You are in: eMedicine Specialties > Ophthalmology > REFRACTIVE DISORDERS Specialty Contact LensesArticle Last Updated: May 26, 2006AUTHOR AND EDITOR INFORMATIONSection 1 of 11
  Author: Mark Ventocilla, OD, FAAO, Clinical Professor, Michigan College of Optometry; Editor, American Optometric Association Contact Lens and Cornea Section Newsletter; Chief Executive Officer, Elder Eye Care Group, PLC; President, Lakeshore Professional Eyecare, PC Mark Ventocilla is a member of the following medical societies: American Academy of Optometry and American Optometric Association Coauthor(s): Karen K Yeung, OD, FAAO, Director of Optometry, Arthur Ashe Student Health and Wellness Center, University of California at Los Angeles; Susan J Gromacki, OD, MS, FAAO, Optometric Director, Langerman Eye Institute Editors: Fernando H Murillo-Lopez, MD, Senior Surgeon, Unidad Privada de Oftalmologia CEMES; Simon K Law, MD, PharmD, Assistant Professor of Ophthalmology, Jules Stein Eye Institute; Chief of Section of Ophthalmology Surgical Services, Department of Veterans Affairs Healthcare Center, West Los Angeles; Christopher J Rapuano, MD, Professor, Department of Ophthalmology, Jefferson Medical College; Co-Chairman of the Cornea Service, Co-Chairman of Refractive Surgery Department, Wills Eye Hospital; Lance L Brown, OD, MD, Ophthalmologist, Affiliated With Freeman Hospital and St John's Hospital, Regional Eye Center, Joplin, Missouri; Hampton Roy Sr, MD, Associate Clinical Professor, Department of Ophthalmology, University of Arkansas for Medical Sciences Author and Editor Disclosure Synonyms and related keywords: specialty CLs, aphakic contact lens fitting, astigmatism contact lenses, bandage contact lenses, bifocal contact lenses, keratoconus contact lenses, post trauma contact lens fitting, post refractive surgery contact lens fitting, prosthetic contact lens fitting, extended wear lenses, rigid gas permeable contact lens, RGP contact lens ASTIGMATISM CONTACT LENSESSection 2 of 11
  Hydrogel contact lenses for astigmatism Soft contact lenses (CLs) were once difficult to fit for astigmatic eyes because every toric CL was unique and fit differently with every lens. However, technology has dramatically improved, allowing for consistent fit and a myriad of CLs. A list of CLs is available in Tyler's Quarterly. Soft toric CLs can be fit empirically from the patient's subjective refraction. For prescriptions greater than +4.00 D, the vertex power is used to select the initial lens. Markings on the CLs enable axis alignment for astigmatic orientation. Markings differ and vary among manufacturers. For example, the marking may be a single dot at the bottom of the lens or 3 slashes (1 at the bottom of the lens, 1 at the 3-o'clock position, and 1 at the 9-o'clock position). For CLs that do not align themselves properly on the eye, the CLs can be aligned in 1 of 2 ways, as follows:
Rigid gas-permeable contact lenses for astigmatism For corneas with low toricity, spherical, rigid gas-permeable (RGP) lenses can often mask the astigmatism. If the spherical RGP lens fits well on the cornea but astigmatism persists, an anterior toric RGP lens is appropriate because it has a spherical base curve with a toric front surface to correct the astigmatism. Prism is often added to the lens to maintain orientation of the lens. For corneas with large amounts of toricity not correctable with spherical RGP lenses, back toric RGP lenses are used. The back of the lens has 2 curves, 90° apart, to saddle the toric cornea. The front of the RGP lens has a spherical central zone. Back toric RGP lenses can also be used on irregular corneas, such as those observed in Terrien marginal degeneration or pellucid marginal degeneration, to improve centration of the RGP lens. When residual astigmatism persists over a back toric RGP lens, a bitoric RGP lens can be used. The back surface of this lens is similar to that of a back toric RGP lens, and it has 2 curves to stabilize the RGP lens on the toric cornea. This lens also has 2 curves on the front to correct for the residual astigmatism. The Mandell-Moore bitoric fitting guide can be used to determine the appropriate base curves and CL powers. It relies on accurate and refined refractions and keratometric readings. Trial fittings in the office with diagnostic RGP lenses often result in the most accurate orders for RGP lenses. PRESBYOPIC CONTACT LENSESSection 3 of 11
CL options for patients with presbyopia include distance CLs with glasses for near reading, CLs for near vision with spectacles for distance vision, monovision CLs, RGP bifocal CLs, soft bifocal CLs, and modified monovision CLs. Because patients with presbyopia are middle aged or older, they may have reduced tear quantity and quality, reduced eyelid tonicity, and small pupils. These characteristics can be relative contraindications for CL wear; however, with proper prescreening, appropriate lens selection, and patient education regarding expectations, most patients with presbyopia can be successfully fit with CLs. Ideal patients are highly motivated to wear CLs, they understand the limitations in correcting presbyopia with CLs (ie, vision will not be perfect for all distances), they do not have an exceptionally small or large pupil, and they are willing to make several office visits to find the best fit. Distance CLs with the use of glasses for near reading provide the patient with the best binocularity at all distances. The disadvantages include the need for the patient to put on glasses for reading. Near-vision CLs with distance-vision spectacles can provide a patient with excellent binocularity. Disadvantages are similar to that mentioned above, with a need to put on glasses for distance viewing. In addition, the eyes may become dry when the patient reads for a prolonged time, especially with CL wear. Monovision involves fitting 1 eye for distance vision and 1 eye for near vision. Any CL modality (eg, soft CLs, RGP lenses) can be used. Reported success rates vary, but the best candidates for monovision correction with soft CLs are patients with minimal astigmatism. For large amounts of astigmatism, RGP or soft toric CLs should be considered. Patients should be educated that monovision can affect binocularity and cause intermittent blurriness because of the inability to suppress the out-of-focus eye. For patients who drive, the prescription of distance-correcting spectacles to provide binocularity can be important for medicolegal purposes. For high levels of presbyopia, explaining to patients that monovision may not provide an adequate intermediate working distance is also recommended. Modified monovision involves either the combination of a bifocal CL on 1 eye and a single vision CL on the other eye or the use of 2 bifocal CLs with 1 CL correcting for distance and intermediate vision and the other CL correcting for intermediate and near vision. When bifocal CLs fit appropriately, they provide stereopsis greater than that achieved with monovision because both eyes are viewing together and not independently. Bifocal lenses may not be as clear as single-vision lenses, and their use often requires additional patience on the part of the patient and the physician to achieve success. Optical designs for bifocal soft CLs include the following:
The key to successful bifocal CL fitting is matching the correct CL design to the patient's needs. Aspheric lenses are progressive, with a gradual transition from distance through intermediate to near vision; therefore, they are best suited for patients with a need for clarity at an intermediate working distance correction (eg, for computer use). Pupil size plays an important role in fitting bifocal CLs. If the pupil is too small, the patient may not appreciate the midperipheral optics. If the pupil is too large, it can prevent the eye from using the central optics. Diffractive designs have phase plates that focus light from both distance and near sources, eliminating the need for an optimal pupil size. However, the optics of this design may cause ghost images and limit its usefulness. RGP bifocal CLs typically provide optics better than those of soft bifocal lenses because they may correct for low amounts of astigmatism and provide a crisp refraction. Alternating (translating) RGP lenses are segmented and use prism ballasting to stabilize the RGP lens. RGP bifocal lenses are available in add powers higher than those of aspheric designs but do not provide intermediate-distance correction. RGP aspheric (soft or rigid) lenses require excellent CL centration. Back surface aspheric multifocals are often designed for superior lid attachment. BANDAGE CONTACT LENSESSection 4 of 11
Soft CLs can be used to reduce discomfort from corneal epithelial defects, to protect the cornea from drying or mechanical trauma, and to promote healing of corneal wounds. Indications for bandage CLs include the management of recurrent corneal erosion, superficial punctate keratitis, epithelial defects, corneal dystrophies, and wound dehiscence after surgery. Silicone CLs are optimal bandage CLs because of their increased oxygen permeability. Silicone lenses are associated with a lowered rate of corneal complications, especially in an extended-wear modality. Bandage CLs should fit snuggly on the cornea with slight movement (approximately 0.25 mm) with each blink. The appropriate base curve can be determined by using the keratometric readings of the contralateral eye. A lens that is too tight blanches the conjunctival vessels and cannot be easily removed. A bandage CL that fits too flat decenters easily and lags with each blink. The bandage CL should be large enough in diameter to cover the affected area on the cornea. Oversized lenses can be prescribed to bandage filtering blebs. Unpreserved artificial tears instilled on the eye can help loosen the bandage CL when it is removed from the eye. All bandage CLs should be evaluated after 1 day and at 1 week and then as often as needed to monitor for infection. KERATOCONUSSection 5 of 11
Keratoconus is a noninflammatory, asymmetrical, bilateral, progressive thinning of the cornea that distorts the patient's vision. Patients typically have increased, irregular astigmatism and inferior and nasal displacement of the corneal cone (see Image 2). In the early stages of keratoconus, spectacles or soft CLs can help improve the patient's visual acuity. In the moderate-to-late stages of keratoconus, only RGP lenses can mask the underlying corneal distortion and provide the crispest possible vision. Piggyback CLs (an RGP lens on top of a soft CL) are used when patients can no longer tolerate wearing RGP lenses. Silicone lenses are recommended as the soft CL carrier to improve oxygen flow to the cornea. Use of diagnostic RGP lenses in the office provides the most accurate fit and prescription for the patient, minimizing multiple follow-up visits. Some laboratories can help design a lens for the practitioner on the basis of corneal topographic results. Many keratoconic RGP lens designs (eg, Soper, McGuire, Rose K) are available for selection depending on the steepness, size, and location of the cone on the cornea. The ultimate goal is to fit the RGP lens with a 3-point touch (trace apical touch over the cone and in the periphery) to distribute the weight of the RGP lens evenly across the cornea. CONTACT LENSES AFTER TRAUMASection 6 of 11
Corneal trauma and corneal surgery frequently result in irregular astigmatism. In some cases, the cornea may remain elevated along the area where sutures were used to repair a laceration. In other cases (ie, chemical burn), a flattened area of corneal scarring may be present. Each case must be individually evaluated for tear quality and deformity of the corneal surface (irregular central vs peripheral cornea). Other factors that should be considered include aphakia (anisometropia), eyelid condition (damage), and iridodialysis requiring a prosthetic iris CL. The corneal should be completely healed before an RGP lens is fitted. In general, exposed sutures must be removed to reduce the risk of infection and to increase CL comfort. In cases involving penetrating keratoplasty (PKP), thorough evaluation for graft rejection should always be performed (see Image 4). Signs of rejection include keratic precipitates, an epithelial rejection line, subepithelial infiltrate, corneal edema, an anterior-chamber reaction, and corneal neovascularization. CLs made of high-Dk material (material with high oxygen permeability) are recommended, especially for compromised corneas. In cases of severe astigmatism, selective suture removal or relaxing incisions should be considered to ease the fitting process. Because every cornea is different after surgery or trauma, no single lens design can be recommended. In general, RGP lenses improve visual acuity compared with soft lenses. Unless the corneal defect is small and isolated to the center of the cornea, a large (>9.5 mm) RGP lens is often needed to obtain good lens stability and centration. The goal of the RGP lens is to evenly distribute the bearing forces of the lens, though some bearing of the lens may be inevitable. APHAKIASection 7 of 11
Aphakic lenses are generally lenses of high plus power and relative central thickness. Both soft and RGP lenses are available for aphakic eyes, though RGP lenses generally provide more oxygen to the eyes than do soft lenses. Although not necessary, pediatric aphakic eyes can be fit under general anesthesia before cataract extraction. The keratometric reading of the contralateral eye provides an adequate base curve, and overrefraction after cataract extraction provides the proper lens power. Depending on the child's age, a near-viewing prescription should be added to allow the child to focus on close objects. Both RGP and soft CLs can be used, though soft CLs may be slightly easier than RGP CLs for the parents or caregivers. Changing the color of the lens with each new order of CLs helps the patient and parents differentiate the lenses because many lenses will be ordered during the child's lifetime. Pediatric CL fittings require a lot of cooperation and patience from the parent or caregiver. Proper CL handling and patient education are important to ensure the child's success. Parents or caregivers can be trained to insert the lenses while the child is restrained or wrapped in blankets. Lenses can be worn on an extended basis, but the parents or caregivers should be aware of the increased risk of infections and CL complications with extended wear. PROSTHETIC LENSESSection 8 of 11
Prosthetic lenses are used to mask corneal scars, to reduce glare from iridodialysis, or to act as an occlusive patch (see Image 7). If disposable, colored CLs do not adequately match the color of the iris, customized prosthetic CLs are available. Customized lenses can include an opaque or translucent iris with a clear or tinted papillary zone. Digital photography has made it easier than before to relay color matches to CL manufacturers. Good centration with minimal movement (without being too tight to compromise corneal health) is critical to obtain the best cosmetic results. The best results may require fitting both eyes with tinted lenses. Heat and hydrogen peroxide disinfecting systems may discolor the lenses. LENSES AFTER REFRACTIVE SURGERYSection 9 of 11
Although radial keratotomy (RK), photorefractive keratoplasty (PRK), laser in situ keratomileusis (LASIK), use of intrastromal rings, and conductive keratoplasty (CK) restore clear, uncorrected vision to many patients, some patients require additional refractive correction because of undercorrection or overcorrection, corneal irregularities resulting in decreased vision, and/or halos and glare. Glasses and soft CLs can help in cases of mild refractive errors, but for patients with corneal irregularities, RGP lenses generally improve visual acuity the best. Punctal plugs should be considered in any patient who has undergone refractive surgery and who has a history of previous intolerance of CLs. RGP lenses for surgically treated corneas should have a large diameter to include the affected area. A reverse-geometry lens is generally required if standard RGP lenses do not provide proper fit (eg, because of notable edge lift or large central pooling). Reverse geometry lenses fit like a mesa, minimize central pooling, and tighten the edge of the RGP lens to the contour of the periphery of the cornea. Sometimes, a small-diameter RGP lens can also work. Again, the goal of the RGP lens is to evenly distribute the bearing forces of the lens, though some bearing of the lens may be inevitable. Trial lens fittings in the office or sending corneal topographic results to the RGP lens manufacturing laboratory for a RGP lens consultation help limit the number of visits to the office. MULTIMEDIASection 10 of 11
REFERENCESSection 11 of 11
Specialty Contact Lenses excerpt Article Last Updated: May 26, 2006 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
