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Complete depigmentation of a small aperture corneal inlay implanted for compensation of presbyopia

Despigmentação completa de um implante corneano de pequena abertura para correção da presbiopia

ABSTRACT

We describe a case of late-onset remarkable depigmentation of a small aperture corneal inlay implanted for presbyopia compensation. The patient was a participant in a clinical trial designed to evaluate the safety and efficacy of the AcuFocusTM ACU-10R160, which is a 10 µm-thick polyimide film tinted with an organic dye. Inlay implantation occurred under mechanical microkeratome Lasik flaps set for a depth of 120 µm. The patient returned to the clinic 11 years after surgery and reported loss of near-vision acuity. Clinical examination showed the complete absence of pigments in the device and the total loss of the initial effect on near vision, despite normal distance vision. Manifest refraction remained stable during the follow-up period. Scheimpflug images characterized the loss of the small aperture effect on incoming light. Confocal analysis revealed small hyper-reflective round images on the endothelium and no signs of inflammation.

Keywords:
Corneal transplantation; Corneal stroma; Presbiopia/surgery; Polyvinyls; Visual acuity; Case report

RESUMO

Descrevemos um caso de importante despigmentação de início tardio de implante corneano de pequena abertura implantada para compensação de presbiopia. O paciente foi um dos participantes de ensaio clínico destinado a avaliar a segurança e eficácia do AcuFocusTM ACU-10R160, uma película de poliimida de 10 microns de espessura, tingida com um corante orgânico. A implantação ocorreu sob um flap de Lasik criado por microcerátomo mecânico ajustado para profundidade de 120 µm. O caso aqui descrito foi avaliado 11 anos após a cirurgia, relatando diminuição de acuidade de visão para perto. O exame clínico mostrou ausência total de pigmentos no dispositivo e perda total do efeito inicial na visão de perto, apesar da visão normal para distância. A refração manifesta permaneceu estável durante o período de seguimento. As imagens de Scheimpflug caracterizaram a perda do efeito da abertura pequena na luz entrante. A análise de microscopia confocal revelou pequenas imagens hiper-reflexivas redondas sobre o endotélio, sem sinais de inflamação.

Descritores:
Transplante de córnea; Substância própria; Presbiopia/cirurgia; Polivinil; Acuidade visual; Relatos de casos

INTRODUCTION

Presbyopia develops with aging and currently affects millions of people around the world(11 Holden BA, Fricke TR, Ho SM, Wong R, Schlenther G, Cronjé S, et al. Global vision impairment due to uncorrected presbyopia. Arch Ophthalmol. 2008;126(12):1731-9.). Near-vision impairment can significantly affect daily activities, and its surgical correction remains a challenge(22 McDonnell PJ, Lee P, Spritzer K, Lindblad AS, Hays RD. Associations of presbyopia with vision-targeted health-related quality of life. Arch Ophthalmol. 2003;121(11):1577-81.). Small-aperture corneal inlays increase the depth of focus and have the potential advantage of modifying the refractive status of the eye while preserving corneal tissue and allowing possible reversibility(33 Waring GO IV. Correction of presbyopia with a small aperture corneal inlay. J Refract Surg. 2011;27(11):842-5.

4 Dexl AK, Jell G, Strohmaier C, Seyeddain O, Riha w, Rückl T, et al. Long term outcomes of a monocular inlay implantation for the surgical compensation of presbyopia. J Cataract Refract Surg. 2015;41(3):566-75.

5 Limnopoulou AN, Bouzoukis DI, Kymionis GD, Panagopoulou SI, Plainis S, Pallikaris AI, et al. Visual outcomes and safety of a refractive corneal inlay for presbyopia using femtosecond laser. J Refract Surg. 2013;29(1):12-28.

6 Food and Drug Administration. Department of Health & Human Services. KAMRA inlay. Device regulation and guidance document [Internet]. Irvine, California: AcuFocus Inc.; 17 april 2015. [cited 2015 June 11]. Available from: http://www.accessdata.fda.gov/cdrh_docs/pdf12/P120023a.pdf
http://www.accessdata.fda.gov/cdrh_docs/...

7 Yilmaz OF, Alagoz N, Pekel G, Azman E, Aksoy EF, Cakir H, et al. A. Intracorneal inlay to correct presbyopia: long-term results. J Cataract Refract Surg. 2011;37(7):1275-81.
-88 Kanno M, Kawakami H, Nagaoka S, Kubota S. Biocompatibility of fluorinated polyimide. J Biomed Mater Res. 2002;60(1):53-60.).

During the last 4 decades, inventors have filed a series of patents based on small apertures optical devices to enhance vision. These inventions include masked contact lenses and intraocular lenses(99 Miller D, Blanco E. System and method for increasing the depth of focus of the human eye. Boston: Boston Innovative Optices; 2003. Patent US 6554424 B1, 29 abr 2003. Avaliable at: http://www.google.com/patents/EP1173790A2?hl=pt-BR
http://www.google.com/patents/EP1173790A...
). A system and method for increasing the depth of focus of the human eye was assigned to AcuFocus Inc. (Irvine, USA) and, recently, the Food and Drug Administration (FDA) approved the use of the KamraTM Inlay for compensation of presbyopia(66 Food and Drug Administration. Department of Health & Human Services. KAMRA inlay. Device regulation and guidance document [Internet]. Irvine, California: AcuFocus Inc.; 17 april 2015. [cited 2015 June 11]. Available from: http://www.accessdata.fda.gov/cdrh_docs/pdf12/P120023a.pdf
http://www.accessdata.fda.gov/cdrh_docs/...
).

The case reported herein involves a patient who underwent implantation of a small aperture corneal inlay and returned for evaluation 11 years later presenting marked depigmentation of the device and loss of the achieved near vision improvement.

CASE REPORT

A 67-year-old female returned to our university-based refractive surgery clinic for evaluation with a complaint of progressive near-vision disturbance in her left eye following surgery for near-vision improvement. According to her medical records, the patient had undergone monocular implantation of a small aperture corneal inlay 11 years earlier, under an approved Institutional Review Board protocol. Five patients included in the protocol had normal eye examination results, except for presbyopia. Full preoperative evaluation was performed. The non-dominant eye was selected for surgery, which consisted of creation of a corneal flap by using a mechanical microkeratome set for a depth of 120 µm. After flap lifting, the device was placed in the center of the visualized pupil, and the flap was replaced. The routine postoperative medical regimen included a combination of topical antibiotic and a steroid for 14 days. All surgeries were performed in 2004.

The implanted device was an AcuFocusTM ACU-10K160, a 10 µm-thick opaque polyimide inlay with an overall outer diameter of 3.8 mm and an inner diameter of 1.6 mm. The polyimide material was a liquid formulation designed for thin-film casting, supplied by Dupont®. The radius of curvature of the inlay was 7.5 mm. An organic dye (Sudan Black B) was incorporated in the inlay to provide opacity. The inlay had visible light transmission of 6.0% to 7.5%. This device had laser-drilled 25 µm diameter holes (1,600 pores) designed to facilitate nutrient and particle flow to the cornea. The outer and inner edges were free of these porosity holes(1010 Ziemer Ophthalmology. The presbyopia solution. Femto LDV and KAMRA inlay lead the way in presbyopia correction [Internet]. Irvine,California: Acufocus Inc.; 2012. [cited 2015 Nov 21]. Available from: http://www.domedics.ch/fileadmin/_migrated/content_uploads/Ziemer_Femto_LDV_and_Kamra_Inlay_Brochure.pdf
http://www.domedics.ch/fileadmin/_migrat...
).

Although initially all the patients showed improvement in uncorrected near visual acuity (UNVA), four eyes underwent inlay removal during the first 24 months after implantation because of persistent epithelial defects or progressive topographic changes that affected satisfaction.

The patient reported herein was the only with an eye having the implant in place. She had been followed up for 3 years but did not return until recently. Data obtained under the original clinical protocol regarding her first year of follow-up visits are included in table 1. The patient showed improvement in UNVA after implantation, with no other remarkable clinical findings.

Table 1
Summary of clinical findings

At the most recent evaluation, provocative questioning revealed that she had experienced glare and halos besides decreased UNVA. Figure 1 presents slit-lamp photos of the patient at 7 days and 1, 3, and 11 years after surgery. Until 3 years, the cornea and inlay had a normal appearance. At 11 years, marked depigmentation of the inlay had occurred. Careful observation of the clinical images revealed a reticular rounded appearance of an annular structure in the center of the clear cornea, with rare dots of dark pigments. No signs of inflammation or edema were present. A slight amount of corneal haze surrounding the inlay was observed. The remaining stroma and endothelium were unremarkable and the anterior chamber structures were easily seen throughout the inlay. No signs of pigment dispersion were seen at the anterior chamber angle. Applanation tonometry was 18 mmHg. On optical coherence tomography angiographic images, the inlay was not markedly distinct from the presumed stromal opacities and had an estimated depth of 120 µm from the corneal surface and a total thickness of approximately 500 µm (Figure 2). Figures 3A and 3B show corneal Scheimpflug images taken at the 1-year and 11-year follow-up visits, respectively. Irregularities increased during this period but were not followed by worsening of visual acuity or change in refraction.

Figure 1
Slit-lamp images of the inlay implanted in the patient eye. (A-E) show images taken during the postoperative period: at 7 days (A), 1 year (B), 3 years (C), and 11 years (D and E).

Figure 2
Optical coherence tomographic image of the inlay after 11 years. Horizontal measurements show the limits of the outer border of the inlay from the center of the corneal image in millimeters. The vertical measurements show the evaluated depths on both sides (118 µm and 120 µm). The residual stroma is approximately 370 µm.

Figure 3
Topographic analysis obtained by using a Scheimpflug analysis system at 1 (A) and 11 years (B). Surface irregularity is noticed in both examinations, and increased multifocality is observed in the latter examination results.

Figure 4 represents a Scheimpflug sagittal view of the anterior segment. The initial image clearly shows the shadowing effect of the inlay on internal structures, which blocked the incoming light (Figure 4A). A dark zone observed between the borders of the crystalline lens and the border of the iris illustrates the pinhole effect. At the most recent examination, light clearly passed through the entire inlay area of the cornea and homogeneously illuminated the lens (Figure 4B). A mistaken pachymetry of 158 µm, measured under the inlay opacity annulus (Figure 4C), was corrected after the loss of inlay opacity to achieve more accurate pachymetry of 456 µm (Figure 4D).

Figure 4
Scheimpflug sagittal view of the implanted eye clearly shows the effect on the light intensity passing through the cornea at one (A) and 11 years (B). Mis-read pachymetric results (C) were not as prevalent (more reliable) at 11 years (D).

Figure 5, obtained using confocal microscopy (Nidek models CS 2 and 4) 30 days after the implantation (Figure 5A), revealed round, well-limited, randomly distributed hypo-reflective structures (pores) with almost no signs of stromal edema. Current confocal microscopy images (Figures 5B-5D) showed a hazy, moderate reflectance of the inlay surface and small hyper-reflective dots (arrow) observed over its surface, and hypo-reflective round images (doubled arrow) denoted the pores of the inlay (Figure 5B). The inner border of the inlay appeared intact with no signs of material deterioration or cracking (Figure 5C). No inflammation was noticed, and endothelium images demonstrated small, hyper-reflective, round images (arrow), similar to those seen on the inlay surface, but that were larger in number (Figure 5D). These hyper-reflective dot images are thought to represent pigment aggregates. The endothelial density was 2,400 cells/mm2.

Figure 5
Confocal evaluation obtained during the follow-up. (A) 1 month after implantation showing the pores of the inlay; (B-D) show recent images; the arrow in (5B) shows remaining pigment, and the double arrows point to clogged holes; (5C) the curved dense image shows the border limits of the inlay; and (5D) shows presumed inlay-originated pigments on the endothelium level.

DISCUSSION

The implant presented herein is not the same as that approved recently by the FDA (KAMRA® Model ACI 7000). Their main differences are related to their thicknesses (10 µm for the older version and 6 µm for the approved one), material composition (polyimide vs. polyvinylidene fluoride - PVDF), method of inlay pigmentation (Sudan black vs. Carbon black), and pore configuration. Presently, under the current FDA approved technique, a femtosecond-guided pocket with a 200 µm-depth should be used for implantation(1010 Ziemer Ophthalmology. The presbyopia solution. Femto LDV and KAMRA inlay lead the way in presbyopia correction [Internet]. Irvine,California: Acufocus Inc.; 2012. [cited 2015 Nov 21]. Available from: http://www.domedics.ch/fileadmin/_migrated/content_uploads/Ziemer_Femto_LDV_and_Kamra_Inlay_Brochure.pdf
http://www.domedics.ch/fileadmin/_migrat...
).

The present case illustrates several concepts that drive current knowledge about inlay use in the cornea. On the basis of finite element model analysis, the company concluded that a 10 µm-device, with pores >15 µm in diameter and covering >5% of its area, would not produce significant glucose depletion(1010 Ziemer Ophthalmology. The presbyopia solution. Femto LDV and KAMRA inlay lead the way in presbyopia correction [Internet]. Irvine,California: Acufocus Inc.; 2012. [cited 2015 Nov 21]. Available from: http://www.domedics.ch/fileadmin/_migrated/content_uploads/Ziemer_Femto_LDV_and_Kamra_Inlay_Brochure.pdf
http://www.domedics.ch/fileadmin/_migrat...
). The examination did not show any signs of corneal inflammation or cell depletion. The biocompatibility of the current PVDF inlay material on rabbit corneas has been reported in the literature, with a limited amount of tissue inflammation in the first weeks after surgery(77 Yilmaz OF, Alagoz N, Pekel G, Azman E, Aksoy EF, Cakir H, et al. A. Intracorneal inlay to correct presbyopia: long-term results. J Cataract Refract Surg. 2011;37(7):1275-81.).

A recent paper about long-term outcomes on the use of a more recent generation of the inlay indicated increased UNVA and subtle changes on distance corrected visual acuity (DCVA) in 32 emmetropic eyes(44 Dexl AK, Jell G, Strohmaier C, Seyeddain O, Riha w, Rückl T, et al. Long term outcomes of a monocular inlay implantation for the surgical compensation of presbyopia. J Cataract Refract Surg. 2015;41(3):566-75.). Of the 32 operated eyes, 21 lost one or more lines of DCVA, and one eye had the inlay removed because of patient dissatisfaction. The authors mentioned topographic changes and elevation over the area of the implant with a central divot and correlated these findings with the presence of spot-like iron deposits that were described in 56.3% of their cases.

Another long-term study in the literature reported the experience with this technique on 39 (31%) non-previously operated emmetropic eyes that had undergone previous hyperopic Lasik correction (69%)(88 Kanno M, Kawakami H, Nagaoka S, Kubota S. Biocompatibility of fluorinated polyimide. J Biomed Mater Res. 2002;60(1):53-60.). Twenty-two eyes were followed for 4 years, and 93% achieved UNVA of at least J3; all eyes presented uncorrected distance visual acuity of 20/40 or better. Four eyes had their implants removed; one due to a button hole that was not noticed during surgery, two that presented refractive shifts, and one with a flap of 58 µm. Despite these reported complications, no healing defects or iron deposits were mentioned in the study.

The experience by these last two authors with a similar inlay concept, but a deeper implantation depth (170 µm vs. 120 µm) to that reported here, is different from ours. We included five eyes in our series and had to explant four because of persistent epithelial defects and topographic irregularities within the first 2 years after implantation. The other two studies did not report epithelial healing problems or relevant topographic changes. Careful observation of the topographic maps obtained from our patient reveals increased corneal irregularity. Although a considerable amount of keratometric flattening was detected, refraction and uncorrected vision remained unchanged. The current standard of care with an implantation depth of ≥200 µm of a 6 µm-thick inlay will most likely not produce surface changes.

The most significant finding in the present reported case is depigmentation of the inlay, which occurred between 3 and 11 years of follow-up. Unfortunately, because the patient did not return to our institution between years 3 and 11 postoperatively, we were unable to estimate the pattern or the onset of depigmentation. The material used in this case, polyimide, is similar to Kapton® HN polyimide film, which has been approved by the FDA for IOL haptics (1010 Ziemer Ophthalmology. The presbyopia solution. Femto LDV and KAMRA inlay lead the way in presbyopia correction [Internet]. Irvine,California: Acufocus Inc.; 2012. [cited 2015 Nov 21]. Available from: http://www.domedics.ch/fileadmin/_migrated/content_uploads/Ziemer_Femto_LDV_and_Kamra_Inlay_Brochure.pdf
http://www.domedics.ch/fileadmin/_migrat...
). The material approved by the FDA in the current AcuFocus inlay model, PVDF, has proved to be biocompatible(44 Dexl AK, Jell G, Strohmaier C, Seyeddain O, Riha w, Rückl T, et al. Long term outcomes of a monocular inlay implantation for the surgical compensation of presbyopia. J Cataract Refract Surg. 2015;41(3):566-75.,77 Yilmaz OF, Alagoz N, Pekel G, Azman E, Aksoy EF, Cakir H, et al. A. Intracorneal inlay to correct presbyopia: long-term results. J Cataract Refract Surg. 2011;37(7):1275-81.-88 Kanno M, Kawakami H, Nagaoka S, Kubota S. Biocompatibility of fluorinated polyimide. J Biomed Mater Res. 2002;60(1):53-60.). In our case, polyimide was considered to be biocompatible by means of the slit-lamp and confocal appearance. Depigmentation was the only detected structural change. The drilled pores were difficult to detect and appeared to be clogged with collagen deposits. None of the long-term studies cited here addressed the issue of depigmentation. To our knowledge, this is the first report of this occurrence in an inlay designed to have a pinhole effect.

Carbon black nanoparticles, the dye currently used for pigmentation in the FDA-approved Kamra device, is widely used for pigmentation. In 2013, the European Scientific Committee on Consumer Safety, evaluated the use of carbon black and found no evidence of photo toxicity(1111 European Commission. Scientific Committee on Consumer Safety. Opinion on Carbon Black (nano-form). 2a revision. Luxembourg: SCCS; 2015. (SSCS/1515/13 revision of December 15, 2015). [cited 2015 June 11]. Available from: http://ec.europa.eu/health/scientific_committees/consumer_safety/docs/sccs_o_144.pdf
http://ec.europa.eu/health/scientific_co...
). Carbon black particles in other tissues, such as the alveolar region of lungs, can produce oxidation and have been considered to be risk factors for lung cancer in rats(1212 Nolte T, Thiedemann KU, Dungworth DL, Ernst H, Paulini I, Heinrich U, et al. Morphology and histogenesis of squamous cell metaplasia of the rat lung after chronic exposure to a pyrolized pitch condensate and/or carbon black, or to combinations of pyrolized pitch condensate, carbon black and irritant gases. Exp Toxicol Pathol. 1993;45(2-3):135-44.).

One concern raised in our case is that there may be hazards related to the migration of smaller particles used for pigmentation. Determining if the primary mechanism of clearance is by macrophage phagocytosis or simple drainage trough conventional aqueous humor routes may be helpful because they can be present as aggregates or agglomerates with particle sizes varying from 100 to 800 nm. Considering the size on our confocal images, the structures seen at the endothelial level are very likely to represent Sudan black particle agglomerates.

We had partial access to technical details of the manufacturing process of the inlay used here. The correct size of the dye particle, amount used to tint a single inlay, form (liquid or powder), and the potential hazards of systemic migration of the particle from a single inlay, could not be evaluated by us. When addressing the differences between the inlay presented here and the current FDA approved implant, the authors were informed that during the product development, the manufacturer detected a presumed UV sensitivity of the polyimide material and instability of the material and dye composite, but this information was not made publicly available(1010 Ziemer Ophthalmology. The presbyopia solution. Femto LDV and KAMRA inlay lead the way in presbyopia correction [Internet]. Irvine,California: Acufocus Inc.; 2012. [cited 2015 Nov 21]. Available from: http://www.domedics.ch/fileadmin/_migrated/content_uploads/Ziemer_Femto_LDV_and_Kamra_Inlay_Brochure.pdf
http://www.domedics.ch/fileadmin/_migrat...
).

  • Funding: No specific financial support was available for this study.

REFERENCES

  • 1
    Holden BA, Fricke TR, Ho SM, Wong R, Schlenther G, Cronjé S, et al. Global vision impairment due to uncorrected presbyopia. Arch Ophthalmol. 2008;126(12):1731-9.
  • 2
    McDonnell PJ, Lee P, Spritzer K, Lindblad AS, Hays RD. Associations of presbyopia with vision-targeted health-related quality of life. Arch Ophthalmol. 2003;121(11):1577-81.
  • 3
    Waring GO IV. Correction of presbyopia with a small aperture corneal inlay. J Refract Surg. 2011;27(11):842-5.
  • 4
    Dexl AK, Jell G, Strohmaier C, Seyeddain O, Riha w, Rückl T, et al. Long term outcomes of a monocular inlay implantation for the surgical compensation of presbyopia. J Cataract Refract Surg. 2015;41(3):566-75.
  • 5
    Limnopoulou AN, Bouzoukis DI, Kymionis GD, Panagopoulou SI, Plainis S, Pallikaris AI, et al. Visual outcomes and safety of a refractive corneal inlay for presbyopia using femtosecond laser. J Refract Surg. 2013;29(1):12-28.
  • 6
    Food and Drug Administration. Department of Health & Human Services. KAMRA inlay. Device regulation and guidance document [Internet]. Irvine, California: AcuFocus Inc.; 17 april 2015. [cited 2015 June 11]. Available from: http://www.accessdata.fda.gov/cdrh_docs/pdf12/P120023a.pdf
    » http://www.accessdata.fda.gov/cdrh_docs/pdf12/P120023a.pdf
  • 7
    Yilmaz OF, Alagoz N, Pekel G, Azman E, Aksoy EF, Cakir H, et al. A. Intracorneal inlay to correct presbyopia: long-term results. J Cataract Refract Surg. 2011;37(7):1275-81.
  • 8
    Kanno M, Kawakami H, Nagaoka S, Kubota S. Biocompatibility of fluorinated polyimide. J Biomed Mater Res. 2002;60(1):53-60.
  • 9
    Miller D, Blanco E. System and method for increasing the depth of focus of the human eye. Boston: Boston Innovative Optices; 2003. Patent US 6554424 B1, 29 abr 2003. Avaliable at: http://www.google.com/patents/EP1173790A2?hl=pt-BR
    » http://www.google.com/patents/EP1173790A2?hl=pt-BR
  • 10
    Ziemer Ophthalmology. The presbyopia solution. Femto LDV and KAMRA inlay lead the way in presbyopia correction [Internet]. Irvine,California: Acufocus Inc.; 2012. [cited 2015 Nov 21]. Available from: http://www.domedics.ch/fileadmin/_migrated/content_uploads/Ziemer_Femto_LDV_and_Kamra_Inlay_Brochure.pdf
    » http://www.domedics.ch/fileadmin/_migrated/content_uploads/Ziemer_Femto_LDV_and_Kamra_Inlay_Brochure.pdf
  • 11
    European Commission. Scientific Committee on Consumer Safety. Opinion on Carbon Black (nano-form). 2a revision. Luxembourg: SCCS; 2015. (SSCS/1515/13 revision of December 15, 2015). [cited 2015 June 11]. Available from: http://ec.europa.eu/health/scientific_committees/consumer_safety/docs/sccs_o_144.pdf
    » http://ec.europa.eu/health/scientific_committees/consumer_safety/docs/sccs_o_144.pdf
  • 12
    Nolte T, Thiedemann KU, Dungworth DL, Ernst H, Paulini I, Heinrich U, et al. Morphology and histogenesis of squamous cell metaplasia of the rat lung after chronic exposure to a pyrolized pitch condensate and/or carbon black, or to combinations of pyrolized pitch condensate, carbon black and irritant gases. Exp Toxicol Pathol. 1993;45(2-3):135-44.

Publication Dates

  • Publication in this collection
    Jan-Feb 2017

History

  • Received
    31 Oct 2016
  • Accepted
    06 Dec 2016
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