SPASTIC DYSPHONIA: A CASE R E P O R T 

LESLEY WOLK, B . A . ( S P & Η T H E R A P Y ) ( W I T W A T E R S R A N D ) 
Department  of  Speech Pathology  and  Audiology,  University  of  the Witwatersrand, 

Johannesburg. 

SUMMARY 

An in-depth investigation of  a 55-year-old woman with spastic dysphonia was performed. 
The findings  from  otological, neurological and psychological investigations assisted in 
making a differential  diagnosis and served to provide evidence for  the etiology of  this 
disorder. Subjective-perceptual evaluations of  the voice revealed a strained, harsh-
breathy voice quality with frequent  breaks in phonation, a variable pitch and visible 
tension in the face  and neck muscles. Objective spectrographic evaluations revealed 
much turbulence, ill-defined  harmonics, a breakdown in formant  structure, rapid pitch 
fluctuations  and evidence of  diplophonia, which was confirmed  on a fiberscopic 
examination. Post-treatment spectrographic evaluations indicated an improved phona-
tory ability with significant  improvement in the above parameters. Results are discussed 
in terms of  the etiology and symptomatology of  this disorder; and clinical implications 
for  diagnosis and treatment are considered. 

OPSOMMING 

'n 55-jarige vrou met spastiese disfonie  is in diepte ondersoek. Die bevindings van 
otologiese, neurologiese en sielkundige ondersoeke het bygedra tot 'n differensiele 
diagnose en het ook gedien om bewyse te verskaf  vir die etiologie van hierdie afwyking. 
'n Gestremde grof-ruiserige  stemkwaliteit met frekwente  onderbrekings in fonasie, 
veranderlike toonhoogte en sigbare stremming in gesig- en nekspiere blyk uit 
subjektiefperseptuele  evaluasie van die stem. Objektiewe spektografiese  evaluasies bring 
baie omstuimigheid, vaag bepaalde harmoniese tone, 'n afbraak  in formant  struktuur, 
vinnige wisseling van toonhoogte en bewyse van diplofonie  aan die lig. Dit is bevestig 
deur 'n fiberskopiese  ondersoek. 'n Verbeterde fonetoriese  vermoe met opmerklike 
vooruitgang in die bogenoemde parameters blyk uit spektografiese  evaluasies wat na 
behandeling opgeneem is. Resultate word bespreek in die lig van die etiologie en 
simptomatologie van hierdie afwyking  en kliniese implikasies vir diagnose en behande-
ling word oorweeg. 

Spastic dysphonia has long been recognized as the most mysterious and 
the most poorly understood of  all voice disorders. It is a rare disorder 
and literature on the subject is limited, which has led to some 
confusion  with regard to differential  diagnosis and treatment. 
Spastic dysphonia was first  described by Traube in 1871.6 Since then 
many terms have been used to describe the disorder. Aronson, Brown, 
Litin and Pearson, 1 for  example, prefer  the term 'spasmodic' dyspho-
nia to avoid the confusion  that arises from  the use of  the term 'spastic', 
which implies a specific  neurological disorder. It is often  referred  to as 
'stammering of  the vocal cords' or 'laryngeal stuttering' because of  the 
similarity between the glottal symptoms of  spastic dysphonia and the 
oral ones of  the stutterer. For the. purpose of  this paper, the term 
'spastic dysphonia' will be used. 
The onset of  this disorder is reported to be relatively abrupt and to 

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4 Lesley Wolk 

occur almost exclusively in middle age, with women being affected 
slightly more frequently  than m e n . 1 6 ' 2 5 Berendes has defined  'spastic 
dysphonia' as a disorder of  phonation which is characterized by a 
strained,  creaking  and  choked  vocal attack,  a tense and  squeezed  voice 
sound  . . . accompanied  by extreme tension of  the entire phonatory 
system (cited in F o x , 1 2 p.275). He further  noted that the disorder 
disturbs primarily the communicative function  of  speech, with other 
expressive functions  of  the voice (such as laughing, speaking to oneself 
or to animals) remaining intact. Spastic dysphonia represents the most 
extreme form  of  overadduction of  the vocal folds.  There is effortful 
voice production, intermittent voice stoppage, a reduced vocal range 
and inappropriate change in pitch, quality and/or volume. 1 0 The 
patient may complain of  'a choking sensation' or a 'tightness of 
throat'. 7 Several visible features  as described, such as flushing  of  the 
face  and frowning  accompanying the vocal spasm and tic-like contrac-
tions of  the neck muscles.1 , 2 ' 8 Severe contractions of  the thoracic and 
abdominal musculature accompany the laryngeal spasm and is prob-
ably a compensatory forcing  response for  overcoming the resistance to 
exhalation created by the glottal closure. These frustrated  vocal efforts 
result in a pronounced alteration of  pneumophonic (phonatory-breath) 
control. 1 1 ' 1 6 

A basic controversy seems to emerge from  the literature, reflecting  two 
divergent schools of  thought about the etiology of  the disorder. One 
point of  view, typified  by Brodnitz,6 suggests that spastic dysphonia is 
a psychogenic voice disorder, a form  of  conversion hysteria. Here 
spastic dysphonia is seen as one of  two extreme forms  on the 
continuum of  functional  voice disorders: functional  aphonia being the 
one extreme of  hypofunction,  and spastic dysphonia representing the 
extreme of  hyperfunction.  Both disorders are interpreted as the 
physical manifestations  of  a deep-rooted emotional conflict.4'  1 3 
Luchsinger and A r n o l d 1 6 propose that this voice disorder may be 
explained as the intrusion of  a subcortical primitive mechanism of 
phonation after  the regular cortical phonatory system has become 
inhibited by the unconscious withdrawal of  a shattered personality 
from  the threats of  daily life.  In opposition to this point of  view are 
others exemplified  by Robe, Brumlik and M o o r e , 2 5 who claim that 
spastic dysphonia is a manifestation  of  disordered function  of  the 
central nervous system. This organic view was later advocated by 
Aronson et al 2 who feel  that spastic dysphonia has a neurologic 
substrate and may be related to the essential tremor syndrome. 
In view of  the diversity of  opinions regarding its etiology and 
intervention strategies, further  research in this area seemed to be 
indicated. Furthermore, the literature on this subject has been derived 
mainly from  subjective-perceptual evaluations and qualitative descrip-
tions. Little attempt has been made to delineate the acoustic 
characteristics of  spastic dysphonia or to describe the nature of  the 
disorder by other objective means. 

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Spastic Dysphonia 5 

In this paper, the author's intention is thus (a) to highlight the clinical 
picture of  a case with spastic dysphonia and repaired cleft  of  the soft 
palate, (b) to attempt to delineate some of  the acoustic parameters in 
this disorder of  spastic dysphonia, and (c) to present some practical 
implications for  diagnosis and treatment. 

CASE B A C K G R O U N D 
Vocal History: Mrs. G, aged 55 years, was first  seen at the Speech and 
Hearing Clinic, University of  the Witwatersrand, Johannesburg in 
June, 1979. She was referred  by an ear, nose and throat (ENT) 
specialist who reported a dysphonia with no organic pathology evident 
upon laryngeal examination. 
She reported that she suffered  from  a period of  chronic laryngitis and 
experienced a sudden onset of  voice difficulty  approximately twelve 
months prior to the initial assessment. She stated that Ί find  difficulty 
getting out my words, especially if  I'm a bit agitated. . . . I try to force 
my words out and I get so cross with myself'.  She complained of  no 
pain apart from  some discomfort  in the laryngeal region, fatigue  of  the 
upper chest muscles and severe tension in the abdominal area as she 
forces  the air for  speaking. She reported that conversational speech, 
telephone calls, reading long passages and supervising others at work 
were difficult  situations for  her, and that her voice deteriorated when 
she was agitated, angry or upset. There was evidence of  moderate 
depression and extreme anxiety at the time of  initial assessment. No 
previous speech assessments or treatment were reported. 

Medical History: She was born with a cleft  of  the soft  palate which was 
not repaired until recently (lips and hard palate were not affected). 
Mrs. G. reported that although she has always had 'a nasal problem' 
related to the cleft,  it never worried her. Recently she decided to 
undergo surgery as she hoped that this would correct her voice 
problem. The velar cleft  was successfully  repaired in April, 1979. 
According to Mrs. G, some improvement in her voice was noted in the 
immediate post-operative period, but a gradual deterioration has since 
occurred. She has undergone no other surgery, apart from  a 
gynaecological operation in 1962. 

Psychological and Family History: Mrs. G. described several signi-
ficant  'family  stress' factors  which may be associated with the onset of 
her voice problem. No family  history of  speech, language or hearing 
problems was reported. She has been working for  a major oil company 
for  twelve years. At present she holds a senior position as a 
sub-accountant and appears to achieve job satisfaction.  She has tended 
to avoid social contact since the onset of  her voice difficulty. 
She described herself  as a tense person and a perfectionist  both at 
work and at home. 

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6 Lesley Wolk 

CLINICAL OBSERVATIONS 
Mrs. G. presents as an attractive, well-groomed, intelligent middle-aged 
woman. From an informal  assessment, she displayed a reserved, 
controlled introvert-type personality. She exhibited traits of  conscien-
tiousness, keen awareness and discharge of  her responsibilities. She 
maintains an upright, rigid posture with general body tension. Extreme 
tension of  her facial  muscles, forehead  and lips was noted to occur 
during speech; reflected  in much frowning  and facial  contortions (while 
this is typical to spastic dysphonia,1 it may also be associated with 
inadequate velopharyngeal closure). These informal  observations are 
consistent with Damste 9 who characterizes patients with spastic 
dysphonia as reliable  persons with strong  sense of  duty  and  a rigid 
personality,  sensitive and  easily hurt (p. 173). 

EXAMINATIONS C A R R I E D O U T 
Examinations were carried out by an ENT specialist, a neurologist and 
a psychologist respectively, in order to assist in making a differential 
diagnosis and to further  provide evidence for  the etiology of  this 
disorder. Results are summarized in Table 1. 

TABLE I : Summary of  findings  from  otological, neurological and psychological 
examinations. 

E X A M I N A T I O N F I N D I N G 

Otological — no evidence of  anatomical or functional  disorder of 
larynx 

— normal vocal cord movement (indirect laryn-
goscopy) 

— no abnormality of  tongue 
— slight nasal escape 
— difficulty  in phonating 

Neurological — no major neurological deficits  apart from: 
— increased reflexes  in upper and lower limbs 
— slightly awkward digital movements. 
— Normal EEG 
— Normal EMI Scan 

Psychological — Evidence of  marital tension 
— Strong sense of  duty; rigid personality y 
— Various sources of  , emotional conflict 

The neurological findings  seen in Table I, bear some relationship to 
the findings  of  Critchley8 and Aronson et al1 which suggest evidence of 
hypertonus and hyperreflexia  in patients with spastic dysphonia. No 
conclusions can be drawn in relation to the E E G findings  as 
inconsistent results are reported in the literature. Robe et a l 2 3 found 
that 90% of  their subjects showed abnormal E E G recordings; whereas 

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Spastic Dysphonia 7 

Aronson et al 1 found  that 17 out of  22 patients showed normal E E G 
recordings, mild dysrhythmic activity in four  others and independent 
spike foci  in one patient. 
The findings  from  otological, neurological and psychological investiga-
tions seem to provide some support for  the theory proposed by 
Aronson and his co-workers.1 , 2 It is their belief  that perhaps the type 
of  personality described, superimposed on the 'unstable' motor system 
may be the adequate combination for  the development of  the disorder. 
They further  suggest that these patients may have a basic predisposi-
tion or instability of  innervation within the motor system, which is 
manifested  through dysphonia when life  events or personality abnor-
malities precipitate the symptoms. 
Currently, D a m s t e 1 0 has found  no evidence to assume that one single 
organic factor  can be held responsible for  causing spastic dysphonia. 
He contends that organic factors  contribute in bringing the patients to 
a disadvantaged position. This, together with other external, constitu-
tional and personality factors  may trigger the 'pathologic defense 
system' of  which he feels  the symptoms of  spastic dysphonia are a part. 

ASSESSMENT O F COMMUNICAION B E H A V I O U R 

The assessment of  communication behaviour was carried out by the 
author over a period of  3 months. This included a hearing assessment, 
an oral peripheral examination, a speech and language assessment. 
Results are summarized in Table II. Overall intelligibility thus 
appeared to be impaired by jerky rhythmic patterns, disturbed 
intonation patterns, periodic breaks in phonation and the frequent 
substitution or insertion of  glottal stops. For the purpose of  this paper, 
only a more detailed discussion of  the acoustic impedance measure-
ment will be included. 

Acoustic Impedance Measurement 
Studies have shown that middle ear muscle contraction precedes 
vocalisation by 65-100 ms or coincides with i t . 2 0 ' 2 6 The findings  of 
recent studies provide evidence for  a high incidence of  apparent 
middle ear dysfunction  in patients with spastic dysphonia.1 9 The use 
of  acoustic impedance measurement has thus been advocated in order 
to further  assess this phenomenon. 
Briefly,  the procedure used involved stimulating the acoustic reflex 
with sound stimuli at a 20 dB suprareflex  threshold level for  ap-
proximately 30 seconds. The Madsen Z070 electroacoustic impedance 
bridge was used to observe the changes in middle ear impedance 
secondary to reflex  contraction of  the tympanic muscles. The focus  in 
data analysis was concerned with certain dynamic response characteris-
tics of  the middle ear muscles as evidenced by the acoustic impedance 
measurements. Particular attention was given to (1) on-time, (2) 
steady-state and (3) off-time  characteristics of  the acoustic reflex 

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8 Lesley Wolk 

TABLE II: Summary of  findings  from  an assessment of  communication 
behaviour. 

Hearing 
(a) Pure-Tone 

Audiometry 
— Normal 

(b) Acoustic Impedance 
Audiometry 

— Apparent abnormalities in middle ear muscle 
function  (see below) 

Oral Peripheral 
Examination (OPE) — Structural and functional  adequacy of  lips, teeth 

and jaw, tongue and hard palate. 
— Slight asymmetry of  soft  palate and uvula. 
— Soft  palate is short 
— Oropharynx is slightly shallow with excess width 
— Nare constriction 
— Adequate velopharyngeal closure since cleft 

repair 
— Slight nasal escape (on plosives). 

Speech — Minimal articulation errors related to history of 
congenital velar cleft: 

— substitution and insertion of  glottal stops. 
— distortion of  fricatives  (e.g. /s,z/). 
— substitution of  voiceless sounds for  their voiced 

cognates. 

Language — Normal 

response. A qualified  audiologist acted as a second observer to provide 
a measure of  reliability. 
The findings  revealed normal tympanograms peaking at zero pressure 
level (mm w/s) bilaterally, and acoustic reflexes  within normal limits. 
Three types of  apparent abnormalities in the middle ear muscle 
function  were observed: 
1. An apparent abnormality in the steady-state portion of  the acoustic 

reflex  was observed at 4 000 Hz in both ears i.e. reflex  contraction 
of  the middle ear muscles was not sustained for  the duration of 
acoustic stimulation at 4 000 Hz. Instead, the muscles apparently 
contracted briefly  at the onset of  stimulation and again at the 
cessation of  stimulation. However, in view of  the fact  that this 
phenomenon only occurred at 4 000 Hz, which has been found  to 
occur in some normal subjects, 1 4 no conclusions can be drawn. 

2. An abnormality in the off-time  characteristics of  the acoustic 
impedance response was noted to occur at 1 000 Hz in the right (R) 
ear and at 500 Hz in the left  (L) ear. This refers  to a prolonged 
time involved in the return to the baseline, which McCall 1 9 feels 
might be suggestive of  a problem in muscle relaxation. 

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Spastic Dysphonia 9 

3 There was evidence of  possible tremor or shivering of  the middle 
ear muscles at the following  frequencies:  250 Hz, 1 000 Hz and 2 000 
Hz in the (R) ear, and 250 Hz, 500 Hz and 1 000 Hz in the (L) ear. 

It is important to mention at this point, that these results may be 
affected  by the presence of  the velar cleft,  as a high incidence of 
middle ear pathologies in cleft  palate patients is well documented in 
the literature.3 Nevertheless, the results discussed above are consistent 
with those of  McCall 1 9 who found  similar results in his patients with 
spastic dysphonia. The observation of  possible difficulty  in muscle 
relaxation and tremor of  the middle ear muscles might add further 
support to suggest neurogenic involvement of  the extrapyramidal 
motor system in this p a t i e n t . 1 9 Damste 9 has further  suggested that the 
combined activity of  vocal cords, velum and middle ear muscles in 
normal speech, might serve to explain that all three may be affected 
simultaneously when there is a supernuclear excitation inhibition 
disorder. 

ASSESSMENT O F V O I C E D I S O R D E R : 
Subjective-Perceptual Evaluations 

An analysis of  the tape recorded speech sample and general 
observations from  the initial assessment revealed the following: 
1. A disturbance of  respiratory control and a lack of  pneumophonic 

co-ordination. This is reflected  by a predominant use of  thoracic 
and clavicular breathing, shallow inhalations, jerky movements and 
a difficulty  in sustaining phonation. 

2. A variable pitch in conversational speech and a difficulty  in 
regulating the pitch level. 

3. A reduced intensity level. 
4. A harsh voice quality with periodic breaks in phonation, accom-

panied by visible tension of  the muscles in the face  and neck. A 
glottal stroke was heard at the onset of  phonation. There was 
evidence of  apparent breathiness throughout all phonation. 

5. The reflex  actions of  phonation were intact. Thus, coughing, 
laughing and crying were carried out normally. Singing, talking to 
herself  and her pet cat were reported by her to facilitate  improved 
phonation. This was confirmed  by the clinician who listened to tape 
recordings of  her speaking in these situations at home. 

Objective Evaluation — Spectrographs Assessment 
Spectrographic analyses were carried out as a diagnostic tool in an 
attempt to gain further  insight into the nature of  this disorder. 
A Kay Sonagraph Model 6061-B (Kay Elemetrics 6, Pine Brook, N.J.) 
was used to produce type B/65 spectrograms from  the tape recordings 
of  conversational speech. The data in this study were derived from 
broad-band and narrow-band spectrograms. Practically, it was not 
possible to analyze spectrographically all utterances recorded during 

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10 Lesley Wolk 

diagnostic evaluations. Thus only a few  utterances from  the spon-
taneous speech sample taken at the initial assessment, were randomly 
chosen. The analysis of  spectrographic data was descriptive in nature. 
For the purpose of  this paper, only a few  of  these utterances were 
selected in order to highlight the major findings. 
The spectrographic representation for  the utterance 'and when I asked 
him' is illustrated in Figure  1. On the broad-band spectrogram (Fig. 
la) there is evidence of  much breathiness and ill-defined  harmonics. 
Sections were taken during the steady-state of  the vowel, which 
showed that the filter  function  is operating in such a way as to dampen 
the harmonics. Spectral energy is entirely missing where Formant 1 
(Fl) was expected. While F2 is present, there is no evidence of  F1 and 
F3. This finding  may be explained by a reduced driving force  from  the 
lungs, resulting in a reduced subglottal pressure at the vocal cords; 1 5 or 
possibly inadequate adjustment of  the vocal folds  which would also 
affect  the range of  harmonics. It can be noted in Figure  la that there 
are bursts of  energy which probably occur after  the initial glottal attack 
or 'laryngeal spasm'. The narrow-band spectrogram (Fig.  lb) confirms 
the breathiness evident on the broad-band spectrogram, reflecting  a 
lack of  vocal cord approximation. This is illustrated by a sporadic and 
inconsistent occurrence of  harmonics. 

Figure  la.  Broad-band spectrogram showing utterance /and wen ai a:skt him/. 
N o t e : Some of  the noise evident is from  the tape-recording. 

and wen ai ' a:skt him 
Figure  lb.  Narrow-band spectrogram showing utterance /and wen ai a:skt him/. 

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The scale magnified  narrow-band spectrograph^ representation of  the 
,,iterance Ί asked my husband' is illustrated in Figure  2. Marked 
fluctuations  in pitch can be seen on the vowel /a:/ in 'asked', with a 
relatively high fundamental  frequency  (±200 Hz). There is a rise in 
oitch from  250 Hz to 350 Hz (100 Hz in approximately 24 ms) 
indicating that pitch change is very rapid. It seems then, that rapid 
pitch fluctuations  in this patient give rise, at least in part, to the 
perceptual effect  of  harshness.2 8 

I 
Ψ. 

t 

Figure  2. Scale-magnified  narrow-band spectrogram showing utterance /ai a:skt 
mai tvizbond/. 

Figure  3 represents the utterance 'how did the voice sound?' An 
examination of  the scale magnified  narrow-band spectrogram (Fig.  3) 
alerted the author to another diagnostic feature  which was hardly 
available during periodic subjective-perceptual evaluations. The har-
monic structures represent the characteristic picture of  diplophonia, 
which is clearly illustrated on the vowel /aw/ in 'sound'. Here it can be 
seen that the harmonic at 1250 Hz bears no relationship to the 
harmonic starting at 1000 Hz and moving down to 800 Hz. Similar 
pitch fluctuations  to those discussed in Figure  2 are evident. It is 
interesting to note that there are simultaneous rising, falling  and level 
pitches, indicating that the vocal cords are vibrating in at least two 
distinct modes at the same t i m e . 2 7 At the level pitch, the rate of 
vibration is maintained, whereas at the falling  pitch there is a slowing 
down of  the vocal fold  vibration. It can be concluded therefore  that in 
this case of  diplophonia, there are (a) different  modes of  vibration and 
(b) different  rates of  vibration for  each mode. B o o n e 5 has stated that 
diplophonia is frequently  a symptom of  general hyperfunctional  usage 
of  the vocal mechanism (p. 173). This diagnostic evaluation would thus 
seem to correlate significantly  with the general diagnostic picture of 
spastic dysphonia and the frequent  use of  glottal stops resulting from 
the cleft  palate. 

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12 Lesley Wolk 

aw 31 /aw/ 
r 

Figure  3. Scale-magnified  narrow-band spectrogram showing utterance /haw did 

After  obtaining valuable diagnostic information  from  the spectro-
graphic data discussed above, it was decided to extend the objective 
evaluation as a measure of  therapeutic success. Spectrographic 
analyses were carried out two months after  the onset of  treatment and 
at the end of  treatment. The patient was treated for  a total period of 
four  months. Utterances were again chosen randomly from  tape-
recorded spontaneous speech samples. For the purpose of  this 
discussion, spectrographic analyses carried out during the course of 
treatment will not be discussed in detail. They reflected  a steady 
progression towards improved phonatory ability. 
Figure  4 represents the utterance 'there were three factors',  which was 
taken from  a sample at the end of  treatment. Here it can be seen that 
there is some evidence of  breathiness, although this is considerably 
reduced when compared with the utterance 'and when I asked him' in 
Figure  1. The harmonics are clearly defined  and there is no evidence of 
diplophonia. Similar results were obtained from  several other utter-
ances analyzed spectrographically after  treatment. The fact  that the 
characteristic of  'diplophonia' was not evident on subjective-perceptual 
evaluations, leads one to assume that it may in fact  be a symptom 
commonly associated with spastic dysphonia, but one which might 
have previously been overlooked because of  the reliance upon 
subjective evaluations. 

da vsis sawnd/. 

V •mnaak 
/ 

δ ε a w3: eri: fsekt3z 
Figure  4. Post-therapy scale-magnified  narrow-band spectrogram showing 

utterance /δε3 w3: eri: fiektsz/1. 

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Spastic Dysphonia 
13 

p i h p r s c o p i c j ^ a m i n a t i o n : 
r T T j I Z ^ ^ t r u m e n t a t i o n such as the flexible  fiberoptic  nasolaryngo-
scope (fiberscope)  provides a means for  making direct observations of 
laryngeal behaviour during voice production. 
The entire procedure was carried out in the Department of  Phonetics 
and General Linguistics, University of  the Witwatersrand, 
Tohannesburg 2 7 The fiberscope  was connected by a C-mount adapter 
to a camera. A diagnostic fiberoptic  light source provided necessary 
illumination The fiberscope  was inserted into one nostril until the tip 
of  the scope reached a level slightly rostral to the superior margin of 
the epiglottis, which allowed for  observation of  the patient's vocal 
folds  and laryngeal structures. A tape recorder Uher 4200 Report 
Stereo IC with an M816 directional microphone, was prepared to run 
concurrently with this examination so as to record all utterances which 
could then be carefully  examined with its corresponding slide. The 
patient was asked to (1) breathe at rest, (2) sustain voicing on the 
vowel /i:/, (3) converse with the investigator and (4) read a passage 
from  a book. 
A review of  the slides revealed the following  findings: 
1 The vocal cords were normal at rest, as illustrated in Figure  5. 

At the onset of  phonation for  the vowel li:l  there seemed to be a 
tight sphincteric closure, which subsequently disappeared and 
continued as normal voicing. 
During connected speech, there was evidence of  an inconsistent 
picture, variable in the attitude of  one vocal fold  to the other, i.e. 
the two vocal folds  did not lie equal to each other; one fold 
appeared larger and thicker as if  it was pulled slightly over the 
other vocal fold.  This is clearly illustrated in Figure  6. 

2. 

3. 

Figure  5. Subject's laryngeal Figure  6. Subject's laryngeal be-
behaviour during quiet breath- haviour during connected speech 
ing, showing that the vocal cords (voicing), 
are normal at rest. 

(Note that the two vocal cords are not lying symmetrically to each other. The (R) fold  is 
larger and thicker, as if  it is pulled slightly over (L) fold.  This picture of  asymmetry was 
seen repeatedly in connected speech.) 

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14 Lesley Wolk 

There was a general picture of  'shuddering' or 'laryngeal spasms' as 
expected for  this voice disorder. Throughout all conversational speech 
and reading tasks, a slight 'chink' in the vocal cords was evident, which 
would account for  the continual breathy escape. Overall results thus 
served to confirm  the diagnosis of  'diplophonia' noted on the 
spectrographic assessment; and to validate the information  obtained 
from  subjective-perceptual evaluations. 
In summary, subjective-perceptual evaluations of  the voice revealed a 
strained, harsh-breathy voice quality with frequent  breaks in phona-
tion, a variable pitch and visible tension in the face  and neck muscles. 
Objective spectrographic evaluations revealed much turbulence, ill-
defined  harmonics, a breakdown in formant  structure ('filtering-out'  of 
formants),  rapid pitch fluctuations  and evidence of  diplophonia which 
was confirmed  on the fiberscopic  examination. Post-treatment spec-
trographic evaluations indicated an improved phonatory ability. There 
was a minimum turbulence, clearly defined  harmonics, increased 
energy, increased sub-glottal pressure and an absence of  diplophonia; 
giving rise to a less breathy, less harsh, less choked voice quality. This 
was combined with improved pneumophonic co-ordination, reduced 
tension of  the face  and neck muscles, an elimination of  glottal attacks 
and a better adjusted social personality. 

CONCLUSIONS A N D IMPLICATIONS 
It seems premature to make a general assumption that a patient with 
spastic dysphonia is suffering  either from  a psychogenic disorder or a 
neurologic one. As Aronson et al 1 proposed, the issue must be 
resolved on the basis of  findings  that can be established for  each 
particular patient. 
The author has thus postulated that in this single case, the onset of 
spastic dysphonia may be attributed to long term vocal misuse in 
compensation for  the velar c l e f t , 1 8 ' 2 1  possibly precipitated by the 
physical trauma of  'secondary laryngitis'1 6 and the cleft  repair 
operation, combined with the psychological stresses of  life  which occur 
during middle age. Furthermore both the neurological and psycho-
logical findings  in this study might point to an underlying organic or 
psychogenic predisposition. This explanation is supported by Cooper 7 
who recently concluded that: the onset and development of  incipient 
spastic dysphonia and spastic dysphonia are due to long term/vocal 
misuse, with psychological or physical trauma often  being the'catalyst 
(p. 173). An extension of  this may lead one to postulate that in this 
single case, both the congenital velar cleft  and the predisposition for 
the occurrence of  spastic dysphonia may be related to a single common 
constitutional or embryological factor.  ι 

Clinical Implications 1 
The spectrographic analyses and fiberscopic  examination carried out in 
this study served to provide an accurate diagnosis of  the voice disorder 

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Spastic Dysphonia 15 

and an evaluation of  voice improvement both during and after 
treatment. 
Most authors agree that the overall prognosis in patients with spastic 
dysphonia is p o o r . 5 , 7 Currently however, it is still felt  that the 
combination of  voice therapy with psychotherapy offers  the best 
chances for  i m p r o v e m e n t . 4 , 6 Several voice therapy techniques have 
been advocated, some of  which were found  to be useful  in the 
treatment of  this patient. These include procedures such as physical 
relaxation, respiration training and the correction of  pneumophonic 
c o - o r d i n a t i o n ; 7 , 1 0 , 1 3 the yawn-sigh technique, humming and vowel 
exercises, Froeschel's chewing method, the elimination of  hard glottal 
attacks and the use of  a hierarchy analysis to assist the patient in 
recreating those environments where relaxed phonation is best 
a c h i e v e d . 5 , 2 5 E M G biofeedback  has recently been proposed as an 
effective  adjunct to traditional therapy methods for  hyperfunctional 
voice disorders.2 2 Its applicability and effectiveness  in patients with 
spastic dysphonia, however, is still uncertain, so that further  investiga-
tion into this area seems to be indicated. 
The findings  of  this study point to an important implication regarding 
habilitative procedures employed in the treatment of  cleft  palate 
children. There seems to be a tendency in some cases to overlook the 
vocal dimension in the treatment of  these patients, focusing  mainly on 
the improvement of  velopharyngeal closure and increased flexibility  of 
the articulators. Luse, Heisse and F o l e y 1 7 showed that all their cleft 
palate cases had a spasm of  the hypopharynx prior to rehabilitation, 
indicating excessive hypopharyngeal and laryngeal tension. They thus 
contend that cleft  palate quality can be eliminated by reducing-tension 
in the laryngeal and pharyngeal areas, so that the manner of  phonation 
or vocalisation would seem to be the starting point for  rehabilitation. 
While this study was concerned primarily with an evaluation of  the 
vocal parameters, it would be of  interest and probably essential to 
further  investigate speech breathing in patients with spastic dysphonia. 
Further research employing spectrographic analyses and fiberscopic 
examinations, working optimally within a team approach, would be of 
value in the evaluation and rehabilitation of  a variety of  voice 
disorders. 

ACKNOWLEDGEMENTS 

The author wishes to thank Mrs. M. Wahlhaus, Senior Lecturer and 
Ms. C. Penn, Lecturer, in the Department of  Speech Pathology and 
Audiology of  the University of  the Witwatersrand for  their invaluable 
guidance and support, and Mr. A. Traill, Senior Lecturer of  the 
Department of  Phonetics and General Linguistics for  his valuable 
assistance in the spectrographic and fiberscopic  testing of  this patient. 
The author also acknowledges the Human Sciences Research Council 
for  its financial  assistance. 

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16 Lesley Wolk 

REFERENCES 
1. Aronson, A. E . , Brown, J. R., Litin, Ε. M. and Pearson, J. S. 

(1968): Spastic Dysphonia I. Voice, neurologic and psychiatric 
aspects. J.  Speech  Hear.  Dis. 33, 203-218. 

2. Aronson, A. E., Brown, J. R., Litin, Ε. M. and Pearson, J. S. 
(1968): Spastic dysphonia II. Comparison with essential (voice) 
tremor and other neurologic and psychogenic dysphonias. J. 
Speech  Hear  Dis. 33, 219-231. 

3. Arora, Μ. M. L., Sharma, V. L., Gudi, S. P. and Balakrishnan, 
C. (1979): Acoustic impedance measurements and their import-
ance in cleft  palate patients. The J.  Laryngol  and  Otol.  93, 
443-445. 

4. Bloch, P. (1965): Neuro-psychiatric aspects of  spastic dysphonia. 
Folio  Phoniat. 17, 301-364. 

5. Boone, D. R. (1971): The  voice and  voice therapy. Prentice-Hall, 
Inc. Englewood Cliffs,  New Jersey. 

6. Brodnitz, F. S. (1976): Spastic dysphonia. Ann. Otol.  85, 
210-214. 

7. Cooper, M. (1973): Modern  techniques of  vocal rehabilitation. 
Charles, C. Thomas Publishers, Springfield,  Illinois. 

8. Critchley, M. (1939): Spastic dysphonia; ('Inspiratory Speech'). 
Brain. 62, 96-103. 

9. Damste, P. H. (1977): Spastic dysphonia; untieing or cutting the 
knot. O.R.L. 39(3), 173. 

10. Damste, P. H. (1978): Spastic  dysphonia:  An interpretation  of  the 
symptoms. Communicative Disorders in Audio Journal for  Con-
tinuing Education. 3(5) May. Bradford,  L. J. (Ed) Grune and 
Stratton, Inc., New York. 

11. Dedo, Η. H. (1976): Recurrent laryngeal nerve section for  spastic 
dysphonia. Ann. Otol.  85, 451-459. 

12. Fox, D. R. (1969): Spastic dysphonia: A case presentation. J. 
Speech  Hear.  Dis. 34, 275-279. 

13. Greene, M. C. L. (1964): The  voice and  its disorders.  Pitman 
Medical Publishers, Co., Ltd., 2nd Edition. 

14. Jerger, J. (Ed). (1973): Modern  developments  in audiology.  2nd 
Edition Academic Press Inc. A subsidiary of  Harcourt, Brace 
Jovanovich. Publishers. 

15. Ladefoged,  P. (1967): Three  areas of  experimental  phonetics. 
Chapter 1. Oxford  University Press. Ely House, L o n d o n ' 

16. Luchsinger, R., and Arnold, G. E. (1965): Voice-speech-language. 
Belmont, California.  Wordsworth. 

17. Luse, E., Heisse, J. and Foley, J. (1964): The vocal approach in 
the correction of  cleft  palate speech.[Folio  Phoniat. 16, 123-129. 

18. Marks, C. R., Barker, K. and Tardy; Μ. E. (1971): Prevalence of 
perceived acoustic deviations related' to laryngeal function  among 
subjects with palatal abnormalities. Cleft  Palate  J.  8(2) 201-211. 

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Spastic Dysphonia 17 

19. McCall, G. N. (1973):. Acoustic impedance measurement in the 
study of  patients with spasmodic dysphonia. J.  Speech  Hear.  Dis. 
38(2), 250-255. 

20. McCall, G. N. and Rabuzzi, D. D . (1973): Reflex  contraction of 
middle ear muscles secondary to stimulation of  laryngeal nerves. 
J.  Speech  Hear  Res. 16, 56-61. 

21. McDonald, Ε. T. and Koepp-Baker, H. (1951): Cleft  palate 
speech. An interpretation of  research and clinical observations. 
/.  Speech  Hear  Dis. 16, 9-20. 

22. Prosek, R. Α., Montgomery, Α. Α., Walden, Β. E. and Schwartz, 
D. M. (1978): EMG Biofeedback  in the treatment of  hyperfunc-
tional voice disorders. J.  Speech.  Hear.  Dis. 43(3), 282-294. 

23. Robe, E . , Brumlik, J. and Moore, P. (1960): A study of  spastic 
dysphonia: Neurologic and electroencephalographic abnormali-
ties. Laryngoscope. 70(3), 219-245. 

24. Saito, S., Fukuda, H., Kitahara, S. and Kokawa, N. (1978): 
Stroboscopic observation of  vocal fold  vibration with fiberoptics. 
Folio  Phoniat. 30(4) 241-244. 

25. Segre, R. (1951): Spasmodic aphonia. Folio  Phoniat. 3, 150-157. 
26. Shearer, W. M., and Simmons, F. B. (1965): Middle ear activity 

during speech in normal speakers and stutterers. J.  Speech  Hear. 
Res. 8, 203-207. 

27. Traill, A. (1979): Senior Lecturer in the Department of  Phonetics 
and General Linguistics, University of  the Witwatersrand, Johan-
nesburg. Personal  Communication. 

28. Wendahl, R. W. (1963): Laryngeal analog synthesis of  harsh voice 
quality. Folio  Phoniat. 15, 241-250. 

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