TY - JOUR
T1 - The BONSAI (Brain and Optic Nerve Study with Artificial Intelligence) deep learning system can accurately identify pediatric papilledema on standard ocular fundus photographs
AU - BONSAI (Brain and Optic Nerve Study with Artificial Intelligence) group
AU - Lin, Mung Yan
AU - Najjar, Raymond P.
AU - Tang, Zhiqun
AU - Cioplean, Daniela
AU - Dragomir, Mihaela
AU - Chia, Audrey
AU - Patil, Ajay
AU - Vasseneix, Caroline
AU - Peragallo, Jason H.
AU - Newman, Nancy J.
AU - Biousse, Valérie
AU - Milea, Dan
AU - Fraser, Clare L.
AU - Micieli, Jonathan A.
AU - Costello, Fiona
AU - Étienne Bénard-Séguin, null
AU - Yang, Hui
AU - Mun Chan, Carmen Kar
AU - Cheung, Carol Y.
AU - Chan, Noel C. Y.
AU - Hamann, Steffen
AU - Gohier, Philippe
AU - Vautier, Anaïs
AU - Rougier, Marie-B. nédicte
AU - Chiquet, Christophe
AU - Vignal-Clermont, Catherine
AU - Hage, Rabih
AU - Khanna, Raoul Kanav
AU - Chau Tran, Thi Ha
AU - Lagrèze, Wolf Alexander
AU - Jonas, Jost B.
AU - Ambika, Selvakumar
AU - Fard, Masoud Aghsaei
AU - la Morgia, Chiara
AU - Carbonelli, Michele
AU - Barboni, Piero
AU - Carelli, Valerio
AU - Romagnoli, Martina
AU - Amore, Giulia
AU - Nakamura, Makoto
AU - Fumio, Takano
AU - Petzold, Axel
AU - de Buy Wenniger l.J., Maillette
AU - Kho, Richard
AU - Fonseca, Pedro L.
AU - Bikbov, Mukharram M.
AU - Ting, Daniel
AU - Loo, Jing Liang
AU - Tow, Sharon
AU - Singhal, Shweta
N1 - Publisher Copyright: © 2024 American Association for Pediatric Ophthalmology and Strabismus
PY - 2024/2/1
Y1 - 2024/2/1
N2 - Background: Pediatric papilledema often reflects an underlying severe neurologic disorder and may be difficult to appreciate, especially in young children. Ocular fundus photographs are easy to obtain even in young children and in nonophthalmology settings. The aim of our study was to ascertain whether an improved deep-learning system (DLS), previously validated in adults, can accurately identify papilledema and other optic disk abnormalities in children. Methods: The DLS was tested on mydriatic fundus photographs obtained in a multiethnic pediatric population (<17 years) from three centers (Atlanta-USA; Bucharest-Romania; Singapore). The DLS's multiclass classification accuracy (ie, normal optic disk, papilledema, disks with other abnormality) was calculated, and the DLS's performance to specifically detect papilledema and normal disks was evaluated in a one-vs-rest strategy using the AUC, sensitivity and specificity, with reference to expert neuro-ophthalmologists. Results: External testing was performed on 898 fundus photographs: 447 patients; mean age, 10.33 (231 patients ≤10 years of age; 216, 11-16 years); 558 normal disks, 254 papilledema, 86 other disk abnormalities. Overall multiclass accuracy of the DLS was 89.6% (range, 87.8%-91.6%). The DLS successfully distinguished “normal” from “abnormal” optic disks (AUC 0.99 [0.98-0.99]; sensitivity, 87.3% [84.9%-89.8%]; specificity, 98.5% [97.6%-99.6%]), and “papilledema” from “normal and other” (AUC 0.99 [0.98-1.0]; sensitivity, 98.0% [96.8%-99.4%]; specificity, 94.1% (92.4%-95.9%)]. Conclusions: Our DLS reliably distinguished papilledema from normal optic disks and other disk abnormalities in children, suggesting it could be utilized as a diagnostic aid for the assessment of optic nerve head appearance in the pediatric age group.
AB - Background: Pediatric papilledema often reflects an underlying severe neurologic disorder and may be difficult to appreciate, especially in young children. Ocular fundus photographs are easy to obtain even in young children and in nonophthalmology settings. The aim of our study was to ascertain whether an improved deep-learning system (DLS), previously validated in adults, can accurately identify papilledema and other optic disk abnormalities in children. Methods: The DLS was tested on mydriatic fundus photographs obtained in a multiethnic pediatric population (<17 years) from three centers (Atlanta-USA; Bucharest-Romania; Singapore). The DLS's multiclass classification accuracy (ie, normal optic disk, papilledema, disks with other abnormality) was calculated, and the DLS's performance to specifically detect papilledema and normal disks was evaluated in a one-vs-rest strategy using the AUC, sensitivity and specificity, with reference to expert neuro-ophthalmologists. Results: External testing was performed on 898 fundus photographs: 447 patients; mean age, 10.33 (231 patients ≤10 years of age; 216, 11-16 years); 558 normal disks, 254 papilledema, 86 other disk abnormalities. Overall multiclass accuracy of the DLS was 89.6% (range, 87.8%-91.6%). The DLS successfully distinguished “normal” from “abnormal” optic disks (AUC 0.99 [0.98-0.99]; sensitivity, 87.3% [84.9%-89.8%]; specificity, 98.5% [97.6%-99.6%]), and “papilledema” from “normal and other” (AUC 0.99 [0.98-1.0]; sensitivity, 98.0% [96.8%-99.4%]; specificity, 94.1% (92.4%-95.9%)]. Conclusions: Our DLS reliably distinguished papilledema from normal optic disks and other disk abnormalities in children, suggesting it could be utilized as a diagnostic aid for the assessment of optic nerve head appearance in the pediatric age group.
UR - http://www.scopus.com/inward/record.url?scp=85184225323&partnerID=8YFLogxK
U2 - 10.1016/j.jaapos.2023.10.005
DO - 10.1016/j.jaapos.2023.10.005
M3 - Article
C2 - 38216117
SN - 1091-8531
VL - 28
JO - Journal of AAPOS
JF - Journal of AAPOS
IS - 1
M1 - 103803
ER -