Diniz-Filho Alberto

Malek Davina A, Diniz-Filho Alberto, Boer Erwin R, Medeiros Felipe A

Glaucoma patients with faster visual field loss showed worsening divided attention during driving simulation, indicating increased risk for driving performance decline.

Daga Fábio B, Boer Erwin R, Diniz-Filho Alberto, Elhosseiny Ahmed, Jammal Alessandro A, Tavares Ivan M et al.

Glaucoma patients exhibited slower reaction times to simulated driving hazards, worsening with greater visual field loss. This suggests driving simulators could help assess driving safety in glaucoma.

Brandão-de-Resende Camilo, Alcântara Liliane de Abreu Rosa de, Vasconcelos-Santos Daniel Vítor, Diniz-Filho Alberto

Teleglaucoma offers remote glaucoma care, but widespread adoption requires clear regulation, demonstrated cost-effectiveness, and safety studies to integrate it effectively into clinical practice.

Zangalli Camila S, Jammal Alessandro A, Reis Alexandre S C, Ayub Gabriel, Diniz-Filho Alberto, Paranhos Augusto et al.

This study compared MRW and RNFLT for early/moderate glaucoma diagnosis, finding both measurements offer comparable diagnostic performance, suggesting their similar utility in clinical practice.

Nishida Takashi, Moghimi Sasan, Wu Jo-Hsuan, Chang Aimee C, Diniz-Filho Alberto, Kamalipour Alireza et al.

This study found that faster initial retinal vessel density loss, measured by OCTA, predicts faster subsequent visual field loss in glaucoma, highlighting OCTA's potential to identify rapid progressors.

Mursch-Edlmayr Anna S, Ng Wai Siene, Diniz-Filho Alberto, Sousa David C, Arnold Louis, Schlenker Matthew B et al.

AI shows promise in diagnosing glaucoma and detecting progression using various tests, offering a future adjunct to clinical decision-making and improving care delivery and access.

Susanna Bianca N, Ogata Nara G, Daga Fábio B, Susanna Carolina N, Diniz-Filho Alberto, Medeiros Felipe A

This study found ORA's corneal-compensated IOP (IOPcc) best predicted glaucoma visual field loss, suggesting it's a superior measure for predicting progression by accounting for corneal factors.

Daga Fábio B, Gracitelli Carolina P B, Diniz-Filho Alberto, Medeiros Felipe A

This study found preperimetric glaucoma patients, despite structural nerve damage, do not report impaired vision-related quality of life, unlike those with visual field loss. Early diagnosis offers a crucial window for intervention.

Gracitelli Carolina P B, Zangwill Linda M, Diniz-Filho Alberto, Abe Ricardo Y, Girkin Christopher A, Weinreb Robert N et al.

African descent glaucoma patients showed higher visual field variability, delaying progression detection. This may explain their increased glaucoma-related vision impairment, highlighting the need for tailored monitoring.

Suh Min Hee, Zangwill Linda M, Manalastas Patricia Isabel C, Belghith Akram, Yarmohammadi Adeleh, Akagi Tadamichi et al.

This study found deep microvasculature dropout is strongly linked to γPPA (exposed scleral flange) in glaucoma, suggesting this specific PPA type indicates higher vascular risk.

Susanna Carolina N, Diniz-Filho Alberto, Daga Fábio B, Susanna Bianca N, Zhu Feilin, Ogata Nara G et al.

This study found lower corneal hysteresis (CH) significantly increases the risk of developing glaucoma in suspicious eyes. CH is a valuable risk factor for identifying patients prone to glaucomatous vision loss.

Yarmohammadi Adeleh, Zangwill Linda M, Manalastas Patricia Isabel C, Fuller Nathanael J, Diniz-Filho Alberto, Saunders Luke J et al.

OCT-A detected reduced retinal vessel density in POAG eyes *before* visual field loss, suggesting it could aid early glaucoma detection by revealing microvascular damage.

Abe Ricardo Y, Diniz-Filho Alberto, Costa Vital P, Wu Zhichao, Medeiros Felipe A

This study found faster visual field loss and worse baseline vision strongly predict future vision-related disability in glaucoma patients, highlighting the importance of monitoring progression.

Diniz-Filho Alberto, Delano-Wood Lisa, Daga Fábio B, Cronemberger Sebastião, Medeiros Felipe A

This study found cognitive decline is linked to increased visual field variability in glaucoma patients. Monitoring cognition may improve visual field progression assessment.

Daga Fábio B, Macagno Eduardo, Stevenson Cory, Elhosseiny Ahmed, Diniz-Filho Alberto, Boer Erwin R et al.

Glaucoma patients struggled with complex, allocentric VR wayfinding tasks, demonstrating that visual field loss impairs spatial navigation. VR offers a promising tool for assessing functional vision in glaucoma.

Nakanishi Masaki, Wang Yu-Te, Jung Tzyy-Ping, Zao John K, Chien Yu-Yi, Diniz-Filho Alberto et al.

A portable BCI device objectively detected glaucoma-related visual field loss more accurately than standard perimetry, offering a promising, objective, and potentially portable diagnostic tool.

Wu Zhichao, Saunders Luke J, Daga Fábio B, Diniz-Filho Alberto, Medeiros Felipe A

This study found more frequent visual field testing (e.g., twice yearly) detects glaucoma progression faster, especially for rapid loss, offering a good balance for clinical practice.

Yarmohammadi Adeleh, Zangwill Linda M, Diniz-Filho Alberto, Saunders Luke J, Suh Min Hee, Wu Zhichao et al.

OCT-A showed reduced vessel density in both affected and seemingly healthy hemiretinae of glaucoma patients, correlating with visual field damage. This suggests OCT-A may detect early glaucoma damage.

Suh Min Hee, Zangwill Linda M, Manalastas Patricia Isabel C, Belghith Akram, Yarmohammadi Adeleh, Medeiros Felipe A et al.

This study found deep retinal microvasculature dropout in glaucoma is linked to focal lamina cribrosa defects, worse vision, and lower blood pressure, indicating severe disease and potential systemic factors.

Yarmohammadi Adeleh, Zangwill Linda M, Diniz-Filho Alberto, Suh Min Hee, Yousefi Siamak, Saunders Luke J et al.

OCT-A vessel density strongly correlated with glaucoma visual field loss, even independent of nerve structure. This suggests OCT-A is promising for glaucoma management, emphasizing vascular factors in the disease.

Suh Min Hee, Zangwill Linda M, Manalastas Patricia Isabel C, Belghith Akram, Yarmohammadi Adeleh, Medeiros Felipe A et al.

Glaucoma patients with focal lamina cribrosa defects showed significantly lower OCT-A vessel density, even with similar disease severity, suggesting these defects impact ocular blood flow.

Diniz-Filho Alberto, Abe Ricardo Y, Zangwill Linda M, Gracitelli Carolina P B, Weinreb Robert N, Girkin Christopher A et al.

This study found higher intraocular pressure correlated with faster retinal nerve fiber layer loss on OCT. This supports using OCT to monitor IOP-lowering treatment effectiveness in glaucoma.

Baig Saif, Diniz-Filho Alberto, Wu Zhichao, Abe Ricardo Y, Gracitelli Carolina P B, Cabezas Eric et al.

This study found that glaucoma patients with faster visual field loss rates are significantly more likely to report falls, highlighting the importance of monitoring progression for fall risk assessment.

Abe Ricardo Y, Diniz-Filho Alberto, Zangwill Linda M, Gracitelli Carolina P B, Marvasti Amir H, Weinreb Robert N et al.

This study found that structural OCT detects early glaucoma progression better, while functional SAP is superior for advanced disease, guiding clinicians on test utility across the disease spectrum.

Yarmohammadi Adeleh, Zangwill Linda M, Diniz-Filho Alberto, Suh Min Hee, Manalastas Patricia Isabel, Fatehee Naeem et al.

OCT-A vessel density effectively differentiated glaucoma from healthy eyes, showing similar diagnostic accuracy to RNFL thickness, suggesting its utility in assessing glaucoma-related tissue damage.