Devgan Crystalens Lessons
Transcription
Devgan Crystalens Lessons
Lens-Based Refractive Surgery Cataract Surgery Uday Devgan MD Los Angeles, CA OSN NY 2013 Panel Members: Doug Koch, MD Houston, TX Dick Lindstrom, MD Minneapolis, Eric Donnenfeld, MD Long MN Island, NY Thomas John, MD Chicago, IL Uday Devgan, MD Current Disclosures: Royalty: Accutome Consultant: Aaren Scientific; Alcon Laboratories, Inc.; Bausch + Lomb; Omeros Fees for Non-CME Services: Alcon Laboratories, Inc.; Bausch + Lomb Ownership Interest: LensGen; Specialty Surgical Advisor: Gerson Lehman Group My presentation may include OFF-LABEL use of devices and/or medications. This talk represents my personal opinion as a surgeon. Doug Koch, MD Consultant: Abbott Medical Optics; Revision Optics Ownership Interest: Optimedica Contracted Research: Ziemer Dick Lindstrom, MD Consultant: Abbott Medical Optics; Acufocus; Advanced Refractive Technologies; Adoptics, Alcon Laboratories, Inc.; AqueSys; Bausch + Lomb; Bio Syntrx; Calhoun Vision, Inc.; Clarity Ophthalmics; Clear Sight; CoDa Therapeutics; EBV Partners; EGG Basket Ventures; ELENZA; Encore; Evision Photography; Eyemaginations, Inc.; Foresight Venture Fund #3; ForSight; Glaukos Corporation; High Performance Optics; Hoya Surgical Optics; Improve Your Vision; ISTA Pharmaceuticals; LensAR; LenSx; Lifeguard Health; Lumineyes, Inc.; Minnesota Eye Consultants, P.A.; NuLens; OCULAR SURGERY NEWS; Ocular Optics; Ocular Therapeutix; Omega Eye Health; Omeros Corporation; Pixel Optics; Quest; Refractec; Revital Vision; Schroder Life Science Venture Fund; Seros Medical, LLC; Sight Path; SLACK Inc. SRxA; Strathspey Crown; Surgijet/Visijet; 3D Vision Systems; TLC Vision; TearLab; Tracey Technologies; Transcend Medical, Inc.; TruVision; Versant; Vision Solutions Technologies Investor: Abbott Medical Optics; Acufocus; AqueSys; Bausch + Lomb; Bio Syntrx; Calhoun Vision, Inc.; Clarity Ophthalmics; Clear Sight; CoDa Therapeutics; Confluence Acquisition Partners I, Inc.; Curveright, LLC.; CXL Ophthalmics, LLC.; EBV Partners; EGG Basket Ventures; Encore; Evision Photography; Evision Medical Laser; Eyemaginations, Inc.; Foresight Venture Fund #3; Fziomed; Glaukos Corporation; HEAVEN Fund; Healthcare Transaction Services; High Performance Optics; Improve Your Vision; LensAR; LenSx; Lifeguard Health; Minnesota Eye Consultants, P.A.; Nisco; NuLens; Ocular Optics; Ocular Therapeutix; Omega Eye Health; OnPoint; One Focus Ventures; Pixel Optics; Quest; Rainwater Healthcare; Refractec; Revision Optics; Revital Vision; SarboxNP; SARcode Corporation; Schroder Life Science Venture Fund; SightPath; Solbeam; Strathspey Crown; Surgijet/Visijet; 3D Vision Systems; TLC Vision; TearLab.; Tracey Technologies; Transcend Medical, Inc; TriPrima; TruVision; Viradax; Vision Solutions Technologies; Wavetec Vision Royalty: Acufocus; Bausch + Lomb; Quest Medical Director: Refractec; Sight Path; TLC Vision Eric Donnenfeld, MD Consultant: Abbott Medical Optics; Acufocus; Allergan; Alcon Laboratories, Inc.; Aquesys; Bausch + Lomb; Better Vision Network; CRST; Elenza; Glaukos; Lacripen; LenSx; Merck; Novabay; Odyssey; Pfizer; PRN; QLT; Sarcode; TearLab; TLC Laser Centers; TrueVision; Wavetec Ownership Interest: Lacripen Thomas John, MD Consultant: Allergan; Bausch + Lomb; BioTissue; iScience Surgical Corp. Royalty: ASICO Inc.; Jaypee – Highlights Medical Publishers Inc. Speakers’ Bureau: Allergan; Bausch + Lomb; iScience Surgical Corp. Part #1: Femtosecond Laser Cataract Surgery Our Surgery Center First femtosecond laser x 2 years Second femtosecond laser x 6 months Many partners and associate surgeons. Varying use of FS laser depending on MD. I have chosen to be very selective and cautious. The current use of FS lasers The Future Uses ? Nucleus Softening with FemtoSecond Laser 2 femtos in laser room, then 3 ORs Alcon LenSx femto laser OptiMedica Catalys femto laser Image shown for educational purposes only Potential Benefits of Femto Phaco Novice / Beginners Perfect rhexis, good incision, lens already chopped, less U/S Speeds up surgery Refractive accuracy? Safety? Imaging? Gives a novice the results of a more experienced surgeon Experienced Surgeon Already have a great rhexis, incision, and phaco chopper May slow things down Refractive accuracy? Safety? Imaging? Perhaps a less pronounced benefit… for now Refractive Accuracy Increased? Or not? Does rhexis morphology matter? Very good manual rhexis Perfect femto-laser rhexis Both overlap the optic edge 360° Refractive Outcomes w FS laser Cionni, ASCRS 2011 Knorz paper 2012: slight advantage to femto FS laser spread: 0.38 D +/- 0.28 D Manual spread: 0.50 D +/- 0.38 D Lawless, JRS Dec 2012: FS laser prediction error: 0.26 D +/- 0.25 D Manual prediction error: 0.23 D +/- 0.16 D Jim Davidson MD, ASCRS 2011 2000 eyes w same monofocal IOL Group 1: 360° capsule overlap Group 2: lacking full 360° overlap No significant difference in refractive outcomes between groups. Manual LRI • Harder to account for differences in corneal pachymetry vs • • Femto LRI OCT guided to exact depth Titrate effect by opening incision later Precision of Arcuate Incisions Arc length & diameter 80% of measured pachy Survey of Panelists Which nomogram do you use for LRIs / AKs? Different for femto vs diamond? Complications of Femto Phaco Current potential complications: Mild: Partial rhexis / tags Incomplete lens fragmentation Subconj hemorrhage Moderate: Anterior capsular tear Misplaced incisions Severe: Posterior capsule tears Posterior lens dislocation A tilted eye => misaligned energy Iris must be centered & parallel to the floor A tilted eye => misaligned energy Iris must be centered & parallel to the floor Partially Cut Capsulorrhexis Complete it with the forceps. Complete it with the forceps. 2 out of first 50 cases = dropped nucleus Air Bubbles: Large pockets of gas between cataract and posterior capsule Do rhexis before lens fragmentation to limit intra-bag pressure increase from gas. Same Aussie Group: First 200 eyes Ant. capsule tear 4.0% Post. capsule tear 3.5% Posterior lens dislocation 2.0% Ant. capsule tags 10.5% Induced miosis 9.5% 1 out of 2 patients need re-docking # docking tries 1.50 Docking the eye to the laser Iris must be centered & parallel to the floor Same Aussie Group: Next 1300 eyes Ant. capsule tear 0.3% Post. capsule tear 0.3% Posterior lens dislocation 0% Ant. capsule tags 1.6% Induced miosis 1.2% 1 out of 20 patients need re-docking # docking tries 1.05 Vision Eye Institute, Chatswood, Australia FS Laser Learning Curve First 200 cases Next 1300 cases Ant. capsule tear 4.0% 0.3% Post. capsule tear 3.5% 0.3% Posterior lens dislocation 2.0% 0% Ant. capsule tags 10.5% 1.6% Induced miosis 9.5% 1.2% # docking tries 1.50 1.05 About 10x more complications in first 200 cases! Learning Curve Every new technology and technique has a unique learning curve. ECCE surgery: No risk of wound burn Uday Devgan MD phaco surgery: New risk of wound burn New complication unique to phaco ultrasound energy. Keratome corneal incision learning curve Beginning resident corneal incision Experienced surgeon corneal incision My learning curve with FS incison My goal: barely nick limbal vessels FS rhexis learning curve is certainly easier than learning to do it with forceps. Future of Femto Phaco? New design accommodating IOLs? Micro-rhexis and lens polymer injection? High intra-bag pressure causing rhexis run-out Pic courtesy of Jamison Engle MD Argentinian Flag Sign Femto Rhexis in < 2 seconds Pic courtesy of Jamison Engle MD Marfan Syn Femto Rhexis Brandon Ayers MD – Wills Eye Intra-stromal Toric IOL marking with Femto-second laser From 30% to 50% depth Case Presentation Pre-op OCT imaging in a truly brunescent cataract. 88 yo w brunescent cataract OD: - dense cataract - no view of post seg OS: - difficult phaco case - dropped nucleus - PPV&L / sulcus IOL FS Laser can’t figure out the posterior capsule contour Pre-existing posterior capsule defect (posterior polar) Dense rock, 88 yo patient, and defect of the posterior capsule! STRESS ! Perfect 5mm rhexis & nucleus softening done with FS laser Lots of OVD behind nucleus: cataract removed & PC hole evident No Vitreous loss, haptics in sulcus, optic buttonholed through rhexis Evolution of Technology 1 GB in 1991 1 GB in 2006 1 GB in 2013 . We’ve come a long way How will cataract surgery evolve in the next 10 years? Only time will tell… Part #2: IOL calculations in short vs. long eyes IOL calc formulae generations 1st generation: do not use Just a simple linear regression, IOL = A – 0.9K - 2.5L 2nd generation: SRK SRK-II do not use Same as SRK but adds a fudge factor for big/small eyes SRK-T, Holladay 1, Hoffer Q Use only K and Axial length to determine ELP use this 3rd generation: 4th generation: Holladay 2, Haigis, Olsen Better ELP prediction w additional data use this Main Source of Error in IOL calcs for Hyperopic Eyes Normal Eye Hyperopic Eye • K values • Axial Length • ELP • Effective • Lens • Position • With a high powered IOL (+30), a small change in ELP gives a big Rx change Small, hyperopic eyes: Shallow AC depth (<3mm) AC depth of 1 mm Small, hyperopic eyes: short axial lengths (<22 mm) Small, hyperopic eyes: ELP: Effective Lens Position Blue arrow indicates the Effective Lens Position (ELP) A more anterior ELP = a lower IOL power required for same Rx A more posterior ELP = a higher IOL power required for same Rx Small, hyperopic eyes: anterior segment size? Data Needed for IOL Calcs Hoffer, Holladay1, SRK/T Holladay K Axial Length 2 K Axial Length White-to-White ACD Lens Thickness Refraction Age IOL calcs in a very small eye (+6.50 hyperope) Another case: Small, hyperopic eyes: Case #1: IOL calcs in small, hyperopic eyes Uday Devgan MD Another case: Small, hyperopic eyes: Case #1: IOL calcs in small, hyperopic eyes Uday Devgan MD Another case: Small, hyperopic eyes: Case #1: IOL calcs in small, hyperopic eyes Uday Devgan MD Another case: Small, hyperopic eyes: IOL Calcs in small, hyperopic Eyes th use 4 gen formulae (Holladay 2, Haigis) IOL calcs in a very long eye (-20.0 D myope) Main Source of Error in IOL calcs for Myopic Eyes Normal Eye • K values • Axial Length • ELP Myopic Eye Staphyloma? • With a low powered IOL (+5), a change in ELP gives about the same Rx post-op Long, myopic eyes: IOL calcs Adjusted AL = 33.32 mm Adjusted AL = 32.82 Normal Ks OU (44ish) Myopic IOL Calcs (AL > 25 mm): Make it easy Stick with Holladay 1 equation may also work well with Holladay 2, but not tested the officially published formula for IOLM & Holladay 1: Adjusted AL = 0.8289 x AL + 4.2663 An easier version of the formula for IOLM & Holladay 1: Adjusted AL = 0.83 x AL + 4.27 Myopic IOL Calcs (AL > 25 mm): Adjusted AL = 0.83 x AL + 4.27 =0.8289xAL+4.2663 Axial Length 25 24.99 25.5 25.40 26 25.82 26.5 26.23 27 26.65 27.5 27.06 28 27.48 28.5 27.89 29 28.30 29.5 28.72 30 29.13 30.5 29.55 31 29.96 31.5 30.38 32 30.79 32.5 31.21 33 31.62 33.5 32.03 34 32.45 34.5 32.86 35 33.28 =0.83xAL+4.27 difference 25.02 0.12% 25.44 0.12% 25.85 0.13% 26.27 0.13% 26.68 0.13% 27.10 0.13% 27.51 0.13% 27.93 0.13% 28.34 0.13% 28.76 0.13% 29.17 0.13% 29.59 0.13% 30.00 0.13% 30.42 0.13% 30.83 0.13% 31.25 0.13% 31.66 0.13% 32.08 0.13% 32.49 0.13% 32.91 0.13% 33.32 0.13% Simplified formula is accurate to within 0.13% = less than 0.1 D difference in IOL power Long, myopic eyes: IOL calcs Do NOT use these calcs! Instead use the WangKoch AL adjustment, then re-calc Long, myopic eyes: re-calc’ed with AL adjustment Long, myopic eyes: Post-Op Refraction Goal of -1.00 IOLM: -10.0 IOL SRK/T (would’ve been hyperopic) Wang-Koch adjustment said -6.0 D IOL Patient ended up -0.75 D SE IOL Calcs in long, myopic Eyes use Wang-Koch Axial Length Adjustment measured AL = 0.83×AL + 4.27 Then plug it into Holladay 1 Part #3: Epi-Retinal Membranes & Cataract Surgery Epi-Retinal Membranes About 7% of patients age 55+ About 20% of patients age 75+ More common in DM, prior RD repair Gass Classification System High risk of CME post-cataract surgery Gass JDM. Macular dysfunction caused by epiretinal membrane contraction. In: Stereoscopic Atlas of Macular Diseases: Diagnosis and Treatment. Vol 2, 4th ed. St Louis, Mo: Mosby; 1997:938-50. Cystoid Macular Edema after CEIOL What are risk factors for CME? Capsule Break / Vitreous Loss / Vitreous traction ERM Diabetic (Especially with prior CSME) Uveitis Retinal Vein Occlusion CME in other eye (50% risk!) When does CME usually present post-op? Henderson BA. Clinical pseudophakic cystoid macular edema. Risk factors for development and duration after treatment. J Cataract Refract Surg. 2007 Sep;33(9):1550-8. Mild ERM + cataract Mild ERM + cataract Enhanced Pic Mild ERM + cataract Pre-Op BCVA = 20/50 Corresponds to level of cataract Mild ERM + cataract Gass Classification 0: “Cellophane Maculopathy” Minimal surface wrinkling No vascular distortion Rx: prolonged NSAIDs post-op Likely to recover good visual acuity after cataract surgery Mild ERM + cataract OCT = normal (other than mild ERM) Go ahead with cataract surgery NSAID / steroid regimen Many studies show benefit of NSAIDs & steroids for CME (off label) 1. Rosetti L, Bujtar E, CastoldiD, Torrazza C, Orzalesi N. Effectiveness of diclofenac eye drops in reducing inflammation and the incidence of cystoid macular edema after cataract surgery. J Cataract Refract Surg 1996;22 (Suppl l):794-99. 2. McColgin AZ, Raizman MB. Efficacy of topical Voltaren in reducing the incidence of post operative cystoid macular edema. Invest Ophthmol Vis Sci. 1999;40:S289. 3. Miyake, K. Masuda and S. Shirato et al., Comparison of diclofenac and fluorometholone in preventing cystoid macular edema after small incision cataract surgery: a multicentered prospective trial. Jpn J Ophthalmol. 2000 Jan-Feb;44(1):58-67. 4. Italian Diclofenac Study Group: Efficacy of diclofenac eyedrops in preventing postoperative inflammation and long-term cystoid macular edema. J Cataract Refract Surg 1997;23:1183-89. 5. Donnenfeld ED, et al. Preoperative ketorolac tromethamine 0.4% in phacoemulsification outcomes: pharmacokinetic-response curve. J Cataract Refract Surg. 2006 Sep;32(9):1474-82. 6. Tauber S, Gessler J, Scott W, Peterson, C, HamletP. The effect of topical Ketorolac 0.4% on cystoid macular edema following routine cataract surgery. Proceedings of the Association for Research in Vision and Ophthalmology (ARVO) Meeting, Fort Lauderdale, Florida, April 30-May 4, 2006. 683. 7. Fry EL, Fry LL. Nepafenac versus Ketorolac tromethamine in the prevention of postoperative cystoid macular edema. Proceedings of the American Society of Cataract & Refractive Surgery (ARCRS) Meeting, San Diego, CA, April 27 – May 2, 2007. R26B. 8. Henderson, BA, et al. Clinical pseudophakic cystoid macular edema. Risk factors for development and duration after treatment. J Cataract Refract Surg. 2007 Sep;33(9):1550-8. 9. Wolf EJ, Braunstein A, Shih C, Braunstein RE. Incidence of visually significant pseudophakic macular edema after uneventful phacoemulsification in patients treated with nepafenac. J Cataract Refract Surg. 2007 Sep;33(9):1546-9. 10. Shimura M, Nakazawa T, Yasuda K, Nishida K. Diclofenac prevents an early event of macular thickening after cataract surgery in patients with diabetes. J Ocul Pharmacol Ther. 2007 Jun;23(3):284-91. 11. Miyake K, et al. The effect of topical diclofenac on choroidal blood flow in early postoperative pseudophakias with regard to cystoid macular edema formation. Invest Ophthalmol Vis Sci. 2007 Dec;48(12):5647-52. 12. Wittpenn. Relationship of retinal thickening and contrast sensitivity in low-risk cataract patients. Proceedings of the American Academy of Ophthalmology, New Orleans, LA, November 10-13, 2007. PO010. 13. Yung CW, et al. The effect of topical ketorolac tromethamine 0.5% on macular thickness in diabetic patients after cataract surgery. Proceedings of the American Academy of Ophthalmology, New Orleans, LA, November 10-13, 2007. PO257. 14. Asano S, et al. Reducing angiographic cystoid macular edema and blood-aqueous barrier disruption after small-incision phacoemulsification and foldable intraocular lens implantation: multicenter prospective randomized comparison of topical diclofenac 0.1% and betamethasone 0.1%. J Cataract Refract Surg. 2008 Jan;34(1):57-63. 15. Heier JS, Topping TM, Baumann W, Dirks MS, Chern S. Ketorolac versus prednisolone versus combination therapy in the treatment of acute pseudophakic cystoid macular edema. Ophthalmology. 2000 Nov;107(11):2034-8;discussion 2039. 16. Rossetti L, Autelitano A. Cystoid macular edema following cataract surgery. Curr Opin Ophthamol. 2000 Feb;11(1):65-72 17. Ray S, D'Amico DJ. Pseudophakic cystoid macular edema. Semin Ophthalmol. 2002 Sep-Dec;17(3-4):167-80. 18. Shalnus R. Topical nonsteroidal anti-inflammatory therapy in ophthalmology. Ophthalmologica. 2003 Mar-Apr;217(2):89-98. 19. O’Brien TP. Emerging guidelines for use of NSAID therapy to optimize cataract surgery patient care. Curr Med Res Opin. 2005 Jul;21(7):1131-7. 20. Gulkilik G et al: Cystoid macular edema after phacoemulsification: Risk factors and effect on visual acuity. Can J Ophthalmol. 2006 Apr;41:699. 21. Kim SJ, Equi R, Bressler NM. Analysis of macular edema after cataract surgery in patients with diabetes using optical coherence tomography. Ophthalmology. 2007 May; 114(5):881-9. Moderate ERM + cataract Moderate ERM + cataract Pre-Op BCVA = 20/160 Doesn’t correspond well to 2+NS cataract (20/50ish) Enhanced Pic Moderate ERM + cataract Pre-Op macular edema on OCT Moderate ERM + cataract Gass Classification 1: “Crinkled Cellophane Maculopathy” Retinal surface wrinkling Vessels pulled / twisted May have pre-existing macular edema Unlikely to recover good visual acuity after cataract surgery Higher CME risk with cataract surgery Moderate ERM + cataract Retinal consultation and possible vitrectomy and membrane peeling prior to cataract surgery If dense cataract, may warrant combined procedure NSAID / steroid regimen Severe ERM + cataract Severe ERM + cataract Enhanced Pic Severe ERM + cataract Pre-Op BCVA = 20/400 Doesn’t correspond well to 2+NS cataract (20/50ish) Severe ERM + cataract Gass Classification 2: “Macular Pucker” Thick membrane (even a cataract surgeon can see it) Extensive retinal surface wrinkling Vessels pulled / twisted into the pucker Has a pucker and maybe even macular hole Definitely need PPV & membrane peeling to recover max vision from cataract surgery Higher CME risk even after PPV & MP Severe ERM + cataract If possible, first do vitrectomy and membrane peeling. Plan later cataract surgery or combined with PPV NSAID / steroid regimen Case Presentation 91 yo w cataract & ERM 2-3+ NS, BCVA 20/50 91 yo cataract + ERM Significant ERM with retinal surface wrinkling noted pre-op pucker 91 yo cataract + ERM Significant macular thickening & ERM seen on OCT OD So I sent her to the retina doc And he says to do the phaco first! Post-op she achieves 20/30-2 Patient happy! Still with ERM Keeping her on the NSAIDs Follow-up with retina doc Epi-Retinal Membranes & CME carefully evaluate retina pre-op benefit of NSAIDs / follow OCT Part #4: Dr Koch’s Cases: Toric IOL Calcs & Posterior Corneal Astigmatism What would you do? A little astigmatism. . . 71 yo female for cataract surgery OS Corneal astigmatism: Atlas: 0.95 D @169° 1.34 D @176° 1.64 D @173° IOLMaster: Lenstar: Which toric would you choose. . . T3 T4 T5 T6 A little astigmatism. . . 71 yo female for cataract surgery OS Pre-op MR: -5.75 + 2.50 x 176 = 20/40 Corneal astigmatism: Atlas: 0.95 D @169° IOLMaster: 1.34 D @176° Lenstar: 1.64 D @173° Any change in which toric you would choose? T3 T4 T5 T6 And the outcome was. . . Atlas: IOLMaster: Lenstar: Alcon SN6AT4@175° implanted for near 0.95 D @169° 1.34 D @176° 1.64 D @173° Correct ~1.5 D corneal astig Post-op one month UCVA: 20/60 MR: -2.25 + 1.00 x 165 =20/20 Astigmatism undercorrected by 1 D Total Corneal Power astig: 2.5D@2 Posterior corneal astig: -0.27D@157 Recommendation #1: To account for the ATR shift with age, we need a new target for postop astigmatism*: Up to 0.4D of WTR astigmatism For most eyes the anticipated amount is much lower Recommendation #2: Account for posterior corneal astigmatism Estimated mean values: 0.5 D in with-the-rule corneas 0.3 D in against-the-rule corneas Recommendation #3 Consider use of the Holladay II Account for the impact on effective IOL toricity of IOL power and ACD Factor in your surgically induced astigmatism Recommendation #4: When feasible, should we measure. . . ?? Preoperative posterior corneal astigmatism ?? Intraoperatively Baylor Toric IOL Nomogram Values in the table are the vector sum of: Anterior corneal astigmatism Surgically induced astigmatism (SIA) 0.7 D Toric IOL WTR (D) ATR (D) 0 ≤ 1.69 (PCRI if >1.00) < 0.39 T3 (1.03) 1.70 – 2.19 0.40*– 0.79 T4 (1.55) 2.20 – 2.69 0.80 – 1.29 T5 (2.06) 2.70 – 3.19 1.30 – 1.79 T6 (2.57) 3.20 – 3.69 1.80 – 2.29 T7 (3.08) 3.70 – 4.19 2.30 – 2.79 T8 (3.60) 4.20 – 4.69 2.80 – 3.29 T9 (4.11) 4.70 – 5.19 3.30 – 3.79 *Especially if specs have more ATR 0.7 D Toric IOL WTR (D) ATR (D) 0 ≤ 1.69 (PCRI if >1.00) < 0.39 0.7 D ZCT150 (1.03) 1.70 – 2.19 0.40*– 0.79 ZCT225 (1.55) 2.20 – 2.69 0.80 – 1.29 ZCT300 (2.06) 2.70 – 3.24 1.30 – 1.79 0.7 D ZCT400 (2.74) 3.25 – 4.00 1.80 – 2.50 *Especially if specs have more ATR Example 1 Cornea: SIA: Use: 3.70 D WTR 0.20 D WTR 3.90 D for IOL toricity Toric IOL WTR (D) ATR (D) T6 (2.57) 3.20 – 3.69 1.80 – 2.29 T7 (3.08) 3.70 – 4.19 2.30 – 2.79 T8 (3.60) 4.20 – 4.69 2.80 – 3.29 Not a T8!! Example 2 Cornea: SIA: Use: 1.90 D ATR 0.20 D WTR 1.70 D for IOL toricity Toric IOL WTR (D) ATR (D) ZCT225 (1.55) 2.20 – 2.69 0.80 – 1.29 ZCT300 (2.06) 2.70 – 3.24 1.30 – 1.79 ZCT400 (2.74) 3.25 – 4.00 1.80 – 2.50 Not a ZCT225!! Conclusion Needs more work Data Accuracy Role of refraction as predictive factor Promising role of: Preoperative measurements Intraoperative aberrometry RK case 68 yo female with prior RK # of incisions: 16 Target for intermediate Toric: Yes or No ?? ASCRS IOL calculator Target: -0.25 -0.5 -0.75 -1.00 more minus? IOL for -1.00? 21 21.5 22 22.5 23 23.5 24 aa ASCRS IOL calculator Target: -1.0 D 22.5 D SN60WF used 5 weeks postop: MR: -3.75 + 0.75 x 176 SE = -3.38 D IOL exchange 22.5 SE = -3.38 D IOL exchange 22.5 SE = -3.38 D Target: -1.0 D 20.5 D SN60WF Post-op 3 weeks MR: pl + 0.25 x 180 SE = +0.13 Keratoconus 64 yrs male with KC Pre-op MR OD: -14.25 + 3.25 x 119 = 20/40 -14.25 + 3.25 x 119 = 20/40 Toric: Yes or No ?? IOL Master with Holladay 1 What IOL power? 5.0 5.5 6.0 6.5 7.0 What toricity? T3 T4 T5 T6 T7 T8 T9 IOL Master with Holladay 1 SN6AT5 7.0 D -1.09 D target POM #3 MR Plano + 2.25 x 103 = 20/20 SE = +1.13 D Needed T9 to get all cyl Hyperope (formerly +2) 78 yrs male Current MR OS Plano + 1.0 x 163 Target -0.25 Lenstar with Holladay 1 Lenstar: -0.26 D Holladay 2: -0.47 D IOLMaster: -0.73 D 24.5 D ZCB00 -0.26 D POW #3 MR: -1.75 + 1.0 x 170 = 20/20 SE = -1.25 D Phakic IOL and Cataract Pre CE/IOL Exam for OS Auto Ks: IOL Master Ks: Manual Ks: 39.25/39.50@115 39.38/39.66 @109 39.50/40.00 @ 99 Biometry (AL): 27.64 What do you do with the incision? Any issues in calculating IOL power? Phakic IOL case 1. 2. 3. Look for site of wound of prior surgery—AVOID! Use the optimized AL (Holladay 1) = 27.18 mm Use a temporal anterior scleral tunnel to minimize surgically induced astigmatism S Uday Devgan MD Uday Devgan MD Toric IOL calcs & Post K Astig post-op target 0.4 D WTR Average post K Astig is 0.5 D for WTR corneas 0.3 D for ATR corneas Holladay 2 factors ACD and IOL power on Toric power If possible: measure post K & use intraoperative aberrometry Part #5: Decentered & Dislocated IOLs Decentered MF IOL 64 yo CE IOL OD done 3 months ago Computer executive UCVA 20/40- OD -0.50+0.50x180 = 20/30 OS mild cataract -2.50 sph = 20/20 Decentered MF IOL – is this ok? How much decentration is tolerable? Pt c/o ghosting of vision. Is this explained by the IOL shift? Hmm, looks more involved that I thought Capsular bag partially open with some vitreous prolapse Some posterior capsular wrinkles right in the middle Normal OCT – no CME Decentered MF IOL - ghosting A fundus photo shows the ghosting of vessels as camera takes pic through decentered MF IOL Higher Risk Surgery – educate pts Additional documentation of extensive patient discussion for more complicated cases. Helps set realistic expectations Decentered IOL with open posterior capsule, vitreous prolapse Plan: • Anterior Vitrectomy • Remove MF IOL • Replace w monofocal IOL Cut IOL 80% down the middle Anterior Vitrectomy & IOL Exchange Implant a threepiece silicone IOL Sulcus placement Monofocal, aspheric Nice result post-op Reasons for an IOL exchange Defective IOL (cracked, calcified) Subluxed IOL Subluxed IOL Really Subluxed IOL Subluxed single piece IOL Severely Dislocated IOL Severe capsule contraction & phimosis Poorly Tolerated AC IOL Really Poorly Tolerated AC IOL Wrong IOL Power Hyperopic Surprise in a post-RK eye Wrong IOL Type for Location (Single-Piece Acrylic IOL in Sulcus) Never place a single piece acrylic IOL in the sulcus!! Iris trans-illumination defects from haptics Sunset of IOL Induced UGH syndrome Plenty of Time to do the Surgery IOL Exchange Technique Cut old IOL in half in AC Insert new IOL first to protect an intact posterior capsule Fold old IOL in half in AC Use IOL folding forceps with spatula to assist Cut old IOL partially & rotate it out of eye IOL twist in AC to roll it Then simply pull it out of the eye IOL exchange due to refractive surprise You can also twist / fold the IOL Done by my senior resident Ehsan Rahimy MD. Idea from Jack Chapman MD. IOL fixation to iris & iris defect repair Sometimes it is straightforward Subluxed IOL & functionally aphakic Check position of IOL at different angles Use red reflex for more details Direct view Retro-illumination Get a sufficient bite of iris tissue Place sutures towards iris periphery Siepser Knot to Suture IOL to Iris An ovoid pupil can be avoided by pulling iris centrally prior to cinching down knots. Round Pupil with Siepser Knots Iris-sutured IOL power = in-the-bag IOL power Thanks to Ike Ahmed MD for this technique. Can also adjust iris at end of case Done by my senior resident David Reed MD. Idea from Ike Ahmed MD. For post-PPV eyes, use an AC maintainer! (25g angiocath works too) Minor trauma is easy to fix IOL Exchange & Iris Repair IOL exchange + iris repair iris defect after ruptured globe Combined surgery: (1) R+R for strabismus, (2) pupilloplasty, and (3) scleral fixation of IOL Good result after 6 weeks of healing Iris defect in a young phakic pt Traumatic airbag injury Any iris repair may nick capsular bag! Wait until cataract develops Use cosmetic contact for now Large iris defects cannot be sutured But lid ptosis can help! Scleral fixated IOL implanted. No iris repair. Patients must appreciate that IOL Exchange: is higher risk than cataract surgery is less predictable is stressful for the surgeon too “I’ll do it as a favor to you, but understand that it will take a week off my life!” Part #6: New astigmatism after cataract surgery 6 months post-op Cataract Surgery Post-Op Month 6 after CE IOL Slow decline in vision x 1 month POM #1: +0.25 -0.50 x100 = 20/20 POM #6: -0.50 -2.00 x100 = 20/50 Refractive cyl increased by 1.50 D Spherical equivalent more myopic by 1.5 D Clean topography – not much K cyl Clean topography – not much K cyl Therefore the new astigmatism must be coming from the IOL. IOL tilted and forward shifted Capsule Issues causing IOL Shift Posterior Capsule Fibrotic Bands Myopic shift and induced cylinder YAG laser capsulotomy as well as to break fibrous bands and adjust IOL position Another patient history of mild K cyl Pre-Op Ks: 42.75 / 43.50 OD 0.75 D of K cyl Moderate cataracts Otherwise normal exam Post-Op Ks: 41.75 / 44.00 OD POW#1 = 20/20 & plano routine CEIOL POM#1 2.25 D of K cyl -1.25+2.50x71 = 20/20- vision What happened? EBMD causing K irregularity Epithelial Basement Membrane Dys Dry Eye may limit visual results Poor Tear Film = Poor Vision New astigmatism after CE IOL: Look for Corneal Causes Ocular Look Tilt surface for IOL Causes / shift of IOL Part #7: An interesting lens calculation challenge… 60 yo c/o poor vision OD x 1 yr 3+ NS cataract Central opalescence 4-RK cuts + 1 AK Prior-RK IOL calcs Fudge factor method add this much to IOL power 2-cut RK = add +0.5 D 4-cut RK = add +1.0 D 8-cut RK = add +2.0 D 12-cut RK = add +3.0 D 16-cut RK = add +4.0 D 32-cut RK = ??? There must be a better way !?!?! 60 yo c/o poor vision OD x 1 yr He wants cataract surgery soon, before his vacation to Europe He has old records! Lucky me. “Hey doc, that means that you can get my vision back to perfect, right?” Records Review 1992: 4-cut RK + AK 2010: LASIK done for hyperopic shift 2011: aborted LASIK enhancement 2011: PRK enhance for more hyperopia 2012: PRK enhance again but now for myopic shift from NS IOL Calcs Straight calcs: Avg K power: Atlas Topo: IOLM/Lenstar: +21.0 Holladay = -0.32 +23.5 +22.0 +22.0 Intra-Op Aberrometry My calcs said +22.0 Aberrometry says +20.0 for plano Hmm, let’s just add a pinch more power Use +20.5 D IOL Make sure post-op Ks go back to baseline before evaluating Rx Pre-Op K Ks & Rx avg = 38.50 Post-Op K Ks & Rx avg = 38.00 I anticipate that the Rx will get about 0.5 D more myopic with time Prior-RK IOL calcs RK incisions swell during phaco Wait until the post-op K values return back to the pre-op K values before you judge the Rx Pre-op K value = 38.50 Post-op D#1 K = 36.50 Post-op W#2 K = 38.00 Post-op M#2 K = 38.50 Rx +1.50 Rx 0.00 Rx -0.50 Post-RK Still / Post-LASIK / Post-PRK no magic method Stick with iol.ascrs.org and aim myopic Intra-Op Though aberrometry is looking better some corneas aren’t easily read Femto Phaco May help in tough cases white Arcuate incisions More predictable than diamonds but toric IOLs best Learning Curve Low cataracts, weak zonules, real-time imaging complication rate with experience Refractive accuracy? Femto vs. manual rhexis – not sure, time will tell Short vs Long Eye IOL Calcs Use only theoretical formulae 3rd gen (SRK-T, Holladay 1, Hoffer Q) or 4th gen Never use SRK-I or SRK-II Short, hyperopic eyes Use 4th gen formulae (Holladay 2, Haigis) Long, myopic eyes Use Wang Koch adjustment: AL = 0.83×AL + 4.27 measured then plug into Holladay 1 Epi-Retinal Membranes & CME About 20% of patients age 75+ About 7% of patients age 55+ Gass Classification 0=mild, Correlate Cataract to degree of poor vision If 1=crinkled, 2=pucker mild cataract and severe vision decrease, beware! Benefit of NSAIDs Prolonged treatment and serial OCTs Toric IOL calcs & post K Astig Post-op target = up to 0.4 D WTR What is Average Posterior K Astigmatism? 0.5 Holladay 2 helps accuracy It D for WTR corneas / 0.3 D for ATR corneas factors in ACD and IOL power on toric power Consider newer technology to help measure posterior cornea / intra-op aberrometry Decentered / Dislocated IOLs Decentered MFIOLs may induce ghosting Ghosting IOL exchange is a reasonable choice Higher seen on fundus photos risk than cataract surgery Iris suturing is time consuming But not that technically challenging New Astigmatism after CEIOL Corneal sources of astigmatism Ocular surface disease, EBMD, dry eye, etc IOL sources of astigmatism Tilted / shifted IOL, PCO IOL Calcs after RK, LASIK, PRK No easy answers iol.ascrs.org and aim for post-op myopia Consider newer technology to help intra-op aberrometry – new future devices If you remember just ONE thing… This slide is © Uday Devgan, MD Learn from your mistakes! 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