Wavefront coherence area for predicting visual acuity of post-PRK and post-PARK refractive surgery patients

Garcia, Daniel D.; Pol, Corina van de; Barsky, Brian A.; Klein, Stanley A.

doi:10.1117/12.350591

Cited by 4 publications

(1 citation statement)

References 19 publications

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“…As an implementation, treating patients with Excimer laser and then monitoring the corneal evolution during the post-op time can be compared with the calculated figures of forecasted cornea surface. This procedure will enable us to refine a mathematical model so that it can be used in vivo conditions for humans [9]. …”

Section: Future Possibilitiesmentioning

confidence: 99%

Dynamic Corneal Surface Mapping with Electronic Speckle Pattern Interferometry

Iqbal¹,

Gualini

2013

J. Phys.: Conf. Ser.

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Laser etching rates of sapphire glass using metal targets A H Hamdani, A Nasir, S Sarwar et al. -mail: drsalmaniqbal@yahoo.com Abstract. In view of the fast advancement in ophthalmic technology and corneal surgery, there is a strong need for the comprehensive mapping and characterization techniques for corneal surface. Optical methods with precision non-contact approaches have been found to be very useful for such bio measurements. Along with the normal mapping approaches, elasticity of corneal surface has an important role in its characterization and needs to be appropriately measured or estimated for broader diagnostics and better prospective surgical results, as it has important role in the post-op corneal surface reconstruction process. Use of normal corneal topographic devices is insufficient for any intricate analysis since these devices operate at relatively moderate resolution. In the given experiment, Pulsed Electronic Speckle Pattern Interferometry has been utilized along with an excitation mechanism to measure the dynamic response of the sample cornea. A Pulsed ESPI device has been chosen for the study because of its micron-level resolution and other advantages in real-time deformation analysis. A bovine cornea has been used as a sample in the subject experiment. The dynamic response has been taken on a chart recorder and it is observed that it does show a marked deformation at a specific excitation frequency, which may be taken as a characteristic elasticity parameter for the surface of that corneal sample. It was seen that outside resonance conditions the bovine cornea was not that much deformed. Through this study, the resonance frequency and the corresponding corneal deformations are mapped and plotted in real time. In these experiments, data was acquired and processed by FRAMES plus computer analysis system. With some analysis of the results, this technique can help us to refine a more detailed corneal surface mathematical model and some preliminary work was done on this. Such modelling enhancements may be useful for finer ablative surgery planning. After further experimentation, this technique can possibly be developed for in-vivo experiments on animals and humans and then may prospectively be matured for future clinical usage.

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Section: Future Possibilitiesmentioning

confidence: 99%