Page 187 - Catálogo Oftalmología
P. 187
Oftalmología






real scene with his hand and the diagnostic lens. Instead of the model head, he
can see a computer-generated patient head as well as the visible section of the
eye interior, which is rendered onto the hand-held lens.

The three-dimensional image of the eye interior is calculated in real time, so that
the difference between the real and virtual image levels is hardly perceptible for the
user.

As with a real ophthalmoscope, the diagnostic lens and light source of the Eyesi
ophthalmoscope have to be aligned properly in front of the model eye in order to
render fundus images. Indirect ophthalmoscope settings such as the stereo base
of the ophthalmoscope, diopter number of the lens and color filter selection or light
intensity can be modified on the user interface.

Objective evaluation of procedural and diagnostic skills
Available pathologies range from macular degeneration and diabetes through to
toxoplasmosis and central vein occlusion. Case descriptions and the clinical
records of the virtual patient are provided by the training system.

A fundus scheme editor and a diagnosis specification tool allow trainees to
describe diagnostic findings in detail. The diagnosis as well as procedural skills of
the trainee are evaluated by the system for immediate feedback. Various
parameters of the examination procedure, such as the retinal area visible in the
magnifier, examination time or possible light toxicity, are evaluated.

Benefits of EyeSi Ophthalmoscope
Availability of a wide range of clinically relevant pathologies
Independence from patient flow
Most effective training of diagnostic skills
Objective assessment of procedural and diagnostic skills
Standardized learning objectives


This is the latest in Augmented Reality!






























   182   183   184   185   186   187   188   189   190   191   192