Integration of anatomical and radiological analysis suggests more segments in the human kidney.

Clin Anat. 2019 Jan;32(1):46-52. doi: 10.1002/ca.23286. Epub 2018 Oct 31.

Macchi VPicardi EEEPorzionato AMorra AFicarra VLoukas MShane Tubbs RDe Caro R.


Abstract

An increasing number of observations have called the general scheme of five renal segments into question: anatomists, radiologists, and surgeons have reported discrepancies between Graves's scheme and morphological observations. The aims of the present study are: (1) to assess the correspondence between a virtual and a real vascular cast of the kidney; (2) to analyze the arterial anatomy with reference to the renal segments. Fifteen kidneys were injected with acrylic resins to obtain vascular casts, which were also analyzed by computed tomography. A mean of 6.3 (range 4-8) avascular fissures was found, indicating a mean of 7.3 segments (range 5-9). In the superior and middle territories there was a single segment in 4 (26.7%) and 8 (53.3%) cases, respectively, and there were two segments in 11 (73.3%) and in 7 (46.7%) cases, respectively. In the inferior territory there was a single segment in two cases (13.3%), two segments in nine (60%), and three segments in four (26.7%). A mean segmental volume of 550.5 mm3 was calculated; the posterior (1,030.1 mm3 , 28.9%) and inferior (450.3 mm3 , 24.2%) segments were the largest. More third order branches were identified in the inferior segments than in the other segments (three branches of the inferior segmental artery in 26.6%). According to these data the inferior segment occupies the inferior pole, extending both anteriorly and posteriorly. In conclusion, the high correspondence between a virtual and a real vascular cast permits more segments to be identified than those described by Graves, and the volume of each segment can be calculated. Clin. Anat., 2018.

© 2018 Wiley Periodicals, Inc.

KEYWORDS:

3D printing; partial nephrectomy; renal segments; segmental renal arteries