Cerebrospinal fluid leak during stapes surgery. The importance of temporal bone CT reconstructions

Cerebrospinal Fluid Leak During Stapes Surgery: The Importance of Temporal Bone CT Reconstructions in Oblique Anatomically Oriented PlanesMassimo Re, MD¹, Mirko Giannoni, MD², Alfonso Scarpa, MD³, Claudia Cassandro, MD⁴, Massimo Ralli, PhD⁵

, Pietro De Luca, MD³

, Teodoro Aragona, MD⁶, Pasquale Viola, MD⁷, Ettore Cassandro, MD³, Federico Maria Gioacchini, MD⁶, and Stefano Sellari Franceschini, MD⁸Ear, Nose & Throat Journal
2023, Vol. 102(4) 227–230
© The Author(s) 2021
Article reuse guidelines:
sagepub.com/journals-permissions
DOI: 10.1177/0145561320984569
journals.sagepub.com/home/earimg1
AbstractStapes gusher is a massive flow of perilymph and cerebrospinal fluid leak that fills the middle ear immediately after surgical opening of the labyrinth, such as during stapedectomy. Stapes gusher usually occurs as the result of a congenital malformation that causes an abnormal communication between the perilymphatic space and the subarachnoid space involving the internal auditory canal or the cochlear duct. To date, the potential risk of stapes gusher cannot be assessed preoperatively, as there are not pathognomonic signs suggestive of this complication. However, high-resolution computed tomography scan (HRCT) of the temporal bone can provide information that may help recognizing patients at risk. Recently, an anatomic evaluation of the inner ear with oblique reformation at HRCT has been described. This reformation offers a new and more detailed topographic vision of temporal bone structures compared to the classic axial and coronal planes and may help identifying anatomical alterations otherwise not visible. In this article, we present a case of stapes gusher and the role of preoperative HRCT with oblique reformation in its prevention.Keywords
stapes surgery, cerebrospinal fluid leak, computed tomography scan, middle ear, labyrinthIntroductionCerebrospinal fluid leak (CSF) is an uncommon complication of stapes surgery. A stapes gusher is a massive flow of perilymph and CSF that fills the middle ear suddenly after surgical opening of the labyrinth, such as during stapedectomy immediately after platinotomy. Stapes gusher usually occurs as the result of congenital malformation that causes an abnormal communication between the perilymphatic space and the subarachnoid space involving the internal auditory canal (IAC) or the cochlear duct.^1,2 Stapes gusher has a reported incidence that ranges between 1 in 500 and 1 in 3300 surgeries.^3,4Several cases of stapes gusher have been reported in the literature; however, only a few authors have discussed and highlighted the importance of a targeted high-resolution computed tomography (HRCT) scan to prevent this complication.^5,6 Recently, an anatomic evaluation of the inner ear with oblique reformation at HRCT has been described.⁷ This reformation offers a more detailed topographic vision of temporal bone structures compared to the classic axial and coronal planes and may help identifying anatomical alterations otherwise not visible.⁷Fig1Figure 1. High-resolution computed tomography scan of the temporal bone with bone algorithm of right (A) and left (B, C) petrous and mastoid bone. In both sides, bilateral morphology of the internal ear and in particular of the cochlea and internal auditory canal is apparently normal. A left fenestral otospongiotic area is evident (red arrow).In this article, we present a case of stapes gusher and the role of preoperative HRCT with oblique reformation in its prevention.Case PresentationA 49-year-old woman without family history of deafness presented to the otolaryngology unit of our hospital with a medical history of a left-side progressive hearing loss that was first diagnosed in 2006. Otoscopy revealed normal tympanic membranes and auditory canals, while a mild to moderate sloping left-side conductive hearing loss with an average air-bone gap of 40 dB was found at pure tone audiometry. Acoustic impedance measurements showed a normal tympanometry (A-type) in both ears, with the absence of ipsilateral and contralateral acoustic reflexes in the left ear. The patient did not have otorrhea, rhinorrhea, fever, headache, vertigo, or tinnitus.A diagnosis of otosclerosis in the left ear was made, and stapedectomy was programmed. During platinotomy performed using a perforator bit, a sudden leakage of a citrine liquid occurred and rapidly filled up the middle ear. The procedure was interrupted due to the massive flow of CSF that did not allow prosthesis insertion. The oval window was then closed using an autologous vein graft, and the middle ear was filled with spongostan until the flow stopped. The endomeatal strip was replaced and the external auditory canal was filled with Spongostan (Ferrosan A/S).The patient was placed in a half-standing position to reduce hydrostatic encephalic pressure and was kept under observation for 3 days with antibiotic therapy. There were no postoperative vestibular symptoms nor other complications. The postoperative audiometric evaluation at 10, 30, and 90 days did not show changes in hearing threshold and no deterioration of bone conduction.High-resolution computed tomography scan of the temporal bone was performed after 1 month with a 64-section computed tomography (CT) scanner (Optima CT660, GE Medical System), using a high-resolution spiral program and bone algorithm. The thinnest available image section thickness (0.6 mm) was used, overlapped of 0.3 mm. Images were closely reviewed for signs of congenital dysplasia, especially those associated with X-linked perilymphatic gusher (PLG). No findings suggestive of PLG were appreciated in axial images. However, the IAC fundus did not show a clear separation from the basal turn of the cochlea in standard coronal reconstructions. To better examine the interface between the cochlea and the IAC, oblique coronal image reformatting was performed parallel to the long axis of the IAC and perpendicular to the long axis of the basal turn of the cochlea. The images in oblique-oriented planes showed a clear communication (area of bony dehiscence) bilaterally between the fundus of the IAC and the basal turn of the cochlea (Figures 1–2).DiscussionA stapes gusher is a rare but dramatic event that may occur during stapes surgery. In these cases, a congenital malformation, usually an enlargement of the cochlear duct or a defect of the fundus of the IAC with abnormal communication between the perilymphatic and subarachnoid spaces, replaces the physiological communication between the subarachnoid space and the perilymphatic space.^4,8A recent systematic review of the literature on 76 cases of intraoperative CSF during stapes surgery revealed that 21 (27.6%) patients were diagnosed with congenital anatomical anomalies such as X-linked progressive mixed deafness at postoperative or preoperative CT scans.⁵ The majority of anomalies (76%) affected the IAC, its cochlear end and/or the cochlea. Since X-linked progressive mixed deafness is significantly associated with gusher during stapes surgery, an accurate preoperative diagnosis is recommended.⁹Causse et al¹⁰ described 2 intraoperative anatomic alterations that may suggest the risk of stapes gusher: a congenital reduced vascularization of the middle ear and an abnormal anterior insertion of the posterior crus into the footplate. However, these signs are too unspecific, and only a diagnosis of congenital stapes ankyloses can suggest a high risk of gusher. In these cases, a preoperative temporal bone HRCT should be performed even if, in case of suspected otosclerosis, the diagnostic sensitivity of HRCT is difficult to evaluate and ranges from 34% to 95%, with several limitations.⁹Fig2Figure 2. Reformatted computed tomography scan images in oblique planes, parallel to the long axis of the internal auditory canal and perpendicular to the long axis of the cochlear basal turn in the right (A) and left (B) side. The presence of an anomalous communication between the floor of the internal auditory canal fundus and the basal turn of the cochlea is bilaterally detected (red arrow). This bone defect represents in this case the anatomical basis of stapes gusher.Recently, a new anatomic evaluation of the inner ear with oblique reformation of HRCT has been described.⁷ Oblique anatomically oriented reconstructions in CT imaging of the temporal bone could be an additional tool to evaluate complex temporal bone structures and may help surgeons evaluate and prevent stapes gushers. Suggestive signs of a possible gusher are dilation of the IAC fundus, dilation of the vestibule, widening of the cochlear aqueduct, widening of the vestibular aqueduct, cochlear dysplasia, and dilation of the first portion of the facial canal.^11-13 These findings may be identified upon close examination of the standard axial and coronal images.¹¹ However, in the vast majority of gusher cases, radiological findings such as small defects at the base of the cochlea in otherwise normal inner ear morphology¹⁴ are hardly detectable. These defects may be better identified using anatomically oriented reformatted images.In the present case, the HRCT scan of the temporal bone performed after 1 month did not show findings suggestive of PLG in the standard plane; however, examination of the interface between the cochlea and the IAC in coronal reconstructions and upon reformatting in coronal anatomically oriented planes showed a clear communication between the fundus of IAC and basal turn of the cochlea. This sign can have a role in the preoperatively identification of cases at risk for stapes gusher.ConclusionTo date, the potential risk of stapes gusher cannot be assessed preoperatively, as there are not pathognomonic signs suggestive of this complication. However, HRCT of the temporal bone can provide information that may help identifying patients at risk of developing this complication. If the inner ear appears normal in the standard CT scan, images should be examined using anatomically oriented planes, which in addition to better assessing the middle ear structures, allow to better visualize the interface between the IAC fundus and the basal turn of the cochlea.Authors’ NoteM.R. contributed to conceptualization and writing. M.G. contributed to materials and critical review. A.S. contributed to data collection and supervision. C.C. contributed to design and critical review. M.R. contributed to materials and supervision. P.D.L. contributed to data collection and analysis. T.A. contributed to design and materials. P.V. contributed to analysis and supervision. F.M.G. contributed to analysis and literature review. S.S.F. contributed to writing and supervision.Declaration of Conflicting InterestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.FundingThe author(s) received no financial support for the research, authorship, and/or publication of this article.ORCID iDMassimo Ralli

https://orcid.org/0000-0001-8776-0421
Pietro De Luca

https://orcid.org/0000-0002-6505-1680
References

Schuknecht HF, Reisser C. The morphologic basis for perilymphatic gushers and oozers. Adv Otorhinolaryngol. 1988;39:1112. doi:10.1159/000415649

Wolferman A. Cerebrospinal otorrhea, a complication of stapes surgery. Laryngoscope. 1964;74(10):1368-1380. doi:10.1288/00005537-196410000-00002

Bianconi L, Gazzini L, Laura E, De Rossi S, Conti A, Marchioni D. Endoscopic stapedotomy: safety and audiological results in 150 patients. Eur Arch Otorhinolaryngol. 2020;277(1):85-92. doi:10.1007/s00405-019-05688-y

Causse JB, Causse JR. Complications of stapedectomy [in French]. Ann Otolaryngol Chir Cervicofac. 1983;100(3):223-227.

Alicandri-Ciufelli M, Molinari G, Rosa MS, Monzani D, Presutti L. Gusher in stapes surgery: a systematic review. Eur Arch Otorhinolaryngol. 2019;276(9):2363-2376. doi:10.1007/s00405-019-05538-x

Rebol J. The unilateral stapes gusher. Wien Klin Wochenschr. 2004;116(suppl 2):90-92.

Blanco Ulla M, Vazquez F, Pumar JM, del Rio M, Romero G. Oblique multiplanar reformation in multislice temporal bone CT. Surg Radiol Anat. 2009;31(6):475-479. doi:10.1007/s00276-009-0463-5

Cremers C. How to prevent a stapes gusher. Adv Otorhinolaryngol. 2007;65:278-284. doi:10.1159/000098843

Naumann IC, Porcellini B, Fisch U. Otosclerosis: incidence of positive findings on high-resolution computed tomography and their correlation to audiological test data. Ann Otol Rhinol Laryngol. 2005;114(9):709-716. doi:10.1177/0003489405114 00910

Causse JB, Causse JR, Wiet RJ, Yoo TJ. Complications of stapedectomies. Am J Otol. 1983;4 (4):275-280.

Virk JS, Singh A, Lingam RK. The role of imaging in the diagnosis and management of otosclerosis. Otol Neurotol. 2013;34(7): e55-e60. doi:10.1097/MAO.0b013e318298ac96

Lemmerling MM, Mancuso AA, Antonelli PJ, Kubilis PS. Normal modiolus: CT appearance in patients with a large vestibular aqueduct. Radiology. 1997;204(1):213-219. doi:10.1148/radiology.204.1.9205250

Valvassori GE, Clemis JD. The large vestibular aqueduct syndrome. Laryngoscope. 1978;88(5):723-728. doi:10.1002/lary.1978.88.5.723

Cabbarzade C, Sennaroglu L, Suslu N. CSF gusher in cochlear implantation: the risk of missing CT evidence of a cochlear base defect in the presence of otherwise normal cochlear anatomy. Cochlear Implants Int. 2015;16(4):233-236. doi:10.1179/1754762813Y.0000000048

¹ Department of Clinical and Molecular Sciences, Section of Otorhinolaryngology, Polytechnic University of Marche, Ancona, Italy² Neuroradiology Unit, University Hospital of Ancona, Italy³ Department of Medicine and Surgery, University of Salerno, Salerno, Italy⁴ Surgical Sciences Department, University of Turin, Turin, Italy⁵ Department of Sense Organs, Sapienza University of Rome, Rome, Italy⁶ Otolaryngology, A.O.U. Ospedali Riuniti, Ancona, Italy⁷ Department of Experimental and Clinical Medicine, University “Magna Graecia” of Catanzaro, Catanzaro, Italy⁸ Department of Surgical, Medical and Molecular Pathology, ENT Unit I, University of Pisa, Pisa, ItalyReceived: November 18, 2020; revised: December 04, 2020; accepted: December 09, 2020Corresponding Author:
Alfonso Scarpa, MD, Department of Medicine and Surgery, University of Salerno, Salerno, Italy.
Email: alfonsoscarpa@yahoo.itJournal CoverConnect with Sage JournalsAerin MedicalEditorial BoardXlearEditorial Board 2CANT CorpSAGE VideoMTIPeer ReviewersGSK NucalaGSKNucala1GSKNucala2GSKNucala3Author ServicesReconstruction of a large oncologic defect involving lower eyelid and infraorbital cheekCerebrospinal fluid leak during stapes surgery. The importance of temporal bone CT reconstructionsPrimary Aneurysmal Bone Cyst of Nasal Cavity and Sinuses in a Child: Case Report and LiteratureDevelopment of a new device for postoperative self-irrigation of the maxillary and frontal sinusManagement of recurrent and delayed post tonsillectomy and adenoidectomy haemorrhage in childrenPapillary thyroid carcinoma with breast and bone metastasisEctopic Thymic Carcinoma Located On The Dorsal Side Of The Thyroid GlandEndoscope Assisted Multi-layered Repair in Oro-nasal FistulaRadial Forearm Free Flap and a Freka-Trelumina Tube for Management of a Refractory PharyngocutaneousOnline Article Cover PageAn Oropharyngeal Obstructive Lesion in a NeonateSage JournalsVersoMcKeon Products