BACKGROUND AND PURPOSE: Recently, Lee et al reported a new grading system for the lumbar spinal foraminal stenosis. They considered the type of stenosis, the amount of fat obliteration, and the presence of nerve root compression. Our aim was to evaluate whether a new MR imaging grading system correlated with symptoms and neurologic signs and could replace the previous grading system. MATERIALS AND METHODS: We examined 91 patients (M/F = 49:42; mean age, 50 years) who visited our institution and underwent MR imaging of the L-spine and were evaluated by 2 musculoskeletal radiologists. The presence and grade of lumbar foraminal stenosis at the maximal narrowing point was assessed according to the new grading system suggested by Lee et al (Lee system) and the Wildermuth grading system (Wildermuth system). Results were correlated with clinical manifestations and neurologic physical examination. Statistical analysis was performed by using κ statistics, categoric regression analysis, and nonparametric correlation analysis (Spearman correlation). RESULTS: Interobserver agreement in the grading of foraminal stenosis between the 2 readers was substantially correlated (κ of Lee system = 0.767, κ of Wildermuth system = 0.734). The Rs for reader 1 and reader 2 between the Lee system and the Wildermuth system were 0.880 and 0.885, between Lee system and PNM were 0.715 and 0.604, and between the Wildermuth system and PNM were 0.800 and 0.680. For patients younger than 50 years of age, the R between the Lee and Wildermuth systems was higher than that for patients 50 years or older, but the Rs between the grading system and PNM were lower in the younger group than in the older group. The Rs of the Wildermuth system with PNM were higher in the older group than in the younger group; the differences between the Rs of the Lee system with PNM and the Wildermuth system with PNM were higher in the older group (0.016 [young] versus 0.130 [old] and 0.008 versus 0.107). CONCLUSIONS: Interobserver agreement of the Lee system was slightly higher than the Wildermuth system and substantially correlated. Both systems are good for evaluation of lumbar spinal foraminal stenosis, but the Lee system showed slightly better interobserver agreement and good clinical correlation in the younger group of patients.
BACKGROUND AND PURPOSE: Recently, Lee et al reported a new grading system for the lumbar spinal foraminal stenosis. They considered the type of stenosis, the amount of fat obliteration, and the presence of nerve root compression. Our aim was to evaluate whether a new MR imaging grading system correlated with symptoms and neurologic signs and could replace the previous grading system. MATERIALS AND METHODS: We examined 91 patients (M/F = 49:42; mean age, 50 years) who visited our institution and underwent MR imaging of the L-spine and were evaluated by 2 musculoskeletal radiologists. The presence and grade of lumbar foraminal stenosis at the maximal narrowing point was assessed according to the new grading system suggested by Lee et al (Lee system) and the Wildermuth grading system (Wildermuth system). Results were correlated with clinical manifestations and neurologic physical examination. Statistical analysis was performed by using κ statistics, categoric regression analysis, and nonparametric correlation analysis (Spearman correlation). RESULTS: Interobserver agreement in the grading of foraminal stenosis between the 2 readers was substantially correlated (κ of Lee system = 0.767, κ of Wildermuth system = 0.734). The Rs for reader 1 and reader 2 between the Lee system and the Wildermuth system were 0.880 and 0.885, between Lee system and PNM were 0.715 and 0.604, and between the Wildermuth system and PNM were 0.800 and 0.680. For patients younger than 50 years of age, the R between the Lee and Wildermuth systems was higher than that for patients 50 years or older, but the Rs between the grading system and PNM were lower in the younger group than in the older group. The Rs of the Wildermuth system with PNM were higher in the older group than in the younger group; the differences between the Rs of the Lee system with PNM and the Wildermuth system with PNM were higher in the older group (0.016 [young] versus 0.130 [old] and 0.008 versus 0.107). CONCLUSIONS: Interobserver agreement of the Lee system was slightly higher than the Wildermuth system and substantially correlated. Both systems are good for evaluation of lumbar spinal foraminal stenosis, but the Lee system showed slightly better interobserver agreement and good clinical correlation in the younger group of patients.
Authors: S Wildermuth; M Zanetti; S Duewell; M R Schmid; B Romanowski; A Benini; T Böni; J Hodler Journal: Radiology Date: 1998-05 Impact factor: 11.105
Authors: Young Uk Kim; Yu-Gyeong Kong; Jonghyuk Lee; Yuseon Cheong; Se hun Kim; Hyun Kyu Kim; Jun Young Park; Jeong Hun Suh Journal: Eur Spine J Date: 2015-08-21 Impact factor: 3.134
Authors: S Notohamiprodjo; R Stahl; M Braunagel; P M Kazmierczak; K M Thierfelder; K M Treitl; S Wirth; M Notohamiprodjo Journal: Eur Radiol Date: 2016-12-17 Impact factor: 5.315
Authors: Maximilian Reinhold; Christian Ederer; Benjamin Henninger; Alexandra Eberwein; Christian Kremser Journal: Eur Spine J Date: 2014-10-09 Impact factor: 3.134
Authors: Kyu H Lee; Hee J Park; So Y Lee; Eun C Chung; Myung H Rho; Hyunchul Shin; Young J Kwon Journal: Br J Radiol Date: 2016-03-23 Impact factor: 3.039
Authors: Elisabeth Sartoretti; Michael Wyss; Alex Alfieri; Christoph A Binkert; Cyril Erne; Sabine Sartoretti-Schefer; Thomas Sartoretti Journal: Sci Rep Date: 2021-06-07 Impact factor: 4.379