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Corneal Biomechanical Assessment using Dynamic Ultra High-Speed Scheimpflug Technology Non-Contact Tonometry (UHS-ST NCT): Preliminary Results R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group Renato Ambrósio Jr., MD, PhD* Diogo L. Caldas, MD Isaac C. Ramos, MD Rodrigo T. Santos, MD Leonardo N. Pimentel, MD Cynthia Roberts, PhD* Michael W. Belin, MD* Dr. Ambrósio & Dr. Belin are consultants for Oculus Optikgeräte GmbH (Wetzlar, Germany) and have received research funding and©travel reimbursements R. Ambrósio Jr, MD, PhD - 2011 Introduction: Evolution on Corneal Propedeutics “Propedeutics” refers (in Medicine) to the collection of data about a patient by observations and examinations. Advances are recognized on the ability for architecture or goemetrical characterization of the cornea Keratometry, Keratoscopy, Videokeratography, Corneal Topography, Corneal Tomography R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group © R. Ambrósio Jr, MD, PhD - 2011 Corneal Biomechanics: Relevance R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group From Geometrical and Optical understanding, the next step is biological evaluation: healing response and biomechanics Ectasia mysteries* in Refractive Surgery had highlight the need for corneal biomechanical understanding (*ie: cases with no risk factors that develop ectasia after LASIK) Also to Customize Refractive Corneal Treatments; correctly measure IOP (intraocular pressure) and to possibly predict glaucoma risk Corneal biomechanical evaluations were limited to in vitro studies and to mathematical finite element models until the Ocular Response Analyzer (ORA-Reichert, Depew) in 2005 New techniques are under development for evaluating biomechanics This e-Poster presents a new system – The Corvis ST (Oculus, Wetzlar, Germany) with preliminary clinical results. © R. Ambrósio Jr, MD, PhD - 2011 The Oculus Corvis ST Ultra High-Speed (UHS ST) Scheimpflug Technology takes 4,330 frames/sec with 8mm horizontal coverage Monitors corneal deformation response to a symmetrically metered air pulse R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group 1. Natural; (Ingoing Phase) 2. First Applanation (1st A) Momentum; 3 and 4. Ingoing Concavity Phase; 5. Highest Concavity Momentum; 6. Oscillation Period; (Outgoing Phase); 7. Second Applanation (2nd A) Momentum; 8. After Second Applanation; 9. Natural Back 1st Applanation, Highest Concavity and 2nd Applanation: Time and Length; Maximum Deformation; Maximum Velocity In and Out; Thickness © R. Ambrósio Jr, MD, PhD - 2011 Corvis ST: First Studies Experiment involving contact lenses mounted on an artifical pressurized chamber (Caldas et al., ePoster ASCRS 2011) found that the deformation response is influenced by lens properties and chamber pressure. The inspection of the actual deformation process details corneal characterization, which has a potential for distinguishing normal (A, B) and keratoconus (C, D) corneas (see video* PosterASCRS2011_clip_RAmbrosio). Natural and Highest Deformation Momentum in a Normal (A, B) and a Keratoconic (C, D) Cornea R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group © R. Ambrósio Jr, MD, PhD - 2011 Corvis ST: Clinical Parameters IOP: is the NCT measurement based on the 1st Applanation 1st A-time: is the time from starting until the first applanation HC-time: time from starting until Highest Concavity is reached 2nd A-time: time from starting until the second applanation 1st A length: cord length of the first applanation 2nd A length: cord length of the second applanation Def Amp: maximum amplitude at the apex (highest concavity) W-Dist: distance of the two “knee’s” at highest concavity (HC) Curvature Rad HC: central concave curvature at HC Curvature Rad normal: initial central convex curvature Vin: corneal speed during the first applanation moment Vout: corneal speed during the second applanation moment R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group © R. Ambrósio Jr, MD, PhD - 2011 Clinical Study The Corvis ST was utilized to assess corneal deformation response in one eye from 71 keratoconic patients and in one eye from 178 normal patients. Clinical diagnosis was based on the complete eye exam, Placidodisk based corneal topography and Pentacam Corneal Tomography. Statistically significant distributions for all parameters (MannWhitney, p<0.05), but with significant overlap and AUC (area under the ROC curves) between 0.673 and 0.852 100 Rio de Janeiro Corneal Tomography and Biomechanics Study Group Wilcoon Rank Sum (Mann- Whitney Test) IOP: 1st A Time: 2nd A Time: 1st A Length(max): 2nd A Length(max): Curv. Rad. Normal: Curv. Rad. HC: Pachy Apex: W-Dist.: Def.Amp.(max): Vin: Vout: < 0.0001 < 0.0001 0.0006 0.0037 0.0008 0.4126 < 0.0001 < 0.0001 0.0191 < 0.0001 < 0.0001 0.0001 80 Sensitivity R. Ambrósio Jr & 1st A Length(max): 1st A Time: 2nd A Length(max): 2nd A Time: Curv, Rad, HC: Def,Amp,(max): 60 40 20 0 0 20 40 60 80 100 100-Specificity © R. Ambrósio Jr, MD, PhD - 2011 Corvis Combo1: combined parameter Joint work with “Instituto de Computação” at UFAL (Universidade Federal de Alagoas*) to develop a combined parameter (Corvis Combo1) based on a linear regression analysis, considering the effects of IOP on deformation response parameters 0.033 * IOP - 0.004 * Pachy Apex - 0.448 * 1st A Time - 0.049 * HC Time + 0.093 * 2nd A Time + 0.026 * 1st A Length(max) - 0.105 * 2nd A Length(max) + 0.208 * Def Amp (max) - 0.619 * W-Dist - 0.021 * Curv, Rad, HC - 0.101 * Curv, Rad, Normal - 0.525 * Vin - 0.166 * Vout + 7.952 combo1 100 80 Sensitivity R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group Ave SD Sensitivity: 87,3 Specificity: 89,3 Criterion : >0,2527 N -0,00801 0,218348 KC 0,506829 0,26691 60 40 20 0 0 20 40 60 80 100 100-Specificity * Prof. Aydano P. Machado & J. M. Lyra, MD, PhD © R. Ambrósio Jr, MD, PhD - 2011 Clinical Study The Corvis ST Combo1 performed statistically better (p<0.05; Pairwise ROC comparisons) than the individual parameters from the Corvis ST to distinguish 71 keratoconic eyes and 178 normal eyes (one eye per patient included) This approach has been complementary to enhance the diagnosis of ectasia susceptibility. AUC SE a 95% CI b 0,802 0,0313 0,747 to 0,850 1st_A_Time_ Def_Amp__max__ 0,749 0,0355 0,691 to 0,802 Pachy_Apex_ 0,852 0,0265 0,801 to 0,893 Curv__Rad__HC_ 0,852 0,0290 0,802 to 0,894 Curv__Rad__Normal_ 0,810 0,0329 0,755 to 0,857 1st A Time: CorvisST Combo1 0,931 0,0191 0,892 to 0,959 Def,Amp,(max): a DeLong et al., 1988 b Binomial exact Pachy Apex: 100 80 Sensitivity R. Ambrósio Jr & Sensitivity Rio de Janeiro Corneal Tomography and Biomechanics Study Group 100 60 80 Curv, Rad, HC: Curv, Rad, Normal: combo1 1st A Time: Def,Amp,(max): Pachy Apex: Curv, Rad, HC: Curv, Rad, Normal: combo1 40 60 20 40 0 0 20 0 20 40 60 80 100 100-Specificity © R. Ambrósio Jr, MD, PhD - 2011 Clinical Correlations There were very significant correlations (Spearman, p<0.001) between IOP and 1st Applanation Time (rho=0.94), 2nd Applanation Time (rho=-0.73), Deformation Amplitude (rho=-0.80), W-Dist (rho=-0.66), Curv Rad HC (rho=0.45), Vin (rho=-0.49), Vout (0.38) and Combo1 (rho=-0.44) There were significant correlations (Spearman, p<0.01) between Pachymetry at the Apex and IOP (rho=0.37), 1st Applanation Time (rho=0.4) and Lengh (rho=-0.18 ), W-Dist (rho=-0.25), Curv Rad HC (rho=0.48), Vout (rho=0.3), and Combo1 (rho=-0.64) There was a positive correlation between age and HC Time (Spearman, p=0.0039; rho=0.22) R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group © R. Ambrósio Jr, MD, PhD - 2011 Enhanced Screening for Ectasia Susceptibility Biomechanical data from Corvis ST enhances the capability to detect very mild cases of ectasia and also help to characterize stable cases with asymmetric bow tie and inferior steepening (ABT/IS). 26 eyes diagnosed as Forme Fruste Keratoconus (FFKC), with normal front curvature map while the fellow eye has keratoconus were examined. 25 eyes with ABT/IS but with no other clinical or tomographic sign of ectasia were examined. Combo1 R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group 24/178 (13%) normal eyes >0.21 9/71 (13%) keratoconic eyes <0.21 21/26 (80%) eyes with FFKC >0.21 8/25 (32%) ABT/IS cases >0.21 Kruskall-Wallis Test Normal Normal KC FFKC KC <0.05 FFKC <0.05 NS ABT/IS NS <0.05 <0.05 see video* PosterASCRS2011_clip_RAmbrosio Ave SD N -0,00801 0,218348 171 FFK1 0,345529 0,196043 26 KC 0,506829 0,26691 71 ABT 0,133745 0,181624 25 © R. Ambrósio Jr, MD, PhD - 2011 Corvis ST: Conclusions The inspection of corneal deformation during NCT enables biomechanical characterization The deformation is severely influenced by IOP Combo1 from Corvis ST provides clinically relevant parameter to enhance sensitivity and specificity to detect ectasia. ABT with no Ectasia (A,B) x FFKC (C, D) R. Ambrósio Jr & Rio de Janeiro Corneal Tomography and Biomechanics Study Group This approach is complementary to Corneal Tomography with the Pentacam for screening refractive candidates Combo 1=0.16 Combo 1=0.31 © R. Ambrósio Jr, MD, PhD - 2011