دورية أكاديمية
Transcanal Transpromontorial Approaches to the Internal Auditory Canal: A Systematic Review.
| العنوان: | Transcanal Transpromontorial Approaches to the Internal Auditory Canal: A Systematic Review. |
|---|---|
| المؤلفون: | Palmisciano P; Department of Neurosurgery, University of Cincinnati College of Medicine, Cincinnati, Ohio, USA., Doyle EJ 3rd; Department of Otolaryngology Head and Neck Surgery, University of Cincinnati College of Medicine, Cincinnati, Ohio, USA., Hoz SS; Department of Neurosurgery, University of Cincinnati College of Medicine, Cincinnati, Ohio, USA., Cass D; Department of Neurosurgery, University of Cincinnati College of Medicine, Cincinnati, Ohio, USA., Samy RN; Department of Neurosurgery, University of Cincinnati College of Medicine, Cincinnati, Ohio, USA.; Department of Otolaryngology Head and Neck Surgery, University of Cincinnati College of Medicine, Cincinnati, Ohio, USA., Andaluz N; Department of Neurosurgery, University of Cincinnati College of Medicine, Cincinnati, Ohio, USA., Zuccarello M; Department of Neurosurgery, University of Cincinnati College of Medicine, Cincinnati, Ohio, USA. |
| المصدر: | The Laryngoscope [Laryngoscope] 2023 Nov; Vol. 133 (11), pp. 2856-2867. Date of Electronic Publication: 2023 Apr 20. |
| نوع المنشور: | Systematic Review; Journal Article; Review |
| اللغة: | English |
| بيانات الدورية: | Publisher: Wiley-Blackwell Country of Publication: United States NLM ID: 8607378 Publication Model: Print-Electronic Cited Medium: Internet ISSN: 1531-4995 (Electronic) Linking ISSN: 0023852X NLM ISO Abbreviation: Laryngoscope Subsets: MEDLINE |
| أسماء مطبوعة: | Publication: <2009- >: Philadelphia, PA : Wiley-Blackwell Original Publication: St. Louis, Mo. : [s.n., 1896- |
| مواضيع طبية MeSH: | Ear, Inner*/surgery , Ear, Inner*/pathology , Neuroma, Acoustic*/surgery , Neuroma, Acoustic*/pathology, Humans ; Retrospective Studies ; Endoscopy/methods ; Paralysis |
| مستخلص: | Objective: Exclusive endoscopic (EETTA) and expanded (ExpTTA) transcanal transpromontorial approaches have shown promising results for treating internal auditory canal (IAC) lesions. We reviewed the literature to answer the question: "Do EETTA and ExpTTA achieve high rates of complete resection and low rates of complications in treating patients with IAC pathologies?" Data Sources: PubMed, EMBASE, Scopus, Web of Science, and Cochrane were searched. Review Methods: Studies reporting EETTA/ExpTTA for IAC pathologies were included. Indications and techniques were discussed and meta-analyzed rates of outcomes and complications were obtained with random-effect model meta-analyses. Results: We included 16 studies comprising 173 patients, all with non-serviceable hearing. Baseline FN function was mostly House-Brackmann-I (96.5%; 95% CI: 94.9-98.1%). Most lesions were vestibular/cochlear schwannomas (98.3%; 95% CI: 96.7-99.8%) of Koos-I (45.9%; 95% CI: 41.3-50.3%) or II (47.1%; 95% CI: 43-51.1%). EETTA was performed in 101 patients (58.4%; 95% CI: 52.4-64.3%) and ExpTTA in 72 (41.6%; 95% CI: 35.6-47.6%), achieving gross-total resection in all cases. Transient complications occurred in 30 patients (17.3%; 95% CI: 13.9-20.5%), with meta-analyzed rates of 9% (95% CI: 4-15%), comprising FN palsy with spontaneous resolution (10.4%; 95% CI: 7.7-13.1%). Persistent complications occurred in 34 patients (19.6%; 95% CI: 17.1-22.2%), with meta-analyzed rates of 12% (95% CI: 7-19%), comprising persistent FN palsy in 22 patients (12.7%; 95% CI: 10.2-15.2%). Mean follow-up was 16 months (range, 1-69; 95% CI: 14.7-17.4). Post-surgery FN function was stable in 131 patients (75.8%; 95% CI: 72.1-79.5%), worsened in 38 (21.9%; 95% CI: 18.8-25%), and improved in 4 (2.3%; 95% CI: 0.7-3.9%), with meta-analyzed rates of improved/stable response of 84% (95% CI: 76-90%). Conclusion: Transpromontorial approaches offer newer routes for IAC surgery, but their restricted indications and unfavorable FN outcomes currently limit their use. Laryngoscope, 133:2856-2867, 2023. (© 2023 The American Laryngological, Rhinological and Otological Society, Inc.) |
| References: | Neves Cavada M, Fook-Ho Lee M, Jufas NE, Harvey RJ, Patel NP. Intracanalicular vestibular schwannoma: a systematic review and meta-analysis of therapeutics outcomes. Otol Neurotol. 2021;42(3):351-362. Butzer T, Juelke E, Yacoub A, Wimmer W, Caversaccio M, Anschuetz L. Hearing-preserving approaches to the internal Auditory Canal: feasibility assessment from the perspective of an endoscope. World Neurosurg. 2022;160:e88-e95. Tosi U, Lavieri MET, An A, et al. Outcomes of stereotactic radiosurgery for large vestibular schwannomas: a systematic review and meta-analysis. Neuro-Oncol Pract. 2021;8(4):405-416. Ansari SF, Terry C, Cohen-Gadol AA. Surgery for vestibular schwannomas: a systematic review of complications by approach. Neurosurg Focus. 2012;33(3):E14. Tarabichi M, Arsiwala Z. History of endoscopic ear surgery. Otolaryngol Clin North Am. 2021;54(1):1-9. Presutti L, Alicandri-Ciufelli M, Cigarini E, Marchioni D. Cochlear schwannoma removed through the external auditory canal by a transcanal exclusive endoscopic technique. Laryngoscope. 2013;123(11):2862-2867. Presutti L, Alicandri-Ciufelli M, Bonali M, et al. Expanded transcanal transpromontorial approach to the internal auditory canal: pilot clinical experience. Laryngoscope. 2017;127(11):2608-2614. Page MJ, McKenzie JE, Bossuyt PM, et al. The PRISMA 2020 statement: an updated guideline for reporting systematic reviews. BMJ. 2021;372:n71. Koos WT, Day JD, Matula C, Levy DI. Neurotopographic considerations in the microsurgical treatment of small acoustic neurinomas. J Neurosurg. 1998;88(3):506-512. House JW, Brackmann DE. Facial nerve grading system. Otolaryngol Neck Surg. 1985;93(2):146-147. Yakkala VK, Mammi M, Lamba N, et al. Audiovestibular symptoms and facial nerve function comparing microsurgery versus SRS for vestibular schwannomas: a systematic review and meta-analysis. Acta Neurochir. 2022;164(12):3221-3233. Howick J, Chalmers I, Glasziou P, et al. Explanation of the 2011 Oxford Centre for Evidence-Based Medicine (OCEBM) Levels of Evidence (Background Document). Oxford Centre for Evidence-Based Medicine. 2011. https://www.cebm.ox.ac.uk/resources/levels-of-evidence/ocebm-levels-of-evidence. Moola S, Munn Z, Tufanaru C, et al. Chapter 7: systematic reviews of etiology and risk. In: Aromataris E, Munn Z, eds. JBI Manual for Evidence Synthesis; JBI Global. 2020. Higgins J, Thomas J, Chandler J, et al. Cochrane Handbook for Systematic Reviews of Interventions Version 6.3 (Updated February 2022). 2022. Wilson EB. Probable inference, the law of succession, and statistical inference. J Am Stat Assoc. 1927;22(158):209-212. Riley RD, Ensor J, Jackson D, Burke DL. Deriving percentage study weights in multi-parameter meta-analysis models: with application to meta-regression, network meta-analysis and one-stage individual participant data models. Stat Methods Med Res. 2018;27(10):2885-2905. Freeman MF, Tukey JW. Transformations related to the angular and the square root. Ann Math Stat. 1950;21(4):607-611. DerSimonian R, Laird N. Meta-analysis in clinical trials. Control Clin Trials. 1986;7(3):177-188. Higgins JPT. Measuring inconsistency in meta-analyses. BMJ. 2003;327(7414):557-560. Chen C-K, Hsieh L-C, Lu Y-J, Lin C-P. An endoscopic Transcanal Transpromontorial approach for vestibular schwannomas using a computer-based three-dimensional imaging system. J Vis Exp. 2021;173:1-8. Killeen DE, Barnett SL, Mickey BE, Hunter JB, Isaacson B, Kutz JW. The Association of Vestibular Schwannoma Volume with Facial Nerve Outcomes after Surgical Resection. Laryngoscope. 2021;131(4):E1328-E1334. Lucidi D, Fabbris C, Cerullo R, et al. Quality of life in vestibular schwannoma: a comparison of three surgical techniques. Eur Arch Oto Rhino Laryngol. 2021;279:1803. Mohammed S, Jang SH, Han DH, Moon IS. Minimally invasive endoscopic removal of primary inner ear schwannomas. Acta Oto Laryngol Case Rep. 2021;6(1):16-21. Pradhan S, Chappity P, Nayak A, Pradhan P, Parida PK. Exclusive endoscopic transcanal approach to lateral skull base lesions: institutional experience of 3 cases. J Otol. 2021;16(1):55-60. Jianqing C, Yongchuan C, Zhihua Z, Huan J, Zhaoyan W, Hao W. A microscope-assisted endoscopic transcanal transpromontorial approach for vestibular schwannoma resection: a preliminary report. Eur Arch Oto Rhino Laryngol. 2022;279(1):75-82. Marchioni D, Alicandri-Ciufelli M, Rubini A, Presutti L. Endoscopic transcanal corridors to the lateral skull base: initial experiences. Laryngoscope. 2015;125(S5):S1-S13. Marchioni D, Alicandri-Ciufelli M, Rubini A, Masotto B, Pavesi G, Presutti L. Exclusive endoscopic transcanal transpromontorial approach: a new perspective for internal auditory canal vestibular schwannoma treatment. J Neurosurg. 2017;126(1):98-105. Marchioni D, De Rossi S, Soloperto D, Presutti L, Sacchetto L, Rubini A. Intralabyrinthine schwannomas: a new surgical treatment. Eur Arch Oto Rhino Laryngol. 2018;275(5):1095-1102. Wick CC, Arnaoutakis D, Barnett SL, Rivas A, Isaacson B. Endoscopic Transcanal Transpromontorial approach for vestibular schwannoma resection: a case series. Otol Neurotol. 2017;38(10):e490-e494. Marchioni D, Carner M, Soloperto D, et al. Expanded Transcanal Transpromontorial approach: a novel surgical technique for cerebellopontine angle vestibular schwannoma removal. Otolaryngol Neck Surg. 2018;158(4):710-715. Marchioni D, Soloperto D, Masotto B, et al. Transcanal Transpromontorial acoustic neuroma surgery: results and facial nerve outcomes. Otol Neurotol. 2018;39(2):242-249. Moon I, Cha D, Nam S-I, Lee H-J, Choi J. The feasibility of a modified exclusive endoscopic Transcanal Transpromontorial approach for vestibular schwannomas. J Neurol Surg Part B Skull Base. 2019;80(1):82-87. Sacchetto L, Fabbris C, Romito S, Bianconi L, Marchioni D. Facial nerve neurophysiologic assessment in vestibular schwannoma removal with Transcanal approach: a pilot clinical study. World Neurosurg. 2021;146:e568-e574. Régis J, Carron R, Park MC, et al. Wait-and-see strategy compared with proactive gamma knife surgery in patients with intracanalicular vestibular schwannomas. J Neurosurg. 2010;113:105-111. Ogino A, Lunsford LD, Long H, et al. Stereotactic radiosurgery as the first-line treatment for intracanalicular vestibular schwannomas. J Neurosurg. 2021;135(4):1051-1057. Roche P-H, Soumare O, Thomassin J-M, Régis J. The wait and see strategy for intracanalicular vestibular schwannomas. Prog Neurol Surg. 2008;21:83-88. Mazzoni A, Zanoletti E, Denaro L, Martini A, d'Avella D. Retrolabyrinthine meatotomy as part of Retrosigmoid approach to expose the whole internal Auditory Canal: rationale, technique, and outcome in hearing preservation surgery for vestibular schwannoma. Oper Neurosurg. 2018;14(1):36-44. Marchioni D, Alicandri-Ciufelli M, Piccinini A, et al. Surgical anatomy of transcanal endoscopic approach to the tympanic facial nerve. Laryngoscope. 2011;121(7):1565-1573. Monfared A, Corrales CE, Theodosopoulos PV, et al. Facial nerve outcome and tumor control rate as a function of degree of resection in treatment of large acoustic neuromas. Neurosurgery. 2016;79(2):194-203. Anschuetz L, Presutti L, Schneider D, et al. Quantitative analysis of surgical freedom and area of exposure in minimal-invasive Transcanal approaches to the lateral Skull Base. Otol Neurotol. 2018;39(6):785-790. Yacoub A, Wimmer W, Molinari G, et al. Transcanal Transpromontorial approach to lateral Skull Base: maximal area of exposure and surgical extensions. World Neurosurg. 2020;135:e181-e186. Dang S, Manzoor NF, Chowdhury N, et al. Investigating predictors of increased length of stay after resection of vestibular schwannoma using machine learning. Otol Neurotol. 2021;42:e584-e592. Vorasubin N, Alexander TH, Mastrodimos B, Cueva RA. Factors that affect length of hospital stay after vestibular schwannoma surgery. Otol Neurotol. 2018;39(9):1203-1209. Sun MZ, Oh MC, Safaee M, Kaur G, Parsa AT. Neuroanatomical correlation of the House-Brackmann grading system in the microsurgical treatment of vestibular schwannoma. Neurosurg Focus. 2012;33(3):E7. Strauss C, Rampp S, Scheller C, et al. Volumetry and surgical grading systems for vestibular schwannoma size assessment and their relationship to postoperative facial nerve function. J Neurol Surg Part A Cent Eur Neurosurg. 2022;83(1):39-45. Raheja A, Bowers CA, MacDonald JD, et al. Middle fossa approach for vestibular schwannoma: good hearing and facial nerve outcomes with low morbidity. World Neurosurg. 2016;92:37-46. Kohlberg GD, Lipschitz N, Raghavan AM, et al. Middle cranial fossa approach to vestibular schwannoma resection in the older patient population. Otol Neurotol. 2021;42(1):e75-e81. MacDonald BV, Ren Y, Shahrvini B, et al. Delayed facial nerve palsy following resection of vestibular schwannoma: clinical and surgical characteristics. Otol Neurotol. 2022;43(2):244-250. Bi Y, Ni Y, Gao D, et al. Endoscope-assisted retrosigmoid approach for vestibular schwannomas with intracanalicular extensions: facial nerve outcomes. Front Oncol. 2022;11:11. Tawfik KO, Alexander TH, Saliba J, Mastrodimos B, Cueva RA. Predicting Long-term facial nerve outcomes after resection of vestibular schwannoma. Otol Neurotol. 2020;41(10):e1328-e1332. Umana GE, Pucci R, Palmisciano P, et al. Cerebrospinal fluid leaks after anterior Skull Base trauma: a systematic review of the literature. World Neurosurg. 2022;157:193-206.e2. Lipschitz N, Kohlberg GD, Tawfik KO, et al. Cerebrospinal fluid leak rate after vestibular schwannoma surgery via middle cranial fossa approach. J Neurol Surg Part B Skull Base. 2019;80(4):437-440. Zeitler D, Dorman M. Cochlear implantation for single-sided deafness: a new treatment paradigm. J Neurol Surg Part B Skull Base. 2019;80(2):178-186. Conway RM, Tu NC, Sioshansi PC, et al. Early outcomes of simultaneous Translabyrinthine resection and Cochlear implantation. Laryngoscope. 2021;131(7):E2312-E2317. Plontke SK, Kösling S, Rahne T. Cochlear implantation after partial or subtotal Cochleoectomy for intracochlear schwannoma removal-a technical report. Otol Neurotol. 2018;39(3):365-371. Plontke SK. An improved technique of subtotal Cochleoectomy for removal of intracochlear schwannoma and single-stage Cochlear implantation. Otol Neurotol. 2020;41(7):e891. |
| فهرسة مساهمة: | Keywords: cerebellopontine angle; cranial nerves; endoscopic ear surgery; hearing outcomes; internal auditory canal; lateral skull base; vestibular schwannoma |
| تواريخ الأحداث: | Date Created: 20230420 Date Completed: 20231023 Latest Revision: 20231024 |
| رمز التحديث: | 20231025 |
| DOI: | 10.1002/lary.30703 |
| PMID: | 37078512 |
| قاعدة البيانات: | MEDLINE |
Full Text Finder | تدمد: | 1531-4995 |
|---|---|
| DOI: | 10.1002/lary.30703 |