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DOI: 10.1055/a-2565-9000
Inter- and Intrarater Reliability of the Manjila and Semaan Classification System when Assessing Jugular Bulb Position
Funding None.
Abstract
Objectives
This study evaluates the inter- and intrarater reliability of the Manjila and Semaan classification system for the anatomical position of the jugular bulb. The classification system, proposed in 2018, aims to address inconsistencies in reporting that impact communication between radiologists and skull base surgeons and affect surgical planning.
Design
Bilateral jugular bulb positions on 50 consecutive computed tomography (CT) venography examinations were assessed by two neuroradiology attending physicians, two neuroradiology fellows, and two radiology residents.
Setting
The study was conducted in a clinical radiology setting on an Ambra PACS workstation.
Participants
Consecutive patients who underwent clinical CT venography examinations between August 3, 2021, and January 29, 2022, and met the inclusion criteria were included in the analysis.
Main Outcome Measures
Inter- and intrarater reliability were assessed using kappa values, Kendall's coefficient of concordance (W), and Spearman's rho.
Results
Interrater agreement, measured by kappa values, showed moderate to substantial agreement for bilateral jugular bulb position types. Kendall's W indicated substantial to almost-perfect interrater agreement. Intrarater agreement was almost perfect according to kappa values and was high in monotonicity, as indicated by Spearman's rho.
Conclusion
The Manjila and Semaan classification system demonstrated high inter- and intrarater reliability across a spectrum of experience levels. Adopting this classification could enhance clinical communication and improve surgical planning.
Keywords
high-riding jugular bulb - internal auditory canal - jugular bulb anatomy - jugular dehiscence - jugular diverticulum - pulsatile tinnitus - semicircular canal - skull basePrevious Presentation
Portions of this research were presented as a poster at the 55th Annual Western Neuroradiological Society Meeting, Scottsdale, Arizona, October 19–22, 2023.
Publikationsverlauf
Eingereicht: 30. September 2024
Angenommen: 21. März 2025
Artikel online veröffentlicht:
21. April 2025
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References
- 1 Friedmann DR, Eubig J, McGill M, Babb JS, Pramanik BK, Lalwani AK. Development of the jugular bulb: a radiologic study. Otol Neurotol 2011; 32 (08) 1389-1395
- 2 Friedmann DR, Le BT, Pramanik BK, Lalwani AK. Clinical spectrum of patients with erosion of the inner ear by jugular bulb abnormalities. Laryngoscope 2010; 120 (02) 365-372
- 3 Cömert E, Kiliç C, Cömert A. Jugular bulb anatomy for lateral skull base approaches. J Craniofac Surg 2018; 29 (07) 1969-1972
- 4 Hwa TP, Husain Q, Brant JA, KLalwani A. Jugular bulb anomalies involving the internal auditory canal: a case series. Ann Otol Rhinol Laryngol 2021; 130 (08) 970-975
- 5 Manjila S, Bazil T, Kay M, Udayasankar UK, Semaan M. Jugular bulb and skull base pathologies: proposal for a novel classification system for jugular bulb positions and microsurgical implications. Neurosurg Focus 2018; 45 (01) E5
- 6 Figueiredo EG, Welling LC, Rabelo NN. Neurocritical Care for Neurosurgeons: Principles and Applications. Springer International Publishing AG; 2021
- 7 Juelke E, Butzer T, Yacoub A, Wimmer W, Caversaccio M, Anschuetz L. Assessment of jugular bulb variability based on 3D surface models: quantitative measurements and surgical implications. Surg Radiol Anat 2023; 45 (03) 315-319
- 8 Xia K, Lei P, Liu Y. et al. Comparison of radiological abnormalities between the jugular bulb and the vestibular aqueduct in patients with Ménière's disease. Front Neurol 2023; 14: 1184232
- 9 Shao KN, Tatagiba M, Samii M. Surgical management of high jugular bulb in acoustic neurinoma via retrosigmoid approach. Neurosurgery 1993; 32 (01) 32-36 , discussion 36–37
- 10 Vachata P, Petrovicky P, Sames M. An anatomical and radiological study of the high jugular bulb on high-resolution CT scans and alcohol-fixed skulls of adults. J Clin Neurosci 2010; 17 (04) 473-478
- 11 Park JJ, Shen A, Loberg C, Westhofen M. The relationship between jugular bulb position and jugular bulb related inner ear dehiscence: a retrospective analysis. Am J Otolaryngol 2015; 36 (03) 347-351
- 12 Prasad KC, Basava CH, Gopinathan PN, Induvarsha G, Harshita RT, Ashok BK. A revisit to high jugular bulb: a newer clinical grading. Indian J Otolaryngol Head Neck Surg 2018; 70 (04) 527-530
- 13 Woo CK, Wie CE, Park SH, Kong SK, Lee IW, Goh EK. Radiologic analysis of high jugular bulb by computed tomography. Otol Neurotol 2012; 33 (07) 1283-1287
- 14 Freitas CAF, Santos LRMD, Santos AN, Amaral Neto ABD, Brandão LG. Anatomical study of jugular foramen in the neck. Braz J Otorhinolaryngol 2020; 86 (01) 44-48
- 15 Digge P, Solanki RN, Shah DC, Vishwakarma R, Kumar S. Imaging modality of choice for pre-operative cochlear imaging: HRCT vs. MRI temporal bone. J Clin Diagn Res 2016; 10 (10) TC01-TC04
- 16 Vaid S, Vaid N, Manikoth M, Zope A. Role of HRCT and MRI of the temporal bone in predicting and grading the degree of difficulty of cochlear implant surgery. Indian J Otolaryngol Head Neck Surg 2015; 67 (02) 150-158
- 17 Sim J, Wright CC. The kappa statistic in reliability studies: use, interpretation, and sample size requirements. Phys Ther 2005; 85 (03) 257-268
- 18 Busby LP, Courtier JL, Glastonbury CM. Bias in radiology: the how and why of misses and misinterpretations. Radiographics 2018; 38 (01) 236-247
- 19 Friedmann DR, Eubig J, Winata LS, Pramanik BK, Merchant SN, Lalwani AK. A clinical and histopathologic study of jugular bulb abnormalities. Arch Otolaryngol Head Neck Surg 2012; 138 (01) 66-71