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Phacoemulsification some Basic Ideas…
Khalid M. Al-Arfaj, MD Dammam University
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1-Quiz … 2- lecture … 3-Vedio …
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Basic Phaco Settings
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Basic Phaco Settings Sculpting 60 / 80 / 24 US, Vac, Asp.
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Quadrant Removal/Burst
45 / 400 / 37 BW
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Quadrant Removal/Pulse
45 / 376 / PR 6
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Horizontal Choping
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Vertical Choping Courtesy of David Chang, MD
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Evolution of IOL Calculation Formulas
Clinical History Formula Used before 1975 Simple formula to calculate IOL power P = 18 + (1.25 x Ref) Poor accuracy >50% had >1D error “9 D surprise” – some huge errors due to the inaccuracy of calculating refractive error prior to cataract formation
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Formulas and Their Derivations
Regression Formulas Derived from retrospective computer analysis of postoperative data from a large number of patients SRK Formula P = A – 2.5L – 0.9K Derived by Sanders, Retzlaff and Kraff1 Required measurements L – Axial length (mm) K – Corneal power (D) A – A Constant 1 Sanders DR, Retzlaff J, Kraff MC. Arch Ophthalmol 1983;101:
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Formulas and Their Derivations
SRK and early Theoretical formulas fairly accurate for eyes of moderate length Inaccuracies occurred at extremes of axial length
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Modern Theoretical Formulas
Most important concept is postop Anterior Chamber Depth is related to IOL placement in the eye, not to preop ACD All have a personalizable factor to improve accuracy of calculations Holladay/Holladay 2 S factor – personalized surgeon factor SRK/T A constant – based on multiple variables (IOL manufacturer, implant style, surgeon’s technique, etc.) Hoffer Q Personalized ACD value
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Modern Theoretical Formulas
All based on Thin Lens Optics
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Modern Theoretical Formulas
Found to be more accurate than older formulas All basically the same in predicting IOL power in average eyes Differences occur at extremes of AL and K’s Personalized factors based on optimal cases (PCIOL, intact capsule) Must change when surgical plan changes (Sulcus PCIOL or ACIOL)
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Axial Length Measurement
Current methods Contact A Scan Biometry Optical Biometry Partial Coherence Interferometry
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A Scan Biometry Use of A scan ultrasound to measure axial length
Contact
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Normal Phakic Contact A Scan
C1 – Anterior surface of Cornea C2 – Posterior surface of Cornea L1 – Anterior surface of Lens L2 – Posterior surface of Lens R – Retina
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Optical Coherence Biometer
IOL Master Fine beam of infrared laser used to measure axial length
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ultrasound vs. optical biometry
Ultrasound A-Scan 10MHz sound wave IOLMaster 780nm laser beam ILM RPE averaging across foveal cup reflection at Bruch's membrane Foveal thickness is about 150µ (±20) from ages 10 to 80 years. The parafoveal area is between 0.10 mm and 0.16 mm thicker.
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alignment precision: ultrasound vs. optical
Ultrasound A-Scan 10MHz sound wave A-scan US does not measure to the exact center of the fovea, but samples an area around it due to the broad angle of the U/S beam and fixation light. ? fixation blob IOLMaster 780nm laser beam IOLMaster uses a point fixation light, measures along visual axis to the RPE at foveal center and then adds back the foveal thickness. fixation point
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Comparison of three methods
myopia hyperopia partial coherence interferometry non-contact laser device phakic, pseudophakic, phakic IOLs posterior staphyloma, silicone oil not limited by wavelength or retinal thickness variations myopia hyperopia applanation A-scan falsely short axial length variable corneal compression corneal micro-abrasions highly operator dependent source of IOL power errors 90% 80% 70% 60% 50% 40% 30% 20% 10% 90% 80% 70% 60% 50% 40% 30% 20% 10% spherical equivalent prediction error (D) Data courtesy of Warren E. Hill, MD, FACS
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Pearls and Pitfalls Measure axial length of both eyes
Take multiple readings of each to assure accuracy Compare eyes Shouldn’t be a significant disparity in axial lengths unless a significant difference in refraction Axial Length measure too short - myopic surprise measure too long - hyperopic surprise Normal Eye: 1.0 mm error 2.5 to 3.0 D surprise Short Eye: 1.0 mm error 7.5 D surprise Keratometry 1D curvature error 1D surprise
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What is your target postop refraction?
IOL Power Selection What is your target postop refraction? Examine patient data Discuss with patient Match other eye? Monovision? Binocular distance? Binocular near?
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How do you choose IOL? Material Configuration Delivery system Silicone
IOL Choices How do you choose IOL? Material Silicone Acrylic PMMA Configuration One piece Three piece Delivery system Fold vs. Inject
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Basic IOL Design Features
Haptic Edge Optic
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Basic IOL Design Features
Haptic 1-piece 3-piece diameter Edge Optic
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Haptic Design 1 13.0
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Basic IOL Design Features
Haptic Edge square rounded Optic
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Square Rounded anterior reduced PCO reduced PCO dysphotopsias?
Edge Design Square reduced PCO dysphotopsias? Rounded anterior reduced PCO reduced internal reflections
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Optic Design Material Focality/Sphericity Diameter Rigid Foldable
PMMA Foldable acrylic silicone collamer Focality/Sphericity Monofocal spheric toric wavefront aspheric Multifocal accomodative pseudoaccomodative Diameter 5.0 to 7.0 mm 6.0
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Consider matching IOL design features with individual patient needs
Which lens? Consider matching IOL design features with individual patient needs
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High myopia Considerations: IOL size, power
Lens choice High myopia Considerations: IOL size, power longer haptic span, larger optic diameter low power
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High hyperopia Considerations: IOL size, power
Lens choice High hyperopia Considerations: IOL size, power smaller haptic span, smaller optic diameter high power IOL
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Presbyopia Considerations: spectacle independence
Lens choice Presbyopia Considerations: spectacle independence multifocal IOL (accomodative, pseudoaccomodative) monovision using two monofocal IOLs
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Astigmatism (corneal)
Lens choice Astigmatism (corneal) Considerations: correct corneal astigmatism Toric IOL
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Improved functional vision
Lens choice Improved functional vision Considerations: maximize contrast sensitivity aspheric
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Macular degeneration Considerations: block toxic UV light
Lens choice Macular degeneration Considerations: block toxic UV light blue blocking chromophore
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Pseudoexfoliation Considerations: Long term zonular stability
Lens choice Pseudoexfoliation Considerations: Long term zonular stability avoid silicone material (capsular phimosis)
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Crystalens “ Accommodating” Lens –single optic
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Crystalens
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Crystalens
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The good Less capsule issues
The Multifocals ReZoom & ReSTOR The good Less capsule issues Known material Good near vision The Bad: Unwanted photopsia Contrast sensitivity
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ReZoom
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AcrySof® ReSTOR® Apodized Diffractive IOL
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Anatomy of the Apodized Diffractive IOL
Step heights decrease peripherally from 1.3 – 0.2 microns Central 3.6 mm diffractive structure A +4.0 add at lens plane equaling +3.2 at spectacle plane
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Patient Selection Pre-operative Exclusion Criteria
Subjective Exclusion Hypercritical patients Patients with unrealistic expectations Occupational night drivers Medical Exclusion >1.0 D of corneal astigmatism? Pre-existing ocular pathology Previous refractive patients
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Patient Satisfaction Crystalens, ReZoom, and ReSTOR all have clinical studies extolling the level of spectacle independence, excellent near, intermediate, and far vision of patients with these lenses.
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Future Technology The HumanOptics IOL ( 1CU) is a single optic accommodative lens continuing in clinical trials in Europe. (Image courtesy of HumanOptics, Ophthal Clinics of N. Amer. March 2006.)
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Future Technology Accommodative intraocular lenses with two optics. Gross photographs showing the injection of the Synchrony lens (Visiogen). Source: Liliana Werner, M.D., Ph.D. and Nick Mamalis,M.D.
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Sarfarazi Lens Reproduced from Ophthal Clinics of N. Amer. March 2006 courtesy of Bausch & Lomb The Sarfarazi IOL, currently licensed by Bausch & Lomb, is comprised of a minus-powered optic positioned posteriorly to a positive-powered optic joined by compressible bridges.
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Other Technology Lens replacement with flexible polymers injected into the capsular bag.
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