Involvement of the vertebral artery in hemifacial spasm: clinical features and surgical strategy

A comprehensive, accurate, and valid system for reporting results of facial nerve surgery and disease is needed. This study describes and statistically analyzes eight currently available systems for reliability, validity, and ease of use. They are divided into three grading categories: gross scales, regional systems, and specific scales. Botman and Jongkees, May, and Peitersen have proposed five-point gross scales. Janssen, Smith, Adour and Swanson, and Yanagihara have devised regional systems. Stennert has proposed a specific criteria scale. Fifteen otologists experienced with facial nerve problems used modifications of the existing scales to evaluate videotapes of 12 patients representing the complete range of facial function. The observers' responses were translated back to the original scales. Observers also ranked patients from least to most severe, to obtain an accurate assessment of facial function for patients in the study. A follow-up questionnaire examined observers' system preferences. Validity is measured by correlating responses to different scales and by comparing responses to each scale with observers' rankings. All scales have good validity except the scales of Stennert and Yanagihara. Consistency of responses is determined by reliability coefficients. Coefficients for all scales are high except for the gross scale, which is moderately reliable, and the Stennert scale, which is unreliable. Results indicate that all scales succeed in evaluating patients with normal function or total paralysis. The regional scales have the highest reliabilities but they also have wide response ranges. Most also assume a level of precision that is unsubstantiated. Gross scales have smaller ranges, which result in greater agreement of responses but lower reliability. Comparisons to more complex scales show that the simpler gross scales convey similar information about patients. The study concludes that a gross scale is the best type of system and proposes a new scale for international acceptance. This system has six categories, includes secondary defects, is designed to clearly differentiate between moderate degrees of dysfunction, and should facilitate interpretation and communication of facial nerve results.

This paper reviews the principal English literature on hearing preservation in unilateral acoustic neuroma surgery. Seventeen case reports and 13 surgical series are included. In addition, we report ten cases of our own, two with successful hearing preservation. The purpose of this report is to study feasibility, success rate, and associated problems. Previous reports have been compared in terms of criteria that we have selected. A classification system similar to Silverstein's is used. The total number of cases under review is 621, with 221 reported successes. Cases limited to those having a unilateral acoustic neuroma, with valid supportive audiometry, were 394, with 131 successes. The approximate overall rate of success is 33%. There are five cases of hearing preservation with unilateral acoustic neuromas 3 cm or larger when supporting audiometric data are available, the largest being "4-5 centimeters." Problems included mixing of unilateral acoustic neuromas with other types of tumors and failure to include comprehensive data, particularly audiometry. We conclude 1) that hearing preservation is a reasonable goal in unilateral acoustic neuroma surgery, although the number of available candidates is relatively small and 2) that intelligent selection of patients and high quality surgical technique are the keys to success.

Microvascular decompression has become an accepted surgical technique for the treatment of trigeminal neuralgia, hemifacial spasm, glossopharyngeal neuralgia, and other cranial nerve rhizopathies. The senior author (P.J.J.) began performing this procedure in 1969 and has performed more than 4400 operations. The purpose of this article is to review some of the nuances of the technical aspects of this procedure. A review of 4415 operations shows that numerous modifications to the technique of microvascular decompression have occurred during the last 29 years. Of the 2420 operations performed for trigeminal neuralgia, hemifacial spasm, and glossopharyngeal neuralgia before 1990, cerebellar injury occurred in 21 cases (0.87%), hearing loss in 48 (1.98%), and cerebrospinal fluid (CSF) leakage in 59 cases (2.44%). Of the 1995 operations performed since 1990, cerebellar injuries declined to nine cases (0.45%), hearing loss to 16 (0.8%), and CSF leakage to 37 (1.85% p < 0.01, test for equality of distributions). The authors describe slight variations made to maximize surgical exposure and minimize potential complications in each of the six principal steps of this operation. These modifications have led to decreasing complication rates in recent years. Using the techniques described in this report, microvascular decompression is an extremely safe and effective treatment for many cranial nerve rhizopathies.