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Limitations of wavefront becoming apparent, some say
Wavefront-guided custom ablations hold great promise, but will they deliver? The effectiveness of wavefront is questioned by some practitioners.
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In the past 2 years, excimer laser and ophthalmic diagnostic manufacturers have touted wavefront diagnosis as the coming technology for a golden age of refractive surgery. But will the technology really be all that it has been promoted to be? Some researchers and clinicians are expressing doubt.
Some have posited that the higher-order aberrations identified by wavefront diagnosis are too small for today’s lasers to address. In addition, some say, the healing power of the human body may undo any corrections to higher-order aberrations that are created by custom ablations. And if a noticeable change can be made, some ask, can it work for everyone, and can wavefront alone make it happen?
Ocular Surgery News raised these issues and others with several clinicians with broad experience in refractive surgery. While all said they recognize a future for wavefront diagnosis, they do not see it as the universal answer.
Not the Holy Grail
Two years ago, Ocular Surgery News interviewed Noel Alpins, MD, regarding the advantages of wavefront diagnosis vs. topography (August 1, 2000). At that time, when wavefront was new to the ophthalmic industry, he predicted that it was not going to have the impact on refractive surgery that many manufacturers were forecasting. Two years later some of his assertions have been borne out, and he has found that a number of other surgeons share his views.
“Everything I said 2 years ago is really coming to be,” Dr. Alpins said. “It’s now much more accepted that wavefront is not performing as well as people anticipated. Wavefront is not the Holy Grail. It’s a sophisticated spectacle test that will become an indispensable diagnostic tool.”
He acknowledged that as a marketing tool, wavefront technology is attractive to patients. But he called it a tool with teeth.
“It will come back to bite you later when your patients return and tell you they did not get the results or super-vision they were expecting. And it’s tough to improve on unsatisfied expectations,” he said.
Dr. Alpins suggests using a common-sense approach, not promising patients too much, whether in wavefront-guided or conventional surgeries, and then attempting to over-deliver.
“You’re just creating headaches for yourself. I’d rather have people not have the surgery than to create unrealized expectations. These unrealized expectations become self-limiting because you have to take the time to deal with a lot of dissatisfied old business instead of working on your new business,” he said.
However, with that said, Dr. Alpins acknowledged that wavefront will have a place in refractive surgery and that it has many positive factors.
“Wavefront is excellent at diagnosing spherical aberrations, especially where induced closer to the peripheral cornea. Wavefront can help you avoid or adjust those spherical aberrations, and you can reduce night vision symptoms, halos, second-order aberrations and defocus,” he said.
Astigmatism is the issue
The technology has its shortcomings, he believes, in addressing astigmatism.
“You do not want to treat just for the refractive correction, but also for the corneal contours, in which case wavefront falls down in much the same way a spectacle value treatment would. You’ll leave too much astigmatism on the cornea and in addition you’ll add an element of irregularity rather than reduce it,” Dr. Alpins said.
However, he believes wavefront can be a help in conjunction with other tests.
“If you examine the cornea using vector planning, you can adjust the treatment to take into account what really needs to be treated, a combination of astigmatism and refractive error. You can move the maximum ablation closer to the principal meridia, and you’ll get a greater reduction of astigmatism from less ‘off-axis’ effect,” he said.
Dr. Alpins said he thinks wavefront analysis in conjunction with vector planning will result in less astigmatism and second-order aberration. With less corneal astigmatism, patients will have less second- and third-order aberration, he said.
“This is likely to provide greater contrast sensitivity and improved quality of vision,” he said.
In 1998 Dr. Alpins developed a combination of diagnostic tools into the ASSORT program, which helps the surgeon to decide what astigmatism types need to be corrected and what can remain as-is to get the best possible outcome.
Early in the development of refractive surgery, he said, most surgeons relied on manifest refraction for surgical planning. Then came topography, and many surgeons advocated that technology and for a time abandoned manifest refraction. With the introduction of wavefront, he expects that many surgeons will move to that technology as the tool of choice. However, Dr. Alpins said the best answer is to use a combination of all three.
In a comparison of ASSORT with wavefront vs. wavefront alone, he and other surgeons would expect to be able to get results that benefit the cornea, but with no additional negative effects on second-order aberrations.
“Wavefront tries to correct for every aberration in the eye on the corneal surface,” he said. “If you do that, you’ll get a cornea that is ‘cobblestoned’ to fix all the errors in the eye behind it. By using a technique to find out where all the errors are, you get a much better outcome with less disturbance to the corneal surface.”
Patient interaction
Dr. Alpins said use of wavefront technology also limits a patient’s interaction with the planning of his or her surgery.
“All the major companies have decided to rely on the Shack-Hartmann version of wavefront with their own modifications. However, these machines are really just a very sophisticated autorefractor. That in itself may not be a bad thing. But by using an autorefractor to draw a conclusion, the surgeon excludes the patient’s cortical perception of astigmatism, as is the case with manifest refraction. That has an impact on the treatment. Not involving the patient’s conscious input in the surgery risks having a less satisfied patient,” he said.
“While some machines include an option to allow the patient to get an idea of what they’ll be seeing after surgery, it’s not really an accurate representation and not at a level where the human brain can appreciate it,” he continued.
Another potential problem is the fineness of the ablations dictated by wavefront diagnosis.
“We’re talking about microns of change, maybe 10 µm,” Dr. Alpins said. “That small amount of change is easily influenced in the measurement process, especially by drying of the eye. Studies have shown that wavefront refractions change as the tear film changes. The machine is that sensitive. Therefore it’s hard to get an idea of the changes required, depending on the state of the tear film when measured and how the tear film changes before surgery.”
The LASIK flap may also present a problem. “No matter how finely tuned a microkeratome is, it’s still a gross change to the cornea as opposed to the finely tuned changes required with wavefront-guided treatments,” Dr. Alpins said.
Physiologically variable eyes
“I think wavefront is a great idea, but its ability to deliver on its promise is limited,” said Michael Goggin, MD, of Adelaide University. Technical problems including the individuality of patients, the type of treatment and how the eye is mapped may restrict the effectiveness of wavefront-guided treatment, he said.
“This term ‘super-vision’ has appeared, but I believe most well-done excimer ablations deliver that now without wavefront,” Dr. Goggin said. “My patients are receiving great results with my Nidek.”
He said two recent papers suggest that wavefront-guided ablation, though it induces fewer aberrations than a standard ablation, actually induces aberrations rather than reducing them. However, he said, the Snellen visual acuity results are about the same. Low-contrast, low-illumination acuity is likely to be a better measure of wavefront outcome.
“I think there will be a use for wavefront, but I don’t think it will be for general use. Not all machines will work as well on all patients. And wavefront may not be useful for gross errors such as keratoconus. A lot of people have a belief that this is ‘an answer to a maiden’s prayer,’ but it’s not,” Dr. Goggin said.
In addition, Dr. Goggin said he believes the wavefront systems now in development and use are still not accurate enough to get rid of all aberrations.
“As fine as each lenslet is, they’re still slightly aberrated. They’re actually not fine enough to deliver on the promise of aberration-free vision. Also, the light most wavefront systems use is infrared. But infrared light penetrates the retina at different depths from person to person. If you don’t allow for that individual change you’ll get an inaccurate representation of spherical errors,” Dr. Goggin said.
Another potential problem with the technology, Dr. Goggin said, is that to be really effective the wavefront-guided ablation must be done to suit specific physiological conditions.
“What suits an eye for near vision in low light may not suit for distance in sunlight,” he said.
Dr. Goggin also wondered about the long-term benefit of making minuscule changes to the corneal surface.
“Aberrations increase with age,” he said. “What we do today may lose its effect in 10 years. And there is some evidence that suggests our brains actually see very well in the presence of significant aberrations.”
As for the question of the flap erasing higher-order corrections, Dr. Goggin quoted a recent lecturer who said, “It’s hard to appreciate a parquet floor through a shag rug.” This issue raises the separate question of whether surface ablation will be better than LASIK for use with wavefront-guided ablation.
Looking to the future, Dr. Goggin wondered whether there will be problems matching IOLs to customized corneas in patients who develop cataracts after wavefront-guided ablations.
In his own practice, he said he and his patients have been happy with results he has achieved without wavefront. He said his patients regularly achieve 6/6 and in about 60% of cases 6/4. He suggested surgeons need to focus more on their own techniques than any diagnostic tool.
“If you’re careful about how you do your conventional treatment you’ll get better results,” he said.
No super-vision
“The hype is gone and we are back to earth,” said Frank Goes, MD, of Antwerp, Belgium. “But the technique is fascinating, and we are at the start of an improvement in diagnosis, scientific work, treatment, evaluation and patient selection.”
Dr. Goes said companies will probably cease marketing the idea of super-vision, “although some patients may gain in acuity after wavefront-guided LASIK.”
The important applications for custom ablation, he said, will be as a primary treatment “in selected patients with important higher-order aberrations, and as a touchup in patients with subjective complaints.”
Dr. Alpins agreed that the technology has a place.
“I realize wavefront is a technology that’s here to stay. It’s a wonderful diagnostic tool, but it needs something additional to refine its capabilities. It’s not the last step in the perfection process,” he said.
For Your Information:
- Noel A. Alpins, MD, FACS, can be reached at NewVision Clinics, 7 Chesterville Road, Cheltenham Vic. 3192, Australia; +(61) 3-9584-6122; fax: +(61) 3-9585-0995; e-mail: alpins@newvisionclinics.com.au. Dr. Alpins has a direct financial interest in the ASSORT program.
- Frank Goes, MD, can be reached at Antwerp Eye Centre, Willem Klooslaan 6, 2050 Antwerp, Belgium; +(32) 3-2193925; fax: +(32) 3-2196667; e-mail: frankgoes@village.uunet.be; Web site: www.goes.be.
- Michael Goggin, MD, can be reached at Adelaide University, The Queen Elizabeth Hospital, Woodville Road, Woodville, South Australia 5011; +(61) 8-8222-6000; fax: +(61) 8-8222-6233; e-mail: michael.goggin@nwahs.sa.gov.au. Dr. Goggin has no direct financial interest in the products mentioned in this article, nor is he a paid consultant for any companies mentioned.