlusion break surge volume reduction. J Cataract Refract Surg. 2018;44(12):1491-1496.
8. Hiroyuki Matsushima, Presentation in the 119th annual meeting of the Japanese Ophthalmological Society, 17 Apr 2015.
9. Christakis PG, Braga-Mele RM (2012) Intraoperative performance and postoperative outcome comparison of longitudinal, torsional, and transversal phacoemulsification machines. J Cataract Refract Surg. 38 (2): 234-241.
10. Leon et al. An evaluation of intraoperative and postoperative outcomes of torsional mode versus longitudinal ultrasound mode phacoemulsification: a Meta-analysis. Int Journal of Ophthalmology. 2016;9(6):890-7.
11. Zacharías J. Comparative thermal characterization of phacoemulsification probes operated in elliptical, torsional and longitudinal ultrasound modalities. ASCRS-ASOA Symposium and Congress; April 25-29, 2014; Boston, MA.
12. Khokhar et al. Effect of balanced phacoemulsification tip on the outcomes of torsional phacoemulsification using an active-fluidics system. J Cataract Refract Surg. 2017;43(1):22-28.
13. Zacharías J. Thermal characterization of phacoemulsification probes operated in axial and torsional modes. J Cataract Refract Surg. 2015;41(1):208-216.
14. Noguchi et al, Difference in torsional phacoemulsification oscillation between a balanced tip and a mini tip using an ultra-high-speed video camera. J Cataract Refract Surg. 2016; 42:1511–1517.
15. Shumway C. Utility of a novel hybrid phacoemulsification tip to prevent posterior capsule rupture. Presentation at ASCRS 2019, 3 7 May, San Diego.
16. Centurion® FMS Pack Directions for Use.
17. Nicoli CM, Dimalanta R, Miller KM. Experimental anterior chamber maintenance in active versus passive phacoemulsification fluidics systems. J Cataract Refract Surg. 2016;42(1):157:162.
18. Boukhny M , Sorensen G, Gordon R. A novel phacoemulsification system utilizing feedback based IOP target control. ASCRS-ASOA Symposium and Congress; April 25 29, 2014; Boston, MA.
19. Lehmann R. Automated Patient Eye Level by Sensor based handpiece. Presentation at ASCRS 2019, 3 7 May, San Diego.   
20. Crandall AS. Role of Incision Leakage in Anterior Chamber Stability in Different Phacoemulsifier Systems. Presentation at ASCRS 2019, 3 7 May, San Diego.
21. VERION™ User Guide 2.6 / 3.1.
22. NGENUITY® User Guide 1.4.
23. Brooks et al. Consolidation of Imaging Modalities Utilizing Digitally Assisted Visualization Systems: The Development of a Surgical Information Handling Cockpit. Clinical Ophthalmology. 2020:14 557 569.
24. Malik PK, Dewan T, Patidar AK, Sain E. Effect of IOP based infusion system with and without balanced phacotip on cumulative dissipated energy and estimated fluid usage in comparison to gravity fed infusion in torsional phacoemulsification. Eye Vis (Lond). 2017;4:22.
25. Zacharias J. Laboratory assessment of thermal characteristics of three phacoemulsification tip designs operated using torsional ultrasound. Clin Ophthalmol. 2016:10;1095–1101.
26. Vasavada AR, et al. Comparison of torsional and microburst longitudinal phacoemulsification: A prospective, randomized, masked clinical trial. Ophthalmic Surg Lasers Imaging. 2010;41(1):109-114.
27. Dyk DW, Miller KM. Mechanical model of human eye compliance for volumetric occlusion break surge measurements. J Cataract Refract Surg.2018 Feb;44(2):231-236.
28. Alcon Data on File: Phacoemulsification Systems' Occlusion Break Surge Performance Report - Surge Tool App. May 20, 2020. 
29. Narendran N, et al. The Cataract National Dataset electronic multicentre audit of 55 567 operations: Risk stratification for posterior capsule rupture and vitreous loss. Eye. 2009;23:31–37.
30. Salowi MA, et al. The Malaysian Cataract Surgery Registry: Risk indicators for posterior capsular rupture. Br J Ophthalmol. 2017;101:1466–1470.
31. Alcon Data on File 2019.
32. Intrepid® Transformer I/A Handpiece Directions for use.

 

Für Indikationen, Kontraindikationen und Warnhinweise beachten Sie bitte die Gebrauchsanweisung des jeweiligen Produktes.