Hostname: page-component-5cf477f64f-xc2pj Total loading time: 0 Render date: 2025-03-29T05:01:37.115Z Has data issue: false hasContentIssue false
  • English
  • Français

Audiological outcomes following middle cranial fossa repair of spontaneous cerebrospinal fluid leaks

Published online by Cambridge University Press:  21 October 2024

Jia Hui Ng Open the ORCID record for Jia Hui Ng [Opens in a new window] ,
Arul Bala ,
Thomas Hendriks  and
Jafri Kuthubutheen
Jia Hui Ng*
Affiliation:
Department of Otolaryngology and Head and Neck Surgery, Sir Charles Gairdner Hospital, Nedlands, Western Australia Department of Otolaryngology and Head and Neck Surgery, Singapore General Hospital, Singapore, Singapore
Arul Bala
Affiliation:
Department of Neurosurgery, Sir Charles Gairdner Hospital, Nedlands, Western Australia
Thomas Hendriks
Affiliation:
Department of Otolaryngology and Head and Neck Surgery, Sir Charles Gairdner Hospital, Nedlands, Western Australia
Jafri Kuthubutheen
Affiliation:
Department of Otolaryngology and Head and Neck Surgery, Sir Charles Gairdner Hospital, Nedlands, Western Australia Division of Surgery, University of Western Australia, Perth, Australia
*
Corresponding author: Jia Hui Ng; Email: [email protected] Fax: +61 08 64574899
Rights & Permissions [Opens in a new window]

Abstract

Objectives

The aim of this study is to investigate hearing outcomes in patients who have undergone cerebrospinal fluid (CSF) leak repair via a middle cranial fossa (MCF) approach and to identify any variables that influence post-operative hearing outcomes.

Methods

This is a multi-centre study. A total of 65 patients who underwent an MCF approach CSF leak repair were included. Retrospective case review was conducted to collect patient demographic and clinical data including pre- and post-operative audiometry.

Results

A total of 65 patients were included: 9 patients (9.2per cent) had an encephalocele confirmed on magnetic resonance (MR) imaging, whilst the remaining patients had biochemically confirmed, beta-trace protein positive CSF leaks. Post-operatively, there was a statistically significant improvement in both bone conduction (Z = -3.71, p < 0.001) and air conduction thresholds (Z = -5.82, p < 0.001). None of the studied variables were found to be associated with the degree of hearing improvement.

Conclusion

The MCF approach for CSF leak repair yields favorable audiological outcomes.

Keywords

cerebrospinal fluid otorrheamiddle cranial fossa
Type
Main Article
Information
The Journal of Laryngology & Otology , First View , pp. 1 - 4
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of J.L.O. (1984) LIMITED

Introduction

Spontaneous cerebrospinal fluid (CSF) leaks of the temporal bone occur in the absence of any known prior trauma or surgery.Reference Ferguson, Wilkins, Hudson and Farmer1 This can be life threatening as it provides a portal of entry of microbes to enter the subarachnoid space, resulting in intracranial infection.Reference Savva, Taylor and Beatty2 Since earlier studies have shown that medical treatment such as prophylactic antibiotics are ineffective in preventing meningitis, early surgical intervention is favoured as the standard of care in most patients with CSF leak of the temporal bone.Reference Klastersky, Sadeghi and Brihaye3,Reference MacGee, Cauthen and Brackett4

Numerous approaches have been proposed for the repair of CSF leak of the temporal bone. These include the middle cranial fossa (MCF) approach, the transmastoid approach, and the combined MCF-transmastoid approach. Previous studies on surgical outcomes have mainly focused on rates of CSF leak resolution, with only a handful of studies involving smaller patient numbers describing audiological outcomes. As unilateral conductive hearing loss is the most common presenting symptom of patients with spontaneous CSF leak of the temporal bone,Reference Hendriks, Bala and Kuthubutheen5 audiological outcomes of CSF leak repair in this group of patients is of importance. This study aims to evaluate audiological outcomes in an MCF approach CSF leak repair.

Methodology

This is a retrospective study conducted across 2 tertiary hospitals in Perth, Western Australia, between January 2016 and January 2022. A total of 65 adult patients who underwent MCF approach CSF leak repair for spontaneous CSF otorrhea in the study period were included. Pre-operatively, all patients had either had biochemically confirmed CSF leaks or an encephalocele confirmed on magnetic resonance imaging (MRI) imaging. Biochemical confirmation of CSF leak was obtained via aspiration of middle ear fluid and testing for beta-trace protein (BTP). All patients underwent pre-operative computed tomography (CT) imaging and most patients underwent pre-operative MRI imaging. Baseline pre-operative audiometry was also obtained.

All patients underwent the MCF approach CSF leak repair via a combined procedure between a neurosurgeon and a neurotologist, utilising a multilayer repair technique. Our technique is described in greater detail in a prior publication.Reference Ng, Bala, Hendriks and Kuthubutheen6 Briefly, a linear supra-aural incision measuring approximately 6 to 9 cm with an endaural extension towards the external auditory meatus is used. The position of the craniotomy is marked with guidance from CT navigation by determining the location of the middle cranial fossa floor. A craniotomy measuring between 4 and 5 cm in the horizontal and vertical planes and centred along the external auditory meatus is made. Dura is then widely elevated over the middle fossa floor, with adequacy of dural elevation confirmed via CT navigation. Multi-layered repair is then undertaken with Duragen (Integra LifeSciences, Plainsboro, NJ) and Hydroset hydroxyapatite bone cement (Stryker, Kalamazoo, MI). Where necessary, TachoSil (Baxter, Deerfield, IL) was used to prevent contact of the bone cement to the ossicular chain. Post-operatively, a mastoid bandage was kept in situ for 48 hours, and the patients can be discharged after. All patients underwent regular surveillance in clinic by the treating clinicians. A post-operative audiogram was also obtained.

The medical records of the included patients were reviewed to obtain demographic data, examination findings, investigation results including pre- and post-operative audiometry, surgical outcomes and duration of post-operative follow up. Bone conduction (BC) and air conduction (AC) thresholds at 500, 1000, 2000 and 4000 Hz were used to compute BC and AC pure tone average (PTA) for each patient. The study was approved by the South Metropolitan Health Services Ethics Committee (approval number RGS0000001008). A waiver of consent was granted for the study in line with the NHMRC National Statement on Ethical Conduct in Human Research (2007).

Statistical analysis to determine any significant improvement in AC and BC hearing post-operatively was performed using the Wilcoxon signed rank test. The chi squared test and Mann–Whitney U test was used to determine if any variables were associated with audiological outcomes. SPSS version 23 (SPSS, Inc, an IBM Company, Chicago, Illinois) was used for all statistical analyses in this study.

Results

A total of 75 patients underwent MCF approach repair of spontaneous CSF leak in the study period between January 2016 and January 2022; 10 patients were excluded due to incomplete data on pre-operative or post-operative audiometry. As such, 65 patients were included in this study. The median age of the patients was 65 years (interquartile range [IQR] 54.0–71.5). A total of 50.8 per cent of patients were female and 49.2 per cent were male. Median body mass index (BMI) was 26.9 (IQR 25.8–24.6). A total of 55.4 per cent of the surgical procedures were right sided, and the remainder were left sided. At presentation, 93.8 per cent of patients had fluid within the middle ear in the affected ear on examination, 90.8 per cent of patients were diagnosed with CSF otorrhea after positive testing for BTP on their middle ear aspirate, whilst the remaining 9.2 per cent of patients were diagnosed based on MRI finding of an encephalocele in the affected ear. All patients underwent a pre-operative CT scan and 92.3 per cent of patients underwent a pre-operative MRI scan. In all patients, the defect/s location was at the tegmen. This is summarised in Table 1.

Table 1. Patient demographics and clinical features

Abbreviations: BMI = body mass index; BTP = beta-trace protein; CSF = cerebrospinal fluid; CT = computed tomography; IQR = interquartile range; MRI = magnetic resonance imaging; OME = otitis media with effusion.

Pre-operative median BC PTA was 22.5 dB (IQR 1.25–66.3) and median AC PTA was 41.3 dB (IQR 6.3–102.5). The median pre-operative air bone gap was 18.9 dB (IQR 9.4–26.4). Pre-operatively, 76.9 per cent of patients had any degree of hearing loss, and 73.9 per cent of patients had a significant degree of conductive hearing loss with an air-bone gap of 11 dB or more. This is summarised in Table 2.

Table 2. Pre- and post-operative audiometric data (N = 65)

Abbreviations: AC = air conduction; BC = bone conduction; IQR = interquartile range; PTA = pure tone average.

Post-operative audiometry was performed a median of 3.35 months (IQR 2.22–4.53) after surgery. The median post-operative BC PTA improved to 18.6 dB (IQR 1.0–66.0) from 22.5 dB (IQR 1.25–66.3) pre-operatively. Similarly, the median post-operative AC PTA improved to 27.5 dB (IQR 3.0–78.0), from 41.3 dB (IQR 6.3–102.5) pre-operatively. The audiological improvement was statistically significant for both BC PTA (Z = -3.71, p < 0.001) and AC PTA (Z = -5.82, p < 0.001). Post-operatively, the percentage of patients with any degree of hearing loss fell to 56.9 per cent, and only 29.3 per cent of patients still had a significant degree of conductive hearing loss with an air-bone gap of 11 dB or more. This is summarised in Table 2.

No difference in the degree of improvement of AC PTA was found between variables analysed, including male or female gender, presence or absence of pre-operative middle ear effusion, presence or absence of an encephalocele, and whether or not peri-operative ventilation tubes were used (p > 0.05).

No immediate failure of the repair was noted. However, delayed failure of the repair was noted in eight patients (12.3 per cent). The median time to failure was 14 months. There were no major post-operative complications. Minor complications included temporary facial nerve palsy that spontaneously recovered (n = 1) and temporary dysphasia secondary to temporal lobe edema (n = 1). The median length of follow-up was 13 months.

Discussion

As unilateral conductive hearing loss is the most common presenting symptom of patients with spontaneous CSF leak of the temporal bone,Reference Hendriks, Bala and Kuthubutheen5 hearing outcomes associated with the various described surgical approaches for CSF leak repair is of significance. Commonly described surgical approaches for CSF leak repair include the MCF approach, the transmastoid approach, and the combined approach. In our institution, the MCF approach is favoured for tegmen repair due to the ability to repair multiple defects and reinforce the integrity of the entire skull base. It also avoids violation of the middle ear cavity, removing the need for manipulation of the ossicular chain, which may cause conductive hearing loss in some cases.

This study is largest known to date describing audiological outcomes in patients undergoing the MCF approach repair of temporal bone spontaneous CSF leaks. In our series of 65 patients, there was a median PTA improvement and a median air-bone gap improvement of 11.3 dB and 8.70 dB, respectively, after surgery. This is congruent with two other similar studies published in the literature. Alwani et al. described his series of 24 patients (27 ears) who underwent the MCF approach for CSF leak repair and found a mean post-operative PTA improvement of 10.28 dB (p < 0.001),Reference Alwani, Bandali, Van Buren, Yates and Nelson7 and a mean air-bone gap improvement of 9.31 dB (p < 0.001). Another similar study by Alwan et al. found that 10 patients demonstrated a mean improvement of 18.86 dB post-operatively.Reference Alwan, Ibbett, Pullar, Lai and Gordon8 In addition, that study found that mean hearing improvement following CSF leak repair with fascial graft alone was 12 dB, which is poorer compared to 26.5 dB when multi-layered repair utilising fascial graft with bone was used.Reference Alwan, Ibbett, Pullar, Lai and Gordon8 Our study is unable to draw conclusions on the impact of the technique of repair on hearing outcomes, as all patients in our study underwent a multi-layered repair technique.

Some authors have utilised a combined MCF/transmastoid approach for repair of CSF otorrhea. Stevens et al. described audiometric data in 25 patients and found that, although there was a statistically significant 6.1 dB improvement of post-operative air-bone gap (p = 0.05), post-operative mean PTA did not significantly improve.Reference Stevens, Crane, Pensak and Samy9 Another study by Son et al. described audiological outcomes in 19 patients who underwent combined a MCF/transmastoid approach repair. Only 15.8 per cent of patients had a more than 15 dB improvement of air-bone gap, and another 15.8 per cent had sensorineural hearing loss of more than 15 dB.Reference Son, Karkas, Buchanan, Giurintano, Theodosopoulos and Pensak10 Similarly, Yancey et al. reported audiometric outcomes in their series of 42 patients with spontaneous CSF otorrhea, with the majority (92.9 per cent) having undergone the combined MCF/transmastoid repair.Reference Yancey, Manzoor, Haynes, Bennett, O'Malley and Rivas11 No significant improvement in post-operative PTA was found. All of these studies describe significantly poorer hearing outcomes, in contrast to studies utilising an MCF-only approach for CSF leak repair. This could possibly be due to ossicular chain manipulation; in both studies, the transmastoid part of surgery involved division of the incudostapedial joint to facilitate dissection around the ossicles.

Only one study has directly compared audiological outcomes between an MCF approach for CSF leak repair to other approaches within their patient cohort. Ren et al. found that PTA improved by a mean of 15.6 dB in the 20 patients who underwent transmastoid approach repair, superior to an improvement of only 3.0 dB in the 8 patients who underwent an MCF approach repair (p = 0.01).Reference Ren, Tawfik and Cueva12 However, this result may have been confounded, as 80 per cent of patients in that series undergoing transmastoid repair had posteriorly based skull base defects at the posterior fossa or tegmen mastoideum, and only 20 per cent had defects at the tegmen tympani. In contrast, 75 per cent of patients in the MCF group had defects in the tegmen tympani, closer to the native ossicular chain. In addition, impingement of the graft material on the ossicular chain during repair must be avoided to avoid compromising hearing outcomes.Reference Son, Karkas, Buchanan, Giurintano, Theodosopoulos and Pensak10

Our study found that variables like gender, presence or absence of pre-operative middle ear effusion, presence or absence of an encephalocele, and whether or not peri-operative grommet tubes were used did not impact hearing outcomes (p > 0.05). This is in concurrence with Yancey et al., who similarly found that encephalocele involvement of and dissection from the ossicular chain did not appear to significantly influence hearing results.Reference Yancey, Manzoor, Haynes, Bennett, O'Malley and Rivas11 Ren et al. found that the aetiology of CSF leak (spontaneous vs. nonspontaneous), the type of skull base defect identified intra-operatively (single vs. multiple defects), and associated encephalocele (present vs. absent) did not seem to influence audiometric outcomes.Reference Ren, Tawfik and Cueva12 In contrast, Stevens et al. concluded that patients with dehiscences in the posterior fossa have significantly greater improvements in PTA (p = 0.03) and air-bone gap (p = 0.05) post-operatively.Reference Stevens, Crane, Pensak and Samy9 This is similar to the conclusions drawn by Ren et al., who attributed improved audiologic outcomes in transmastoid repairs to the fact that the majority of such repairs were performed for posterior dehiscences.Reference Ren, Tawfik and Cueva12

Interestingly, not only was a statistically significant improvement in AC PTA (Z = -5.82, p < 0.001) observed, a statistically significant improvement, albeit smaller, in BC PTA (Z = -3.71, p < 0.001) was also observed in this study. This is likely attributed to the Carhart's effect.Reference Szpak, Wiatr and Wiatr13

Limitations of this study include its retrospective nature, variable timing of post-operative audiologic assessments, and the lack of long-term audiological data given the relatively short follow-up time. To overcome these limitations, future prospective studies can be undertaken with audiometric assessments performed at fixed intervals. Despite these limitations, this study remains the largest to date evaluation of audiologic outcomes in patients with spontaneous CSF otorrhea undergoing an MCF approach repair.

Conclusion

The MCF approach for CSF leak repair allows the resurfacing of the entire tegmen and correction of tegmen defects of varying size, number, and location. While avoiding violation of the middle ear and disruption of the ossicular chain, it results in significant post-operative improvements in hearing.

Competing interests

The authors have no funding/support or conflicts of interest to disclose.

Footnotes

Jia Hui Ng takes responsibility for the integrity of the content of the paper

References

Ferguson, BJ, Wilkins, RH, Hudson, W, Farmer, J Jr. Spontaneous CSF otorrhea from tegmen and posterior fossa defects. Laryngoscope 1986;96:635–44CrossRefGoogle ScholarPubMed
Savva, A, Taylor, MJ, Beatty, CW. Management of cerebrospinal fluid leaks involving the temporal bone: Report on 92 patients. Laryngoscope 2003;113:50–6CrossRefGoogle ScholarPubMed
Klastersky, J, Sadeghi, M, Brihaye, J. Antimicrobial prophylaxis in patients with rhinorrhea or otorrhea: A double-blind study. Surg Neurol 1976;6:111–14Google ScholarPubMed
MacGee, EE, Cauthen, JC, Brackett, CE. Meningitis following acute traumatic cerebrospinal fluid fistula. J Neurosurg 1970;33:312–16CrossRefGoogle ScholarPubMed
Hendriks, T, Bala, A, Kuthubutheen, J. Spontaneous cerebrospinal fluid leaks of the temporal bone - Clinical features and management outcomes. Auris Nasus Larynx 2022;49:2633CrossRefGoogle ScholarPubMed
Ng, JH, Bala, A, Hendriks, T, Kuthubutheen, J. Improving surgical outcomes in middle cranial fossa cerebrospinal fluid leak repair. Neurosurg Pract 2023;4:e00042Google ScholarPubMed
Alwani, M, Bandali, E, Van Buren, L, Yates, CW, Nelson, RF. Audiologic improvement following MCF approach for spontaneous cerebrospinal fluid leaks. Otol Neurotol 2019;40:1026–33CrossRefGoogle ScholarPubMed
Alwan, M, Ibbett, I, Pullar, M, Lai, LT, Gordon, M. Hearing improvement following middle cranial fossa floor defect repair utilizing a modified middle fossa approach and reconstructive techniques. Otol Neurotol 2019;40:1034–9CrossRefGoogle ScholarPubMed
Stevens, SM, Crane, R, Pensak, ML, Samy, RN. Analysis of audiometric outcomes following combined middle cranial fossa/transmastoid approaches for spontaneous cerebrospinal fluid otorrhea. Otolaryngol Head Neck Surg 2017;156:924–32CrossRefGoogle ScholarPubMed
Son, HJ, Karkas, A, Buchanan, P, Giurintano, JP, Theodosopoulos, P, Pensak, ML, et al. Spontaneous cerebrospinal fluid effusion of the temporal bone: Repair, audiological outcomes, and obesity. Laryngoscope 2014;124:1204–8CrossRefGoogle ScholarPubMed
Yancey, KL, Manzoor, NF, Haynes, DS, Bennett, ML, O'Malley, M, Rivas, A. Audiometric outcomes and Middle Ear Disease following cerebrospinal fluid leak repair. Otolaryngol Head Neck Surg 2020;162:942–9CrossRefGoogle ScholarPubMed
Ren, Y, Tawfik, KO, Cueva, RA. Audiometric outcomes following transmastoid and middle cranial fossa approaches for repair of cerebrospinal fluid otorrhea. Otol Neurotol 2021;42:424–30CrossRefGoogle ScholarPubMed
Szpak, K, Wiatr, A, Wiatr, M. Audiometric variability of the Carhart Effect in middle ear diseases - Pretreatment analysis. Ear Nose Throat J 2023;12:1455613231167243Google Scholar
Figure 0

Table 1. Patient demographics and clinical features

Figure 1

Table 2. Pre- and post-operative audiometric data (N = 65)