Table 1.
Top documents ranked by annual citations/total citations.
| References | Title | Year | Source title | Annual citations | Document type |
|---|---|---|---|---|---|
| Donahue et al. (33) | Guidelines for automated preschool vision screening: a 10-year, evidence-based update | 2013 | Journal of AAPOS | 16.27 | Proceedings paper |
| Chen et al. (34) | Strabismus recognition using eye-tracking data and convolutional neural networks | 2018 | Journal of Healthcare Engineering | 7.17 | Article |
| Arnold et al. (35) | AAPOS uniform guidelines for instrument-based pediatric vision screen validation 2021 | 2022 | Journal of AAPOS | 6.50 | Article |
| Chen et al. (36) | Eye-tracking-aided digital system for strabismus diagnosis | 2018 | Healthcare Technology Letters | 5.33 | Article |
| Pundlik et al. (37) | Development and preliminary evaluation of a smartphone app for measuring eye alignment | 2019 | Translational Vision Science & Technology | 5.20 | Article |
| Reid et al. (38) | Artificial intelligence for pediatric ophthalmology | 2019 | Current Opinion in Ophthalmology | 4.80 | Review |
| Miao et al. (39) | Virtual reality-based measurement of ocular deviation in strabismus | 2020 | Computer Methods and Programs in Biomedicine | 4.50 | Article |
| Yehezkel et al. (40) | Automated diagnosis and measurement of strabismus in children | 2020 | American Journal of Ophthalmology | 3.50 | Article |
| Ji et al. (41) | Eye and mouth state detection algorithm based on contour feature extraction | 2018 | Journal of Electronic Imaging | 3.17 | Article |
| Strianese (42) | Update on Graves disease: advances in treatment of mild, moderate and severe thyroid eye disease | 2017 | Current Opinion in Ophthalmology | 3.14 | Review |
| References | Title | Year | Source title | Total citations | Document type |
| Donahue et al. (33) | Guidelines for automated preschool vision screening: a 10-year, evidence-based update | 2013 | Journal of AAPOS | 179 | Proceedings paper |
| Ben Simon et al. (43) | Strabismus after deep lateral wall orbital decompression in thyroid-related orbitopathy patients using automated Hess screen | 2006 | Ophthalmology | 51 | Article |
| Schaeffel (44) | Kappa and Hirschberg ratio measured with an automated video gaze tracker | 2002 | Optometry and Vision Science | 49 | Article |
| Chen et al. (34) | Strabismus recognition using eye-tracking data and convolutional neural networks | 2018 | Journal of Healthcare Engineering | 43 | Article |
| Han et al. (45) | Quantification of heterophoria and phoria adaptation using an automated objective system compared to clinical methods | 2010 | Ophthalmic and Physiological Optics | 40 | Article |
| Chen et al. (36) | Eye-tracking-aided digital system for strabismus diagnosis | 2018 | Healthcare Technology Letters | 32 | Article |
| Hunter et al. (46) | Pediatric vision screener 1: instrument design and operation | 2004 | Journal of Biomedical Optics | 30 | Proceedings paper |
| Ransbarger et al. (47) | Results of a community vision-screening program using the Spot photoscreener | 2013 | Journal of AAPOS | 27 | Article |
| Pundlik et al. (37) | Development and preliminary evaluation of a smartphone app for measuring eye alignment | 2019 | Translational Vision Science & Technology | 26 | Article |
| Reid et al. (38) | Artificial intelligence for pediatric ophthalmology | 2019 | Current Opinion in Ophthalmology | 24 | Review |