XR Content for IPCL
2026-07-13 02:10:56

Innovative XR Content Enhances Understanding of Implantable Contact Lenses

Exploring the Future of Medical Training with XR Technology



In an innovative step towards advancing medical education, Holoeyes Inc., based in Minato, Tokyo, has unveiled a groundbreaking XR content platform aimed at enhancing the understanding of Implantable Phakic Contact Lenses (IPCL) among healthcare professionals. Collaborating with Colbo Co., and Atworking Co., this initiative serves as part of Holoeyes' corporate XR solution service, known as Holoeyes Biz.

This immersive XR content leverages 3D models developed by Colbo to recreate the insertion process of the IPCL V2.0 lens as well as the operation of the injector device used. The primary objective is to facilitate a deeper understanding of this complex medical device through an engaging, operational experience in a virtual environment.

Understanding the IPCL Technology



The IPCL, short for Implantable Phakic Contact Lens, is frequently referred to in the medical field as a phakic IOL, emphasizing its pivotal role in refractive surgical procedures. Utilizing a specialized injector, the Accuject Dual AT, this lens is positioned in the posterior chamber of the eye, specifically between the iris and natural lens, to correct light refraction effectively.

Comprehensive XR Experience



The newly developed XR content does not simply present the IPCL and injector as static 3D models; it aims to completely encapsulate the surgical experience to improve comprehensibility. By incorporating detailed aspects of surgery, including the lens’s incision site, size, shape, injector angle, depth, and corneal curvature, the collaboration with Atworking has created a highly realistic portrayal of the surgical environment.

To alleviate the risk of contact with the crystalline lens, a unique linear guide was developed for the injector, streamlining the insertion experience and ensuring precise distance measurement between the lens and the crystalline structure of the eye. This meticulous attention to detail provides medical professionals with a closer approximation to real surgical conditions.

The XR setup promotes an interactive environment whereby users can zoom in on and navigate around the eye and lens models, facilitating intuitive learning and a hands-on approach to understanding the IPCL and the surgical process.

Real-World Application and Feedback



A prominent demonstration of this XR content took place at the 41st JSCRS Academic Conference held from June 26 to 28, 2026, at the Tokyo International Forum. The exhibition booth, co-created by Atworking and Colbo, featured large screens displaying the 3D models that captured the attention of many physicians, who eagerly engaged with the XR experience. Attendees expressed their amazement at the ability to manipulate models and observe intricate details and internal structures up close.

Physicians who interacted with the XR content provided enthusiastic feedback, highlighting its usefulness for patient explanations and potential applicability in training. They noted how the visual aids effectively depicted the lens placement and injector insertion angles, enhancing comprehension significantly. The Holoeyes content was praised for its operational simplicity and effectiveness as a promotional tool.

Conclusion and Future Prospects



As Atworking advances the reach of the IPCL, the development of this XR content underscores their commitment to ensuring safe and effective surgical practices. The unique features of Holoeyes’ XR space allow for unprecedented approaches to understanding the devices from various angles, thereby elevating physician skills and knowledge about the IPCL.

The industry is poised for a technological revolution in medical training and education through such immersive solutions. The resounding success and positive feedback from conference attendees indicate a promising future for the integration of XR technologies in clinical practices.

For more on Holoeyes and their innovative solutions, visit Holoeyes’ website.


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Topics Health)

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