After total laryngectomy, the patients often report immediate and marked olfactory deficit. The aim of this study was to determine whether hyposmia in laryngectomees reflects olfactory epithelial damage. Ten laryngectomized patients and ten rhinologically normal subjects were subjected to olfactory testing, after which histological examination of biopsied olfactory mucosa was performed. Olfactory testing in laryngectomees revealed a marked reduction in odor perception. Histological examination of olfactory mucosa specimens showed that in laryngectomees some neuroepithelial structural features were comparable with those found in normal subjects. However, additional signs of damage were also observed, consisting mainly of various degrees of epithelial degeneration, above and beyond those that are characteristic of physiological epithelium turnover. These different degenerative features consisted of severe damage to the neuroepithelium, culminating in complete topical loss. Bowman's glands were also observed to be involved in the degenerative process. Laryngectomy-induced hyposmia seems to be correlated with the almost complete loss of nasal airflow due to the disconnection between the upper and lower airways, which prevents odor molecules from reaching the olfactory area, together with degenerative phenomena, which affect the neuroepithelium, and consequent failure in neurosensorial performance.
In order to evaluate the results of voice and speech rehabilitation after total laryngectomy some acoustic parameters (fundamental frequency, waveform perturbation) were examined in 18 total laryngectomy patients. Eight of these subjects had previously been surgically rehabilitated with a trachealesophageal phonatory valve while 10 had been submitted to esophageal speech rehabilitation. Analysis of results has shown that trachealesophageal voices are more likely to provide a stable fundamental frequency; there is also a tendency toward more clearly defined harmonics; jitter and shimmer are more similar to the values of normal subjects compared with those observed in esophageal speech. Such results seem to depend on a more regular vibration pattern in the pharyngealesophageal segment, due to the more efficient expiratory flow in trachealesophageal speech. Moreover we were able to demonstrate a correlation between the objective parameters evaluated and the subjective score on speech acceptability.
Williams syndrome (WS) is a rather rare congenital disorder characterised by a series of cardiovascular, maxillo-facial and skeletal abnormalities. It sometimes displays otorhinolaryngological symptoms because of the relatively high incidence of secretory otitis media and hyperacusis, which may be present in up to 95% of patients. The present paper describes a case of WS associated with bilateral conductive hearing loss which was not related to secretory otitis media. Hyperacusis was, moreover, present in spite of the conductive deafness. Surgical or prosthetic treatment of hearing loss was delayed because of hyperacusis. Treatment of the hyperacusis by acoustic training, instead, yielded excellent, long-lasting remission of the symptoms.
A multifrequency multicomponent admittance meter was used to evaluate 70 ears of patients affected by fenestral otosclerosis (Os ears), monolateral (16 cases) or bilateral (27 cases). The 16 contralateral ears of the patients with monolateral otosclerosis who presented a pure-tone air-bone gap less than 10 dB were evaluated separately (Cos ears). A group of 48 ears belonging to 24 otologically normal subjects (N ears), with hearing thresholds better than or equal to 10dB HL in the frequencies between 250 and 8000 Hz served as a control group. The purpose of the study was to evaluate the acoustic admittance characteristics of the three groups of ears, with particular regard to the parameters represented by the resonance frequency (RF), the acoustic conductance value (G) at RF and the individual interaural differences in these two parameters in the N and Cos groups. The degree to which fenestral otosclerosis can influence variations of RF and the correlation between the value of RF and conductive hearing loss in patients with clinically confirmed pictures and in the controlateral ears in the cases where the disease was clinically unilateral were also investigated. The study reveals statistically significant differences between the RF means in the N group (1085 +/- 244Hz) vs the Os group (1264 +/- 320 Hz) (p < 0.001) and between the G means in the N group (5.33 +/- 1.72 mmhos) vs the Os group (4.46 +/- 2.54 mmhos) (p = 0.04) and N group vs Cos group (3.42 +/- 2.27 mmhos) (p < 0.001). No correlation was found between the value of RF and conductive hearing loss. This study also shows how prognostic value may also be attributed to conductance at middle-ear pressure balancement: extremely low values for this parameter at RF are indicative of initial otosclerotic involvement of the oval window.
The present study evaluated the differences in aerodynamic behavior between the 1990 Provox and 1986 Staffieri voice prostheses for total laryngectomy patients. Both prostheses were submitted to in vitro laboratory testing to assess their aerodynamic behavior under different conditions of air flow through the valve and tracheal side pressure. In addition, six patients using the Provox and another six using the Staffieri prostheses were submitted to a dynamic study of phonation. This latter study evaluated the intratracheal pressure corresponding to the different intensities at which the vowel sound /a/ was pronounced. In vitro measurements revealed significant differences between the two prostheses, with the best results achieved with Provox. In contrast, the in vivo measurements did not reveal any significant differences between the two groups of patients in the 50-79 dBSPL range, although there was some difference at intensities equal to or greater than 80 dBSPL. Again, in this latter case the best results were achieved with the Provox. However, the ideal prosthesis has yet to be found. In some patients, the so-called low-resistance prostheses fail to maintain their aerodynamic performances, most likely because anatomic resistors interfere with the effort (i.e., pressure) required to produce a voice. At present the choice of prosthesis is best determined on an individual patient-to-patient basis.
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