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Long-term facial nerve clinical evaluation following vestibular schwannoma surgery

Avaliação clínica tardia do nervo facial no pós-operatório de schwannoma vestibular

Abstracts

BACKGROUND: Facial function is important in accompaniment of patients operated on vestibular schwannoma (VS). OBJETIVE: To evaluate long term facial nerve function in patients undergoing VS resection and to correlate tumor size and facial function in a long-term follow-up. METHOD: Transversal study of 20 patients with VS operated by the retrosigmoid approach. House-Brackmann Scale was used preoperatively, immediately after surgery and in a long-term follow-up. Student t test was applied for statistic analysis. RESULTS: In the immediate postoperative evaluation, 65% of patients presented FP of different grades. Improvement of facial nerve function (at least of one grade) occurred in 53% in the long-term follow-up. There was statistically significant difference in facial nerve outcome in long-term follow-up when tumor size was considered (p<0.05). Conclusion: The majority of patients had improvement of FP in a long-term follow-up and tumor size was detected to be a factor associated with the postoperative prognostic.

vestibular schwannoma; facial nerve function; retrosigmoid approach


CONTEXTO: A função facial é importante para acompanhamento dos pacientes operados de schwannoma vestibular (SV). OBJETIVO: Avaliar o grau de paralisia facial (PF) em pacientes operados de SV, correlacionando tamanho do tumor com função facial na avaliação tardia. MÉTODO: Estudo transversal com análise seriada de 20 pacientes com SV operados pela via retrosigmóide-transmeatal. A Escala de House-Brackmann foi utilizada no pré-operatório, pós-operatório imediato e pós-operatório tardio. O teste t de Student foi aplicado para análise estatística. RESULTADOS: No pós-operatório imediato, 65% dos pacientes apresentaram graus variados de PF, sendo que 53% destes obtiveram melhora de pelo menos um grau de House-Brackmann na avaliação tardia. Houve diferença significativa no resultado da função facial no pós-operatório tardio quando o tamanho do tumor foi considerado (p<0.05).Conclusão: A maioria dos pacientes da amostra apresentou melhora da PF no pós-operatório tardio, sendo o tamanho do tumor um fator associado ao prognóstico.

schwannoma vestibular; função facial; via retrosigmóide


ARTICLES

Long-term facial nerve clinical evaluation following vestibular schwannoma surgery

Avaliação clínica tardia do nervo facial no pós-operatório de schwannoma vestibular

Rafaela Julia Batista VeroneziI; Yvens Barbosa FernandesII; Guilherme BorgesIII; Ricardo RaminaII

IPhysiotherapist, Master Degree in Medical Sciences for the Department of Neurology, State University of Campinas (UNICAMP), Campinas SP, Brazil

IIAssistant Professor, Department of Neurology, UNICAMP

IIIAssociate Professor, Department of Neurology, UNICAMP

ABSTRACT

BACKGROUND: Facial function is important in accompaniment of patients operated on vestibular schwannoma (VS).

OBJETIVE: To evaluate long term facial nerve function in patients undergoing VS resection and to correlate tumor size and facial function in a long-term follow-up.

METHOD: Transversal study of 20 patients with VS operated by the retrosigmoid approach. House-Brackmann Scale was used preoperatively, immediately after surgery and in a long-term follow-up. Student t test was applied for statistic analysis.

RESULTS: In the immediate postoperative evaluation, 65% of patients presented FP of different grades. Improvement of facial nerve function (at least of one grade) occurred in 53% in the long-term follow-up. There was statistically significant difference in facial nerve outcome in long-term follow-up when tumor size was considered (p<0.05). Conclusion: The majority of patients had improvement of FP in a long-term follow-up and tumor size was detected to be a factor associated with the postoperative prognostic.

Key words: vestibular schwannoma, facial nerve function, retrosigmoid approach.

RESUMO

CONTEXTO: A função facial é importante para acompanhamento dos pacientes operados de schwannoma vestibular (SV).

OBJETIVO: Avaliar o grau de paralisia facial (PF) em pacientes operados de SV, correlacionando tamanho do tumor com função facial na avaliação tardia.

MÉTODO: Estudo transversal com análise seriada de 20 pacientes com SV operados pela via retrosigmóide-transmeatal. A Escala de House-Brackmann foi utilizada no pré-operatório, pós-operatório imediato e pós-operatório tardio. O teste t de Student foi aplicado para análise estatística.

RESULTADOS: No pós-operatório imediato, 65% dos pacientes apresentaram graus variados de PF, sendo que 53% destes obtiveram melhora de pelo menos um grau de House-Brackmann na avaliação tardia. Houve diferença significativa no resultado da função facial no pós-operatório tardio quando o tamanho do tumor foi considerado (p<0.05).Conclusão: A maioria dos pacientes da amostra apresentou melhora da PF no pós-operatório tardio, sendo o tamanho do tumor um fator associado ao prognóstico.

Palavras-chave: schwannoma vestibular, função facial, via retrosigmóide.

Vestibular schwannoma (VS) is a benign tumor that arises from the eighth cranial nerve. It represents 8% to 10% of all brain tumors and 80% of all cerebellopontine angle tumors1. In 1894, Charles Balance performed the first successful VS excision, but the mortality rate at that time was devastatingly high2. Harvey Cushing improved surgical techniques and brought the mortality rate down to approximately 20%3 performing sub-total removal of the tumors. Improvement in surgical techniques and development of new technological devices had brought the mortality rate to under 2%4,5. The advances and improvements in microsurgical techniques have changed the actual goals of surgery, being facial nerve preservation an utmost concern3. Paralysis of the facial expression muscles is a debilitating and psychologically devastating condition for the patient. Preservation of facial nerve function after VS surgery is one of the most important goals to be achieved.

There is no established method that allows precise prediction of the long-term prognosis of facial nerve palsy after VS surgery6-8. It has been suggested that tumor size is an approximate guide to predicting ultimate functional outcome9,10.

The objective of this study is to analyze the facial nerve function in patients submitted to VS surgery by the retrosigmoid transmeatal approach and correlate tumor size with the grade of postoperative facial palsy (FP).

METHOD

Subjects

Twenty patients were enclosed in this study. They underwent surgical resection of VS from January 1999 to October 2002 at the Hospital das Clínicas of the State University of Campinas (HC/UNICAMP), in Campinas, Brazil.

The Ethics Committee on Research, State University of Campinas (UNICAMP) - Brazil, approved the study and a free and informed consent was obtained from each participant.

Procedures

All patients were evaluated before surgery by computerized tomography (CT) and/or magnetic resonance (MR). Tumor size was considered as the largest extrameatal diameter. Tumors were categorized as small (< 2.0 cm), medium (2.1–4.0 cm) and large (>4.0 cm).

The surgical standard retrosigmoid transmeatal approach was used in all patients by the same surgical team. The main goals of treatment were total removal of the tumor without major morbidity and excellent preservation of facial nerve function. No patients were submitted to previous treatment of their tumors.

Facial function was assessed in three specified time intervals: preoperative, immediate postoperative (24 hours) and in a long-term follow-up (18 months or longer). It was reported using the House-Brackmann facial nerve function grading system11. Patients were divided into three subgroups: good facial function (Grades I-II), regular facial function (Grades III-IV), and poor facial function (Grades V-VI).

Data analysis

A descriptive analysis was performed, as well as statistical analysis using the Student t test for independent data. Statistical significance was set at p<0.05 to determine the possible association of the tumor size on final facial function.

RESULTS

Fifteen patients were female (75%) and five were male (25%). Patients' ages ranged from 17 to 77 years old (mean 51 years old). Most patients (n=14) were older than 40 years old; 40% of patients (n=8) were 40 to 60 years old and 30% (n=6) were older than 60 years old. There was no predominance regarding the side of the tumor. The mean tumor size was 3.38 cm with a range of 1.5 cm to 5.0 cm. The distribution of the tumor size is represented in Fig 1. The minimum follow-up was 19 months and the longest one was 5 years and 10 months (mean time of 3 years and 10 months).


The evolution of facial nerve function in the three specified time span is illustrated in Fig 2. Three patients (15%) had FP preoperatively. Two of them had House-Brackmann grade VI in this period and the other one had House-Brackmann grade III. These patients harbored medium or large size tumors.


The facial nerve could be anatomically preserved in 17 patients (85%). A cable graft of sural nerve was performed to bridge the divided facial nerve in patients that the direct suture of the facial nerve was not possible.

A partial-to-total FP (Grades II-VI) was observed in the immediate postoperative course in 17 cases (85%). Nine patients (45%) presented poor facial function (Grades V-VI) postoperatively, including the 3 patients who already presented FP preoperatively.

In the majority of the cases FP improved in a minimum period of 18 months (Figs 2 and 3). In 30% of the cases (n=6), total restoration of facial nerve function (Grade I) was observed in the long-term follow-up. In 35% (n=7), a minimal FP (Grade II) remained. The facial nerve function was classified as good in 13 patients (65%), regular in 4 patients (20%) and poor in 3 (15%). The patients with long-term poor facial function (Grade V-VI) presented FP preoperatively.


A hypoglossal-facial nerve anastomosis12 was carried out during the first year postoperative in 4 patients (20%) that presented no recovery of the facial function. A House-Brackmann grade IV was obtained in 1 case, and grade III in 2 cases. One patient (tumor size 5.0 cm and previous FP) showed no improvement of FP. For this patient plastic surgery procedures are recommended for facial function rehabilitation.

No impairment of facial nerve deficit was observed in the interval between hospital discharge and follow-up examination.

Facial function in long-term follow-up was also analysed with respect to tumor size (Table 1). Patients with regular (Grades III-IV) or poor (Grades V-VI) facial function had medium and large tumors, respectively.

There was a statistically significant difference (Table 2) in immediate and long-term facial nerve outcome when the tumor size was considered. Patients who presented improvement of FP had smaller tumors.

DISCUSSION

VS is considered by many surgeons to be one of the most difficult brain tumors to be removed without additional neurologic deficits. Since the first successful resection of a VS occurred in 18942, surgical techniques have been continuously refined to reduce patient morbidity and mortality rates3,4. Over the last century, treatment of VS has undergone immense changes and the focus of surgery has improved from prolongation of patient's life towards preservation of cranial nerve function5, specially the seventh nerve.

Loss of facial nerve function is a debilitating and psychologically devastating condition13. Patients with FP may experience several limitations as difficulty to speech and eat and may experience drooling. Furthermore, these patients may have significant ophthalmic complications from loss of the blink reflex, upper and lower eyelid retraction, and lagophthalmos. The absence of orbicularis muscle tone also causes a loss of the corneal "squeegee" effect and predisposes the patient to dry eye symptoms and corneal exposure14. Socially, facial paralysis presents a distorted continence that others find disquieting. Affected individuals are avoided and often feel socially isolated. The combination of physical and psychological disabilities often results in a lasting postoperative depression.

The mean age of the patients of this series (51 years old) and the predominance of individuals of the feminine sex (75%) were in agreement with studies that indicate greater frequency of the VS in females in the fifth and sixth decades of life3,8,15-17.

Facial function results were reported by the House-Brackmann facial nerve function grading system11. This allows for standardized comparisons of results, which is essential to valid medical decision making.

Translabyrinthine, retrosigmoid transmeatal, and middle fossa approaches are the three basic approaches for the removal of VS. However, recent papers have recommended the retrosigmoid transmeatal approach for removal of VS of all sizes with no mortality and minimal morbidity16-21. All VS surgeries in our unit were carried out by this approach that presents noteworthy advantages: short operating time, immediate and accurate identification of the tumor and facial nerve within the internal auditory canal (IAC), possibility of facial nerve reconstruction and control of the involved neurovascular structures. In addition, it allows a high rate of facial nerve function preservation because the facial nerve is identified within the IAC and at brain stem and is deeper than the tumor21.

According to current literature, 8% to 20% of patients undergoing VS surgery experience facial nerve injury, even in experienced hands, despite the use of intra-operative facial nerve monitoring22. In this series, the intra-operative facial nerve injury occurred in 15% of the cases. Moreover, the anatomical preservation of the facial nerve indicates no necessarily preservation of its function23.

The facial function immediately after VS surgery is extremely changeable, also being able to present itself without alteration. In our study, 3 patients (15%) had no FP in this period, but the majority of the patients (85%) presented some grade of facial nerve dysfunction (Grades II-VI). It can be caused by a number of possible mechanisms24. The most common cause is direct trauma or nerve stretching during surgery. The facial nerve is often intimately involved with the tumor, resulting in its distortion through compression and stretching. The severity of adhesions between the tumor capsule and the facial nerve is highly variable15. Theoretically, both neuropraxia and axonotmesis are reversible phenomena and facial nerve function should fully return3. The involvement of the facial nerve with the tumor, either with the nerve passing through the tumor or with the tumor infiltrating the nerve sheath, was documented and graphically represented in the work by Sampath et al.25.

Another common mechanism of facial nerve injury is related to the vascular supply to the facial nerve. Maintaining the blood suplly to the facial nerve is critical. Thermal injury can also cause FP. It is usually transient, but occasionally it may lead to local vasoconstriction and cause secondary ischemic injury to the nerve3. These factors can modify its functional capacity and propitiate the collagen deposition26.

In the recent literature, the rate of good postoperative function of the facial nerve (Grades I-II) in 1 year or longer after surgery is reported to range from 70.7% to 96%10,16,21, if considering any approach whatever the tumor size. The result obtained in the present series was 65%. However, the average dimension of the tumors of our series (3.38 cm) was larger than the ones normally described in the literature6,8,10,15-17,20,23, and the percentage of medium and large tumors in our series was higher. This reflects a delayed diagnosis of the VS in our country. Axon et al.15 reported a mean tumor size of 2.2 cm, Fenton et al.6 of 2.0 cm, and Arts et al.20 of 0.89 cm. In the study of Zaouche et al.8 only 10.2% of patients had large tumors. The status of good facial nerve function when considering tumors extending more than 3.1 cm in the series of Wiet et al.10 was 61%, a percentage very next to our index of 65%.

The prognostic factors of postoperative FP in VS surgery have been variously reported6-8,27. Although tumor size alone should not be considered as a predictive factor, it has been thought to be the most important one9,10. Gormley28 showed that 96% of patients with small tumors had postoperatively normal facial function or slight dysfunction (Grade I-II), whereas only 38% of patients with tumors greater than 4.0 cm had no dysfunction. Mamikoglu et al.18 reported that 45% of patients with tumors greater than 3.0 cm had House-Brackmann grade I-II, 34% had House-Brackmann grade III-IV, and 20% had House-Brackmann grade V-VI facial function at 1-year follow-up. Lanman et al.29 reported that 48% of patients with large tumors (>3.0 cm) had poor facial nerve function at 1-year after surgery. Usually, favorable facial nerve function is achieved in an average of only 50% of patients with large VS operated on by the most experienced teams19. McElveen et al.23 showed that 56% of patients had House-Brackmann grade I-II at 1-year follow-up in tumors larger than 4.0 cm.

In our series tumor size proved to be an important variable on outcome in the long-term follow-up. Statistical significance (p<0.05) was demonstrated in comparison to immediate postoperative results, showing that a large tumor is associated with poorer postoperative facial nerve function (Table 2).

Facial nerve can tolerate a large degree of stretching, compression or distortion, which is caused by the tumor, without apparent FP. However, as the tumor grows, the individual fibers of the facial nerve may become splayed over the tumor capsule. Not surprisingly, very large tumors place the nerve under greater tension, which increases the likelihood of stretch injury and may explain the high rate of FP seen in patients with large tumors27. Alternatively, nerve dysfunction may result from poor vascularization of nerve segments that are effaced by large tumors.

It would appear that the bigger is the tumor the greater is the risk to the nerve. However, size cannot predict the relationship or invasiveness of the tumor with regard to the nerve, the degree of adhesiveness, or the difficulty of dissection6. The facial nerve can traverse any part of the tumor capsule and even pass through the tumor itself, and this occurs equally in small and large tumors25.

Patients with preoperative facial weakness had a poorer prognosis in terms of facial nerve function following VS surgery7. This also could be observed in our series. It may be due to infiltration of the facial nerve by the VS, especially if the tumor is large30.

In conclusion, in spite of the large develpments in VS surgery in the last century, FP remains a frequent complication. The majority of the patients of this study presented improvement of the FP in an average time of 3 years and 10 months (65%). It was clear that it is possible to obtain normal to near-normal facial function in patients operated on by retrosigmoid transmeatal approach. Tumor size was a significant factor for postoperative facial nerve function in a long-term follow-up. This is consistent with other published series.

Received 8 October 2007. Accepted 21 February 2008.

This study was partially sponsored by CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível Superior), Brazil

Dra. Rafaela Júlia Batista Veronezi – Rua Santarém Qd 235 Lt 08 / 802 Pq Amazônia - 74835-170 Goiânia GO - Brasil. E-mail: veronezi@fcm.unicamp.br

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Publication Dates

  • Publication in this collection
    02 June 2008
  • Date of issue
    June 2008

History

  • Accepted
    21 Feb 2008
  • Received
    08 Oct 2007
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