Purpose: To compare structure-function relationships based on the Drasdo and Sjöstrand retinal ganglion cell displacement models. Methods: Single eyes from 305 patients with glaucoma and 55 heathy participants were included in this multicenter, cross-sectional study. The ganglion cell and inner plexiform layer (GCIPL) thickness was measured using spectral domain optical coherence tomography. Visual field measurements were performed using the Humphrey 10-2 test. All A-scan pixels (128 × 512 pixels) were allocated to the closest 10-2 location with both displacement models using degree and millimeter scales. Structure-function relationships were investigated between GCIPL thickness and corresponding visual sensitivity in nonlong (160 eyes) and long (200 eyes) axial length (AL) groups. Results: In both the nonlong and long AL groups, compared with the no-displacement model, both the Drasdo and the Sjöstrand models showed that the structure-function relationship around the fovea improved (P < 0.05). The magnitude of improvement in the area was either comparable between the model or was larger for the Drasdo model than the Sjöstrand model (P < 0.05). Meanwhile, structure-function relationships outside the innermost retinal region that were based on the Drasdo and Sjöstrand models were comparable to or were even worse than (in the case of the Drasdo model) those obtained using the no-displacement model. Conclusions: Structure-function relationships evaluated based on both the Drasdo and Sjöstrand models significantly improved around the fovea, particularly when using the Drasdo model. This was not the case in other areas.
Purpose: To compare structure-function relationships based on the Drasdo and Sjöstrand retinal ganglion cell displacement models. Methods: Single eyes from 305 patients with glaucoma and 55 heathy participants were included in this multicenter, cross-sectional study. The ganglion cell and inner plexiform layer (GCIPL) thickness was measured using spectral domain optical coherence tomography. Visual field measurements were performed using the Humphrey 10-2 test. All A-scan pixels (128 × 512 pixels) were allocated to the closest 10-2 location with both displacement models using degree and millimeter scales. Structure-function relationships were investigated between GCIPL thickness and corresponding visual sensitivity in nonlong (160 eyes) and long (200 eyes) axial length (AL) groups. Results: In both the nonlong and long AL groups, compared with the no-displacement model, both the Drasdo and the Sjöstrand models showed that the structure-function relationship around the fovea improved (P < 0.05). The magnitude of improvement in the area was either comparable between the model or was larger for the Drasdo model than the Sjöstrand model (P < 0.05). Meanwhile, structure-function relationships outside the innermost retinal region that were based on the Drasdo and Sjöstrand models were comparable to or were even worse than (in the case of the Drasdo model) those obtained using the no-displacement model. Conclusions: Structure-function relationships evaluated based on both the Drasdo and Sjöstrand models significantly improved around the fovea, particularly when using the Drasdo model. This was not the case in other areas.
Authors: Janelle Tong; Jack Phu; David Alonso-Caneiro; Sieu K Khuu; Michael Kalloniatis Journal: Transl Vis Sci Technol Date: 2022-05-02 Impact factor: 3.048
Authors: Janelle Tong; Jack Phu; David Alonso-Caneiro; Sieu K Khuu; Michael Kalloniatis Journal: Transl Vis Sci Technol Date: 2022-04-01 Impact factor: 3.048
Authors: Sara Giammaria; Glen P Sharpe; Oksana Dyachok; Paul E Rafuse; Lesya M Shuba; Marcelo T Nicolela; Jayme R Vianna; Balwantray C Chauhan Journal: Sci Rep Date: 2022-06-23 Impact factor: 4.996
Authors: Giovanni Montesano; Giovanni Ometto; Ruth E Hogg; Luca M Rossetti; David F Garway-Heath; David P Crabb Journal: Transl Vis Sci Technol Date: 2020-09-14 Impact factor: 3.283