NGENUITY® 3D
Visualisation System
Transform Your Experience.
Go beyond your analog microscope with NGENUITY® 3D Visualisation System1
NGENUITY® 3D Visualization System
Transform Your Experience.
Go beyond your analog microscope with NGENUITY® 3D Visualization System1
NGENUITY® Provides Solutions for the Limitations of Analog Microscopes
Lack of precision with limited visualisation1-6
Reduced efficiency due to viewing on multiple screens7,8*
Patient risk through light exposure and use of dye8-10
Limited teaching capabilities11,12
* Study performed with the NGENUITY® viewing system and ancillary devices such as iOCT (Zeiss, Haag Streit, Leica) or ophthalmic endoscope. All ancillary information was viewed simultaneously with the primary 3D surgical field using the NGENUITY® unit.
Precision
High Quality Precision From Start to Finish1,2*
The high level of precision with NGENUITY® removes the need to refocus without losing any detail.
- 5X extended depth of focus
- 48% increased magnification
- 42% increased depth resolution
- Customised digital image
See a deeper range of details in high definition and sharp focus.
*compared to Analog Microscopes.
Customised Digital Image
Personalised colour filters:
Easy to use thumbnails to uncover hidden details
Light temperature filters:
Instant colour change to view
another aspect of your surgery
Efficiency
DATAFUSION™ Enables Enhanced Surgical Efficiency and Control
NGENUITY® achieves more customised control with DATAFUSION™ integration and enhances efficiency with one single view in surgery.1,7,8
CENTURION®
DATAFUSION™*
Delivers a real-time view of surgical parameters during critical surgical steps.*
ORA SYSTEM® VerifEye+™ DATAFUSION™†
Seamless access to diagnostic data displayed directly on the NGENUITY® screen.
CONSTELLATION®
DATAFUSION™*
View all of the relevant surgical information in one place.
*CENTURION® Vision System operator’s manual
†ORA SYSTEM® with VerifEye+™ Technology operator’s manual
Reduced Patient Risk Factor
NGENUITY® Reduces Patient Risk Factor From High Light Exposure13,14*
NGENUITY®’s digital image processing allows you to operate under low lighting conditions.13† Using only the amount of light needed results in reduced patient risk factor.
* Retinal phototoxicity
† Using too low light can impact the image quality
Collective Learning
Enhance Your Teaching Capabilities with Collective Learning
Accelerate knowledge transfer though a shared 3D view with NGENUITY®.15 Experience teaching, analysing and sharing of spectacular surgical cases to give your colleagues a true
demonstration of the surgical experience.
Clinical Support
Instructions for Use (IFU)
For a full list of indications, contraindications and warnings, please visit ifu.alcon.com and refer to the relevant product’s instructions for use.
Alcon Experience Academy
For relevant training content from industry thought leaders
References:
1. NGENUITY® 3D Visualization System Operator's Manual.
2. Alcon data on file, 2019.
3. González-Saldivar G & Chow DR. Optimizing visual performance with digitally assisted vitreoretinal surgery. Ophthalmic Surg Lasers Imaging Retina. 2020;51(4):S15-S21.
4. Lin KL & Fine HF. “Advances in Visualization During Vitrectomy.” Retinal Physician. Nov 1, 2006. Available at: https://www.retinalphysician.com/issues/2006/nov-dec/advances-in-visualization-during-vitrectomy-surger. Accessed on 20 Oct 2020.
5. Babu N, et al. Comparison of surgical performance of internal limiting membrane peeling using a 3-D visualization system with conventional microscope. Ophthalmic Surg Lasers Imaging Retina. 2018;49:941-945.
6. Fujiwara N et al. Incidence and risk factors of iatrogenic retinal breaks: 20-Gauge versus 25-Gauge vitrectomy for idiopathic macular hole repair. Journal of Ophthalmology. 2020;10:1-4.
7. Brooks C.C., et al. Consolidation of imaging modalities utilizing digitally assisted visualization systems: The development of a surgical information handling cockpit. Clin Ophthalmol. 2020:14;557–569.
8. Agranat JS & Miller JB. 3D surgical viewing systems in vitreoretinal surgery. Int Ophthalmol Clin. 2020;60(1):17-23.
9. Adam MK, et al. Minimal endoillumination levels and display luminous emittance during three-dimensional heads-up vitreoretinal surgery. Retina. 2017;37:1746–1749.
10. Charles S. Illumination and phototoxicity issues in vitreoretinal surgery. Retina. 2018;28(1):1-4.
11. Chhaya N., et al. Comparison of 2D and 3D video displays for teaching vitreoretinal surgery. Retina. 2018;38:1556–1561.
12. Romano MR, et al. Evaluation of 3D heads-up vitrectomy: outcomes of psychometric skills testing and surgeon satisfaction. Eye (Lond). 2018;32(6):1093-1098.
13. Rosenberg ED, et al. Efficacy of 3D digital visualization in minimizing coaxial illumination and phototoxic potential in cataract surgery: Pilot study. J Cataract Refract Surg. 2021;47(3):291-296.
14. Nariai Y, et al. Comparison of microscopic illumination between a three-dimensional heads-up system and eyepiece in cataract surgery. Eur J Ophthalmol. 2021;31(4):1817-1821.
15. Shoshany TN, et al. The user experience on a 3-dimensional heads-up display for vitreoretinal surgery across all members of the health care team: A survey of medical students, residents, fellows, attending surgeons, nurses, and anesthesiologists. Journal of VitreoRetinal Diseases. 2020;4(6):459-466.
Please refer to relevant product direction for use for list of indications, contraindications and warnings.