Lower Pole Anatomy and Mid-renal-zone Classification Applied to Flexible Ureteroscopy: Experimental Study Using Human Three-dimensional Endocasts

Overview

Journal Surg Radiol Anat

Specialties Anatomy & Histology
General Surgery
Radiology

Date 2015 Jun 6

PMID 26044783

Citations 14

Authors

Bruno Marroig

Luciano Alves Favorito

Marco A Fortes

Francisco J B Sampaio

Affiliations

Soon will be listed here.

Abstract

Purpuse: The aim of this study was to analyze the anatomy of the inferior pole collecting system and the mid-renal-zone classification in human endocasts applied to flexible ureteroscopy.

Methods: 170 three-dimensional polyester resin endocasts of the kidney collecting system were obtained from 85 adult cadavers. We divided the endocasts into four groups: A1--kidney midzone (KM), drained by minor calices (mc) that are dependent on the superior or the inferior caliceal groups; A2--KM drained by crossed calices; B1--KM drained by a major caliceal group independent of both the superior and inferior groups; and B2--KM drained by mc entering directly into the renal pelvis. We studied the number of calices, the angle between the lower infundibulum and renal pelvis and the angle between the lower infundibulum and the inferior mc (LIICA). Means were statistically compared using ANOVA and the unpaired T test (p < 0.05).

Results: We found 57 (33.53 %) endocasts of group A1; 23 (13.53 %) of group A2; 59 (34.71 %) of group B1; and 31 (18.23 %) of group B2. The inferior pole was drained by four or more calices in 84 cases (49.41 %), distributed into groups as follows: A1 = 35 cases (41.67 %); A2 = 18 (21.43 %); B1 = 22 (26.19 %); and B2 = 9 (10.71 %). Perpendicular mc were observed in 15 cases (8.82 %). We did not observe statistical differences between the LIICA in the groups studied.

Conclusions: Collector systems with kidney midzone drained by minor calices that are dependent on the superior or on the inferior caliceal groups presented at least two restrictive anatomical features. The mid-renal-zone classification was predictive of anatomical risk factors for lower pole ureteroscopy difficulties.

Citing Articles

Illumination matters part I: comparative analysis of light sources and illumination in flexible ureteroscopy-fundamental findings from a PEARLS analysis.

Kwok J, De Coninck V, Corrales M, Sierra A, Panthier F, Ventimiglia E World J Urol. 2024; 42(1):355.

PMID: 38796790 PMC: 11128383. DOI: 10.1007/s00345-024-05037-7.

Illumination matters Part II: advanced comparative analysis of flexible ureteroscopes in a kidney model by PEARLS.

Kwok J, Panthier F, De Coninck V, Ventimiglia E, Barghouthy Y, Danilovic A World J Urol. 2024; 42(1):298.

PMID: 38709327 PMC: 11074033. DOI: 10.1007/s00345-024-04987-2.

Illumination matters part IV: blackout and whiteout in flexible ureteroscopy - first report on a phenomenon observed by PEARLS.

Kwok J, De Coninck V, Panthier F, Kamkoum H, Pauchard F, Shrestha A World J Urol. 2024; 42(1):294.

PMID: 38704777 PMC: 11070394. DOI: 10.1007/s00345-024-04988-1.

Prognostic Factors for Residual Lithiasis in Patients With Staghorn Calculi Undergoing Percutaneous Nephrolithotomy in the Maya Region of Yucatan, Mexico: A Case-Control Study.

Garcia-Chairez L, Franco-Gonzalez C, Gonzalez-Guillermo C, Mendez-Atoche M, Sosa-Olivares C, Cruz Nuricombo E Cureus. 2024; 16(3):e57052.

PMID: 38681280 PMC: 11050729. DOI: 10.7759/cureus.57052.

Illumination matters Part III: Impact of light obstruction on illuminance from flexible ureteroscopes - a comparative PEARLS analysis.

Kwok J, Ventimiglia E, De Coninck V, Sierra A, Panthier F, Corrales M World J Urol. 2024; 42(1):188.

PMID: 38520528 PMC: 10960769. DOI: 10.1007/s00345-024-04910-9.

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