Abstract
Background and Objectives: Knowledge of the internal carotid artery’s (ICA) morphometric features is influential in outlining surgical and minimally invasive procedures in the neurovascular field. Many studies have shown divisive numbers regarding the ICA’s caliber, with the measuring point of the artery sometimes differing. This study presents ICA dimensions based on computed tomography angiography in each of its seven segments as per Bouthillier’s classification, correlating vascular dimensions with anthropometric parameters. Materials and Methods: A thorough CT angiography analysis was performed on 70 patients with internal carotid vessels unaffected by atherosclerotic disease. The extracranial part of the ICA was measured in four locations—carotid bulb, post-bulbar dilation, at its cervical midpoint, and below its entrance into the carotid foramen. Single landmarks were used for measurements in the intracranial segments. ICA length was assessed in the neck region and also in the cranial cavity. Craniometric measurements were performed on sagittal and coronal CT reconstructions. Patient height was taken into consideration. Results: The largest ICA portion is near its origin in the carotid sinus area (7.59 ± 1.00 mm), with a steep decline in caliber following its extracranial course. Distal ICA presented values somewhat similar to its proximal intracranial segment diameters (4.67 ± 0.47 mm). Dimensions of the ICA in the intracranial segments start from a value of 4.53 ± 0.47 mm and decrease by approximately 40% when reaching the origin of the middle cerebral artery (2.71 ± 0.37 mm), showing a marked decrease in caliber after the emergence of the most critical collateral artery, the ophthalmic branch. The length of the ICA varies between genders, with the male ICA being about 10 mm longer in total length than female ICA; this difference is also correlated with patient height and skull dimensions. Conclusions: Both intra- and extracranial ICA have variable dimensions and length related to gender and anthropometric parameters, with no significant differences obtained concerning side or age.
Highlights
Internal carotid arteries represent the main vessels responsible for the arterial vascularization of the brain, their importance in the context of circulatory disorders that may occur in this part of the body
We propose highlighting the morphometry of the internal carotid artery on computed tomography (CT) angiographies for better knowledge of the anatomy of this vessel, including the caliber and length of the intracranial portion, according to Bouthillier’s segmentation [18], while evaluating whether reported gender differences are, secondary to differences in the height and skull size of the patients
Regarding the C2–C7 segments, we did not find statistically significant differences related to laterality
Summary
Internal carotid arteries represent the main vessels responsible for the arterial vascularization of the brain, their importance in the context of circulatory disorders that may occur in this part of the body. Knowledge of their morphology, especially their origin and morphometric variants (caliber, length), is fundamental. More females than males have a stroke, with females carrying a higher lifetime risk of stroke. The lifetime risk of stroke in populations 55 to 75 years of age is one in five for females and one in six for males [2]
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