Ophthalmic surgeons who offer laser vision correction know that their reputations grow by word of mouth, as an effect of the miraculous results of the services they provide. Patients sometimes have a sense that the laser can correct anything. Soon, older patients will seek solutions for presbyopia and other visual conditions with laser vision correction.
Among patients aged 45 to 60 years, a disproportionate number of hyperopes have experienced a decrease in distance vision. Most of these individuals have taken pride in their excellent distance vision in years gone by. They are looking for the freedom that laser vision correction promises and desire a life free of spectacles.
Many of these patients are ideal LASIK candidates, provided they have excellent corneal topographies and pachymetries. Aside from the hyperopia, their eyes are otherwise healthy, and LASIK monovision can provide an excellent outcome if they are suited to this treatment. In addition to LASIK monovision, other forms of the treatment including minimonovision and blended monovision can be performed depending on the patient's needs.
I want to discuss the patient group in which the Pentacam (Oculus Optikgeräte) reveals the presence of diminished anterior segment dimensions. Surgeons routinely use the Pentacam to evaluate the anterior chamber dimensions of volume, depth, and angles. Values are typically around 200 mm3 or more for volume, aproximately 2.8 mm or more for depth, and greater than 30º to 35º for angles. In this group of low to moderate hyperopes, however, the dimensions sometimes tell a different story. The volume quite often approaches the 100-mm3 mark, the depth is around 2.2 mm, and the angle is about 28º or less (Figures 1-3). The literature informs us that, with a volume of 100 mm3 or less, depth of 2.1 mm or less, and angles of less than 26º, the risk of angle closure in the next 6 to 12 months is 50%.1
The lens has its embryologic background from surface ectoderm, and that implies that the natural lens never stops growing, both in thickness and in equatorial dimensions. We can therefore expect in ensuing years that the anterior chamber dimensions in eyes like these will further diminish. LASIK does not significantly alter these dimensions, although, if there is some latent hyperopia that is corrected by LASIK, the lens thickness may temporarily decrease due to reduced accommodative effort.
In these eyes with reduced dimensions, lens replacement surgery achieves a number of targets in one swoop: refractive correction, the management of presbyopia by monovision or multifocality, the prevention of future cataracts, and the decongestion of the anterior chamber. Lenstar (Haag-Streit) measurements show that the average crystalline lens in patients 45 to 55 years of age is approximately 4 mm thick, whereas a replacement IOL is typically less than 1 mm thick. With the thinner lens in place, decongestion of the anterior chamber is relieved and the issue of narrow angles is permanently resolved.
THE QUESTIONS I POSE ARE THESE:
With regard to anterior chamber dimensions, at what values do you opt for lens replacement rather than LASIK? Would refractive lens exchange be a viable solution in eyes with congested anterior chambers? Would you perform a peripheral iridotomy before LASIK instead of a lens replacement procedure? Furthermore, would you perform laser vision correction in an eye in which future anterior chamber congestion is anticipated?
Arthur B. Cummings, MB ChB, FCS(SA), MMed(Ophth), FRCS(Edin), is a consultant ophthalmologist at the Wellington Eye Clinic and UPMC Beacon Hospital in Dublin, Ireland. He acknowledged no financial interest in the products or companies mentioned herein. Dr. Cummings may be reached at firstname.lastname@example.org.
- Pakravan M, Sharifipour F, Yazdani S, et al. Scheimpflug imaging criteria for identifying eyes at high risk of acute angle closure. J Ophthalmic Vis Res. 2012;7(2):111-117.