The purpose of the current study was to investigate relationships between maxillary sinus (MS) dimensions and the bony structures associated with the infraorbital nerve (ION). Computed tomographic scans of 87 adult crania (174 sides) from four morphologically diverse groups (West Africans, East Africans, North Asians, Europeans) were utilized. Seven primary variables were collected: infraorbital canal (IOC) type; infraorbital foramen (IOF) shape; distance from the foramen rotundum to IOF (FR‐IOF); distance from the posterior wall of the infraorbital groove to IOF (IOG‐IOF); and MS length, breadth, and height. Chi‐square analyses indicated a significant association between IOC‐type and IOF‐shape (Pearson chi‐square = 12.710; p‐value = .013), with the most common pattern being oval IOFs and Type‐I IOCs (45.68% of the sample; 74/162 sides). Analysis of covariance indicated a significant effect of ancestry (F = 8.333; p < .001) and MS length (F = 15.406; p < .001) on IOG‐IOF distance. Ordinal regression analyses indicated that MS length (Wald chi‐square = 7.103; p = .008) also maintained a significant effect on IOC‐type, while multinominal regression analyses indicated that none of the measured parameters had a significant effect on IOF‐shape. These results have clinical implications: recognizing IOC‐type and IOF‐shape relative to the MS is important to avoid ION damage during medical procedures. Overall, this study found most individuals possess Type‐I IOCs (housed in the maxillary sinus roof) and oval‐shaped IOFs. Most aspects of the ION pathway, including IOC‐type and IOF‐shape, were not influenced by ancestry or sex. However, antero‐posteriorly longer MSs tend to possess Type‐III IOCs protruding into the sinus, which could lead to surgical complications.