ABSTRACT
This is an editorial based on personal experience dealing with the fear, uncertainty, and doubt regarding artificial intelligence (AI) and radiology (my field of specialization). In the end, the most important tools to engage with these are education, research, and policy or regulation with the ultimate goal of forging trust, not just in the AI but also in the people that help make this technology possible.
ABSTRACT
OBJECTIVE: To determine normal Filipino values of globe positioning in the orbit using Computed Tomography. METHODS: 58 individuals were divided into age groups below 20 and 20 and above. CT images with constant settings were obtained. The distance between the lateral orbital rims (A), the shortest distance between line A and the corneal center (B), medial and lateral orbital rims (C),and the distance between line C and the corneal apex crossing the center of the lens (D) were measured, and the BIA and D/C ratios calculated. The mean, median, and range in millimeters were grouped in terms of age, sex,and laterality. RESULTS: Between the age groups, there was a significant difference in the average values of A, B,and C, but not the B/A and D/C ratios. Gender comparison for group 2 showed statistical difference in the average values of Band C,but not the A, D, BIA and D/C ratios. All the parameters in both groups showed no significant difference when the right and left eyes were compared. CONCLUSION: Age group comparison showed statistically significant difference in the average values of A, B,and C which may be attributable to growth changes. Gender comparison in group 2 showed significant difference in Band C. Males had a greater degree of protrusion than females. The right and left eye showed no significant difference in any of the measured parameters. Throughout the study, both BIA and D/C ratios showed no significant difference among gender and age suggesting that such ratios may be used as an index for setting normal globe positioning in the orbit.