38 

VOCAL T R A C T DYNAMICS IN AN A D U L T STUTTERER 

LESLEY WOLK, B . A . ( S P & Η THERAPY) ( 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 

The present study was motivated by the clinical observation of  "laryngeal spasms" during 
dysfluency  in an adult female  stutterer. The flexible  fiberoptic  nasolaryngoscope was 
employed in an attempt to assess this phenomenon objectively. Findings from  fiberscopic 
and spectrograph^ investigations provided evidence for  a disturbance in laryngeal 
behaviour, and in turn served to determine the nature of  the treatment programme. 
Asymmetry of  the vocal folds  and partial abductory laryngeal behaviour, reflecting  a 
conflict  between adductory and abductory forces,  characterized the dysfluency  in this 
patient. A subjective evaluation after  treatment revealed a reduction in both severity 
and frequency  of  stuttering behaviour. Furthermore, fiberscopic  examination carried out 
after  treatment revealed an absence of  the laryngeal disturbances noted previously. 
Results are considered in terms of  vocal tract dynamics in stuttering and its clinical 
applicability. 

OPSOMMING 

Die kliniese waarneming van "laringeale spasmas" gedurende onvlotheid in 'n volwasse 
vroulike hakkelaar het die navorser beweeg tot verdere ondersoek van hierdie 
verskynsel. 'n Buigbare fiberskopiese  nasolaringoskoop is gebruik in 'n poging om die 
verskynsel objektief  te evalueer. Bevindings van fiberskopiese  en spektografiese 
ondersoeke het bewys gelewer van 'n versteuring in laringeale gedrag, en het 
terselfdertyd  ook die aard van die terapieprogram bepaal. Asimmetrie en gedeeltelike 
abduksie van die stemlippe wat 'n konflik  tussen adduktor en abduktor kragte reflekteer, 
was 'n kenmerk van die pasient se onvlotheid. 'n Subjektiewe evaluasie na behandeling 
het 'n vermindering in beide die graad en frekwensie  van hakkelgedrag getoon. 'n 
Fiberskopiese ondersoek, wat na die behandeling uitgevoer is, het verder 'n afwesigheid 
van laringeale versteuring getoon. Resultate is gei'nterpreteer teen die agtergrond van 
vokale kanaal dinamiek in hakkel en die kliniese toepassing daarvan. 

Many years ago it was theorized that the larynx plays a significant  role 
in stuttering (Kenyon9). Recently, investigations have provided some 
evidence for  a relationship between phonatory behaviour and stutter-
ing; the nature of  which however, is still unclear (Adams and Hayden, 1 
Conture, McCall and Brewer, 2 Freeman and Ushijima3, inter alia). 
Modern technological advances have facilitated  the use of  several 
physiological measurement strategies in research with stutterers 
(Hutchinson8). To date, none of  these techniques has received more 
than isolated research interest. Furthermore, only little significant 
effort  has been made to extend these experimental results to their 
practical clinical utility.. This study was motivated by the clinical 
observation of  "laryngeal spasms" ι associated with dysfluency,  during 
the course of  therapy with an adult female  stutterer. The flexible 
fiberoptic  nasolaryngoscope (fiberscope)  was thus employed to investi-
gate the phonatory gestures in this patient. 

The  South  African  Journal  of  Communication  Disorders,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



39 
Vocal Tract Dynamics in Stuttering 

m this paper, the author's intention i s : - (a) to discuss the fiberscopic 
^ n a t i o n in the ongoing assessment of  this adult stutterer; (b) to 

S describe the treatment programme employed and (c) to discuss 
the overall findings  in terms of  vocal tract dynamics in stuttering and to 
c o n s i d e r some practical implications. 

BACKGROUND TO SUBJECT 
HISTORY OF SPEECH DISORDER: Mrs. A, aged 40 years, was Aft  seen at 
the University Speech and Hearing Clinic, University of  the Wit-
w a t e r s r a n d , Johannesburg, on the 21st March 1979 
Mrs A reported that she had stuttered since childhood, which her 
mother associated with the bombing during the war. She was born in 
Eneland and lived there for  many years until recently when her 
husband was transferred  to South Africa  on a contract with a diamond 
mining company. About 18 months prior to the initial assessment Mr. 
A suffered  a traumatic head injury which resulted in bilateral deafness. 
Mrs A stated that her stutter deteriorated noticeably since her 
husband's accident. At three stages of  her life,  Mrs. A received short 
periods of  speech therapy, although on all these occasions she felt  that 

she had not benefited. 
MEDICAL HISTORY: She suffered  from  common childhood illnesses and 
underwent surgery for  an eye defect.  No other significant  illnesses were 
reported. 
PSYCHOLOGICAL A N D FAMILY HISTORY: Mrs. A reported that she experi-
ences much social discomfort  since the onset of  her husband s 
hearing impairment and the deterioration of  her speech She is said to 
share a warm relationship with her husband and three daughters. Two 
of  her children are reported to stutter mildly. 

ASSESSMENT OF COMMUNICATION B E H A V I O U R 
The following  areas were assessed by the author before  the onset of 
treatment. Results are summarized in Table I. 

DESCRIPTION OF STUTTERING BEHAVIOUR 
Mrs A was classified  as an advanced stutterer. Her speech was 
characterized by frequent  prolongations on fricatives,  and several hard 
contacts on plosives, nasals and affricates  in all positions Hard 
contacts seemed to occur most frequently  on voiceless plosives /p, t, k/ 
appearing as tense, forceful  attacks combined with a severe remor. 
The tension loci were in the lips, tongue, cheeks and laryngeal areas. 
This nonfluent  speech pattern appeared to be habituated and consis-
tent — some adaptation was noted. 
There was evidence of  severe facial  tension, characterized by eye 
closure, eye rolling, frowning,  jaw jerks, tremor of  lips and flaring  of 
nostrils Upward movement of  the head was noted to occur, as well as 

Die Suid-Afrikaanse  Tydskrif  vir Kommunikasieafwykings,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



Lesley Wolk 

T A B L E I: Summary of  findings  from  an assessment of  communication 
behaviour 

Hearing — within normal limits 

Oral Peripheral Examination — structural competence 
— functional  adequacy for  speech 

Language — normal receptive and expressive 
language skills 

Voice — soft,  high-pitched voice 

Articulation — normal 

Rhythm, Stress, Phrasing — interrupted 

Laterality — established right (R) dominance 

Motor Co-ordination — adequate 

Clinical observations — reserved personality 
— anxious and tense, pleasant disposi-

tion 
— insightful  awareness and attentative-

ness 

some movement of  the extremities. There was associated disturbance 
of  the respiratory mechanism such as pauses, gasping and frequent 
inhalations. She was often  seen to cease a speech attempt and try 
again, and to employ starters with a sudden increase in tension and 
force.  After  a severe block, there was evidence of  humiliation and 
intense anxiety. Eye contact was extremely poor. Choral speaking, 
singing, whispering and diminished auditory sensitivity were found  to 
induce fluent  speech. She was able to isolate several word and situation 
fears;  the telephone being the most anxiety-provoking situation for 
her. 
DIAGNOSTIC INVESTIGATIONS O F L A R Y N G E A L BE-
H A V I O U R 

FIBERSCOPIC ASSESSMENT 

The fiberscope  was employed to . observe laryngeal behaviour directly 
during connected speech for  the purpose of  providing objective data 
that would assist in evaluating the role of  the larynx in the dysfluency 
of  this adult stutterer. ! 

PROCEDURE ; 

The patient's nasal passages and ι posterior aspects of  the pharyngeal 
wall were topically anaesthetized! to prepare for  the insertion of  the 
fiberscope.  It was connected by a C-mount adapter to a camera. A 

The  South  African  Journal  of  Communication  Disorders,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



Vocal Tract Dynamics in Stuttering 41 

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. 
A tape recorder, Uher 4200 Report Stereo I.C. with an M816 
directional microphone, was prepared to run concurrently with this 
examination so as to record all utterances. A transcription of  the tape 
recordings was carried out as each utterance was correlated with its 
corresponding slide. There was a total of  38 slides. Broad-band 
spectrographic analyses with amplitude displays were carried out on 
each of  these utterances in order to segment the duration of  exposure, 
thus confirming  whether the photograph was taken at the moment of 
the stuttered block. It was always entirely clear, both from  broad-band 
spectrograms and the amplitude displays when the shutter had opened 
and closed. For the purpose of  this paper, only a few  of  these 
utterances were selected in order to highlight the major findings. 

RESULTS 

Figures  1(a)  and (b)  show that the vocal cords are normal at rest and 
during deep inhalation respectively. Figure  2(a)  shows a stuttering 
block on /k/ in the word "cancellations". From observation during 
fiberscopic  examination, it appeared that there was asymmetry of  the 
vocal folds  relative to each other. Posteriorly at the" vocal processes, 
the left  (L) cord is more adducted than the right (R) cord. There is 
also clear asymmetry of  the arytenoid cartilages. It can be seen that 
there is a conflict  between adductory and abductory forces,  which may 
be referred  to as "partial abductory" laryngeal behaviour. The same 
asymmetry appears as the standard picture of  a characteristic block on 
other plosive sounds (voiced and voiceless) in initial and medial 
positions. The broad-band spectrogram in Figure  2(b)  confirms  the fact 
that this photograph was taken at the moment of  the stuttered block. 
The first  noise burst, marked S(O) on the spectrogram, refers  to when 
the shutter opened and the second noise burst, marked S(C), refers  to 
when the shutter closed. 
In Figure  3(a)  similar partial abductory laryngeal behaviour can be 
seen during a sound prolongation on /s/ in the word "sweater". The 
broad-band spectrogram in Figure  3(b)  provides confirmation  as in 
Figure  2(b)  above. During observation of  the vocal cords, there was 
evidence of  epiglottic movement and shuddering of  the entire larynx 
during dysfluency.  This figure  clearly illustrates the standard picture of 
asymmetry where the (R) fold  appears more prominently than the (L) 
one. The distances between the vocal cords were measured. Results 
revealed that the distance posteriorly was 5 units of  measurement, 
medially 3 units and anteriorly 4 units*. The anterior measurement was 
taken at the point where the folds  seem to shade off,  i.e. 

•It is not claimed that these are absolute glottal widths, as the degree of  magnification 
has not been computed, but the proportions are correct. 

Die Suid-Afrikaanse  Tydskrif  vir Kommunikasieafwy  kings,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



42 Lesley Wolk 

Anterior m e a s u r e m e n t w h e r e 
cords lose definition 

Notice that there is medial adduction which is abnormal. Thus the 
narrowest portion of  the glottis is medial, while the posterior and 
anterior portions are both wider, reflecting  a disturbance in normal 
largyngeal behaviour. The striking feature  was this recurring picture of 
arching, which will be referred  to as the "arched effect". 
In summary, a review of  the tape recordings and corresponding slides, 
together with measurements of  the glottis calculated for  each utter-
ance, revealed the following: 
1. The vocal folds  were normal at rest and during deep inhalation. 
They were parallel and symmetrical during all fluent  utterances and 
during singing. 
2. There was a general picture of  shuddering of  the larynx during 
dysfluency. 

A 

Figure  1(a)  Subject Mrs. A's laryngeal behaviour during quiet 
breathing, showing that the vocal cords are normal at rest. 

The  South  African  Journal  of  Communication  Disorders,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



Vocal Tract Dynamics in Stuttering 43 

3. There was evidence of  asymmetry of  the arytenoids and vocal cords 
during all dysfluent  utterances, where the (R) fold  appeared more 
prominently than the (L) one. 
4. Partial abductory laryngeal behaviour referred  to as the "arched 
effect",  characterized all dysfluency,  stuttering blocks and prolongation 
in all positions. The identical picture was observed with voiced and 
voiceless fricatives,  affricates  and plosives. 

Β 

Figure  1(b)  Subject Mrs. A's laryngeal behaviour during deep 
inhalation, showing that the vocal cords are normal during deep 
breathing. 

A Β 

Figure  2(a)  Laryngeal behaviour during a stuttering block on /k/ in 
"cancellations". The line-tracing which overlays B, outlines the 
laryngeal structures shown during this production. 

Die Suid-Afrikaanse  Tydskrif  vir Kommunikasieafwy  kings,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



44 Lesley Wolk 

5(o>  sCO 
I  4 

Κ < 9'ψ  fna*  «̂ί» - Is Mte..ti «rati 
Figure Broad-band spectrogram showing a block on dysfluent 
production of  /k/ in "cancellations" before  treatment. 

A Β 
Figure  3(a)  Laryngeal behaviour during prolongation on /s/ in 
"sweater". The line-tracing which overlays Β outlines the laryngeal 
structures shown during this production. 

5CO) SCO 

. J- I 

i f'j.».  riit^e-Jii  >1 .-Sri-1  til  , I 
ι it·:11 itm  ι· Λ Λ Ι Μ Ι  MA  ΛΜΛΒΛ» Η. 

a -·; 

• '  • % SI 
ί μ t Αΐκ  • ·•· 

Figure  3(b)  Broad-band spectrogram showing a prolongation on 
dysfluent  production of  /s/ in "sweater" before  treatment. 

The  South  African  Journal  of  Communication  Disorders,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



Vocal Tract Dynamics in Stuttering 45 

DISCUSSION 

Abductory laryngeal behaviour during stuttering is reported in several 
recent studies (Conture et a l 2 ) . However, the specific  picture of 
a s y m m e t r y ("arched effect")  reflecting  a conflict  between adductory 
and abductory forces,  characteristic of  the dysfluency  in this subject, 
has not been reported in the literature. In contrast to the present data, 
Conture et al 2 found  differences  in laryngeal behaviour among the 
various types of  stutterings. They found  a separation of  the posterior 
aspects of  the vocal folds  during part-word repetitions, but normal 
laryngeal behaviour in sound prolongations. 
Literature on normal vocal cord function  in man shows that:— 
adduction of  the vocal cords for  phonation is due to the contraction of 
the vocalis (VOC), lateral cricoarytenoid (LCA) and interarytenoid 
(INT) muscles; whilst abduction is due to the contraction of  the 
posterior cricoarytenoid (PCA) muscle (Hiroto, Hirano, Toyozumi and 
Shin 7 ). The V O C muscle and to a lesser degree the LCA muscle 
regulate the style of  phonation. They are active in the medial 
compression of  the vocal cords to produce inner tension of  the cords. 
Three "styles of  phonation" are generally considered: hypertense, 
hypotense and optimum styles (Freeman et a l 3 ) . With regard to 
complexity of  laryngeal movements preparatory to vocalization, three 
types of  vocal attack are commonly described (a) soft  attack 
(simultaneous) where PCA activity is suppressed throughout the 
pre-phonatory period; LCA and V O C activity increase gradually until 
it reaches a constant level shortly before  or after  the vocal onset, (b) 
hard attack (glottal) where PCA activity decreases well before  the 
onset of  voicing, shows a transient increase in activity just before  the 
onset of  voicing and is then suppressed for  the period of  voicing; there 
is a high level of  LCA and V O C activity, presenting forceful  action 
potentials before  phonation, and (c) breathy attack (aspirate) where 
PCA remains active throughout the pre-phonatory period up to the 
point immediately before  the onset of  voicing. LCA and V O C activity 
is often  decreased temporarily before  phonation. Therefore,  the type 
of  vocal attack depends on vocal cord placement at the initiation of 
voicing, which is determined by the precise co-ordination between 
sub-glottic pressure, glottal resistance and supraglottic pressure. (Gay, 
Strome, Hirose and Sawashima5). 

It thus seems reasonable to postulate that in this adult stutterer, there 
may be higher levels of  V O C and/or LCA muscle activity (adductors) 
and inappropriate functioning  of  the PCA muscle (abductor), resulting 
in a disturbance of  the interplay between agonist and antagonist 
intrinsic laryngeal muscles during stuttering. The fact  that the cords are 
abducted posteriorly would indicate that there is adequate functioning 
of  the interarytenoid muscles. The V O C and LCA muscles are thus 
considered responsible for  the relative hypertonicity of  the adductors. 
These findings  are in accordance with current research (Conture et a l , 2 
Freeman and Ushijima3). It appears that the difficulty  may lie in the 

Die Suid-Afrikaanse  Tydskrif  vir Kommunikasieafwy  kings,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



46 Lesley Wolk 

pre-phonatory and/or re-phonatory phase, whereby voicing is initiatied 
with hard vocal attacks resulting in a hypertense style of  phonation. 
There is evidence in the literature to support the belief  that some 
stutterers fail  to produce adequate voluntary pre-setting of  the 
phonatory musculature, and that there is a lack of  co-ordination 
between respiration, articulation and phonation in stuttering (Gauth-
eron, Liorzou, Even and Vallancien, Perkins, Rudas, Johnson and 
Bell 1 1 ). W y k e 1 7 and others would explain findings  such as these in 
terms of  the reflex  arc, whereby higher centres control laryngeal reflex 
activity. According to this model, psychological stresses affect  the 
supramedullary centres which fail  to inhibit PCA muscle activity, 
producing abductive responses to the larynx during stuttering. 

TREATMENT: 
A treatment programme incorporating the psychological aspects as 
well as modification  of  the faulty  laryngeal adjustments developed 
from  the diagnostic findings  discussed above. Only a brief  discussion of 
this programme will be included in this paper. 
Set within a Van R i p e r 1 5 framework,  various techniques were 
employed within the modification  phase of  therapy. These included 
Van R i p e r ' s 1 5 shaping processes, "prolonged speech" (Perkins1 0), 
"passive-airflow  technique" (Schwartz1 3), "precision fluency  shaping" 
as discussed by W e b s t e r 1 6 and "modification  of  vocal attack" de-
veloped by the author. 

MODIFICATION OF VOCAL ATTACK 

Considering hard attack to be the error pattern with high levels of 
VOC and LCA muscle activity and significantly  earlier voice onset 
time, one may view soft  attack as the target behaviour representing 
optimal muscular activity. In view of  the fact  that breathy attack 
reduces VOC and LCA muscle activity temporarily before  phonation, 
thus facilitating  gradual voice onset, it was employed as a therapeutic 
strategy (Gautheron et al 4 ). Furthermore, there is continuous PCA 
muscle activity during the pre-phonatory period in breathy attack, thus 
preventing jerky "on-off"  vocal adjustments. Breathy phonation was 
combined with a low pitch in order to further  reduce electrical activity 
during phonation (Gay et al 5 ). A marked reduction in dysfluency  was 
noted to occur when this method was employed in a variety of  speech 
tasks. / 
A further  technique, biofeedback,  was applied. The underlying 
principle of  biofeedback  training is that a subject can learn to exert 
some control over a physiological process if  he receives immediate, 
accurate (auditory or visual) information  about the process (Hanna, 
Wilfling  and McNeill6). Briefly,  EMG activity was recorded from  the 
laryngeal and facial  areas where there was excessive tension. A pair of 
surface  electrodes were placed on the skin over the levator labii 
superioris. The action potentials from  this muscle were amplified  and 

The  South  African  Journal  of  Communication  Disorders,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



Vocal Tract Dynamics in Stuttering 47 

i n t e g r a t e d into a voltage-to-frequency  converter. As the electrical 
activity of  the muscles increased, so did the frequency  of  the EMG 
analog tone. Mrs. A was provided with a baseline or reference 
frequency.  She was then presented with a tone whose frequency  was 
analogous to the voltages recorded from  the electrodes and her task 
was to concentrate on lowering this tone, hence lowering the muscular 
hypertonicity. A second electrode pair was placed over the orbicularis 
oris and a third electrode pair over the cricothyroid region below the 
thyroid notch. Each time the same procedure was carried out. An 
informal  assessment during the sessions and a subsequent replay of  the 
tape recordings demonstrated that there was a significant  reduction in 
laryngeal E M G activity with a concomitant increase in fluency.  No 
conclusions can be drawn from  this preliminary investigation. How-
ever, it is conceivable that after  sufficient  training, a stutterer could 
learn to attend to somesthetic cues of  laryngeal tension in the absence 
of  biofeedback  equipment. It is of  interest to note that in the study of 
Gautheron et al 4 , their stutterers were encouraged to start phonating 
breathily while attempting to obtain auto-correction with the aid of 
visual feedback. 
In summary, gaining conscious control of  speech production by 
reconstructing articulatory details, enhancing proprioceptive aware-
ness, encouraging smooth transition of  laryngeal adjustments and 
altering the tension of  the vocal cord musculature, seems to be the 
features  common to the modification  techniques employed in this 
treatment programme. 

RESULTS OF TREATMENT 

A subjective evaluation after  treatment revealed a significant  reduction 
in both severity and frequency  of  stuttering behaviour. There appeared 
to be very little facial,  neck and laryngeal tension or associated 
movements. Furthermore, there was evidence of  improved self-concept 
and personal adjustment. Towards the end of  treatment, a further 
fiberscopic  examination was carried out in order to compare Mrs. A's 
laryngeal behaviour before  and after  treatment. The entire procedure 
followed  that described above. There was a total of  141 utterances 
(from  spontaneous speech) with corresponding slides. 
Figure  4(a)-A  shows a stuttering block on /k/ in "cancellations" before 
treatment, reflecting  the asymmetrical "arched effect"  with partial 
abductory laryngeal behaviour. Figure  4(a)-B  shows a stuttering block 
on IkJ in " k e e n " after  treatment. Here it can be seen that the glottis is 
wide open for  the voiceless plosive /k/ and there is an absence of  the 
asymmetrical "arched effect"  seen in (A). Similarly in Figure  5(a)-Β  it 
can be seen that there is an absence of  the arching in the sound 
prolongation /s/ in "this sea" after  treatment. The apparent asymmetry 
is not due to the original "arched effect",  but is due to the asymmetry 
of  the false  cords. 

Die Suid-Afrikaanse  Tydskrif  vir Kommunikasieafwy  kings,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



Figure  4(a)  Laryngeal behaviour on (A), a stuttering block on fkJ  in 
"cancellations" before  treatment, and (B), a stuttering block on /k/ in 
"keen" after  treatment. 

5(0) SCO 

Figure  4(b)  Broad-band spectrogram showing a block on dysfluent 
production of  /k/ in " k e e n " after  treatment. 

In each case, broad-band spectrograms confirmed  that the.photographs 
were taken at the instance of  the stuttered block (see Figures  2(b), 
3(b),  4(b)  and 5(b)).  The fibrescopic  representations described here 
were chosen at random for  the purpose of  this discussion. However, 
these representations are characteristic of  the standard dysfluencies 
(stuttering blocks and prolongations) throughout all utterances analy-
sed after  treatment. 
An obvious limitation should be considered in the interpretation of 
these results. Increased tension may have been created by the initial 

The  South  African  Journal  of  Communication  Disorders,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



Vocal Tract Dynamics in Stuttering 49 

Figure  5(a)  Laryngeal behaviour on (A), a sound prolongation /s/ in 
"sweater" before  treatment, and (B), a sound prolongation /s/ in "this 
sea" after  treatment. 

s(o)  $CO 

Figure  5(b)  Broad-band spectrogram showing prolongation on 
dysfluent  production of  /s/ in "this sea" after  treatment. 

Note:  The peak value of  PCA laryngeal muscular activity is the same 
for  /s/ sounds in different  positions, initially and medially 
(Hirose and Ushijima, 1974). 

Die Suid-Afrikaanse  Tydskrif  vir Kommunikasieafwy  kings,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



50 Lesley Wolk 

fiberscopic  procedure resulting in increased stuttering, and conversely 
the familiarity  of  the procedure after'treatment  may have reduced 
stuttering. However, qualitative assessments of  the tape recordings 
during both procedures were found  to be representative when 
compared with tape recordings of  her speech outside of  the fiberscopic 
investigations. 

CONCLUSIONS A N D IMPLICATIONS 
The present findings  support the contention that laryngeal disturbances 
are associated with many moments of  stuttering (Conture et al2). 
While this may explain the proximal cause of  stuttering, we are still 
faced  with the question of  "primary causation". 
In a recent study, Schmitt and C o o p e r 1 2 found  no laryngeal abnormal-
ities in a group of  young stutterers. This leads one to question whether 
the differences  observed in the phonatory behaviour of  adult stutterers 
might be more a reflection  of  habituated compensatory phonatory 
adjustments in response to dysfluencies  than they are indicators of  an 
etiological key to stuttering. While reference  has been made to some 
underlying neurologic fault  in some stutterers, (for  example, faulty 
laryngeal innervation, flaws  in temporal lobe sequencing, a deficit  in 
auditory feedback  systems or aberrant inter-hemispheric relationships 
(Wyke, 1 7 Travis 1 4 ), there is also convincing information  that psycho-
logical factors  must be considered. Thus a multidimensional etiology 
of  the manifestations  of  stuttering behaviour as suggested by Van 
R i p e r 1 5 still seems plausible. 
The unresolved etiology of  stuttering should not, however, restrict the 
continued search for  treatment methods. The benefits  of  intensive 
stuttering therapy in this case are clearly indicated. These findings 
pertain to a single case of  stuttering. They are thus tentative and 
should be regarded as an indication for  further  research. Future 
investigations in biofeedback  as a treatment for  stuttering is strongly 
indicated. Thus, an attempt to integrate research on laryngeal 
dysfunction  in stuttering with learning-theory and servo-theory might 
well be of  clinical value. 

ACKNOWLEDGEMENTS 

The author wishes to thank Mrs. M. Wahlhaus, Senior Lectiirer of  the 
Department of  Speech Pathology and Audiology, and Ms. C. Penn, 
Lecturer of  the Department of  Speech Pathology and'Audiology, of 
the University of  the Witwatersrand, Johannesburg, for  their guidance 
and support; Dr. 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; Dr. E. Gordon 
and Dr. A. Gordon for  their assistance with the biofeedback 
procedure. The author also acknowledges the Human Sciences 
Research Council for  its financial  assistance. 

ι 
The  South  African  Journal  of  Communication  Disorders,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



Vocal Tract Dynamics in Stuttering 51 

REFERENCES 

1. Adams, M. R. and Hayden, P. (1976): The ability of  stutterers 
and non-stutterers to initiate and terminate phonation during pro-
duction of  an isolated vowel. J.  Speech,  Hear.  Res. 19, 290-296. 

2. Conture, E. G., McCall, G. N. and Brewer, D. W. (1977): 
Laryngeal behaviour during stuttering. J.  Speech.  Hear.  Res. 20, 
6 6 1 - 6 6 8 . 

3. Freeman, F. J. and Ushijima, T. (1978): Laryngeal muscle activity 
during stuttering. J.  Speech.  Hear.  Res. 21(3), 538-562. 

4. Gautheron, B., Liorzou, Α., Even, C. and Vallacien, B. (1973): 
The role of  the larynx in stuttering. In: Neurolinguistic 
Approaches to Stuttering:  Proceedings  of  the International  Sympo-
sium on Stuttering.  Le Β run, Y. and Hoops, R. (Eds) Mouton, 
The Hague. 

5. Gay, T., Strome, H., Hirose, H. and Sawashima, M. (1972): 
Electromyography of  the intrinsic laryngeal muscles during phona-
tion. Ann. Otol.  Rhinol. Laryngol.  81, 401-408. 

6. Hanna, R., Wilfling,  F. and McNeill, B. (1975): A biofeedback 
treatment for  stuttering. J.  Speech.  Hear.  Dis. 40, 270-273. 

7. Hiroto, I., Hirano, M., Toyozumi, Y. and Shin, T. (1967): 
Electromyographic investigation of  the instrinsic laryngeal muscles 
related to speech sounds. Ann. Otol.  Rhinol. Laryngol.  76, 
861-872. 

8. Hutchinson, J. M. (1974): Aerodyamic Patterns of  stuttered 
speech. In: Vocal  Tract  Dynamics and  Dysfluency.  Webster, L. 
M. and Furst, L. (Eds). Speech and Hearing Institute, N.Y., 
71-88. 

9. Kenyon, E. L. (1943): The etiology of  stammering: the 
psychophysiologic facts  which concern the production of  speech 
sounds and stammering. J.  Speech.  Dis. 8, 337-348. 

10. Perkins, W. H. (1979): From psychoanalysis to disco-ordination. 
In: Controversies  about Stuttering  Therapy.  Gregory, Η. H. (Ed). 
University Park Press, Baltimore. 

11. Perkins, W. H., Rudas, J., Johnson, L. and Bell, J. (1976): 
Stuttering: Disco-ordination of  phonation with articulation and 
respiration. / . Speech.  Hear.  Res. 19, 509-521. 

12. Schmitt, L. S. and Cooper, Ε. B. (1978): Fundamental frequen-
cies in oral reading behaviour of  stuttering and non-stuttering 
male children. J.  of  Comm. Dis. 11, 17-23. 

13. Schwartz, M. F. (1976): Stuttering  Solved.  (Part  II)  The  Treat-
ment. Lippincott. J. B. Co., Redwood, Burn. Ltd. Trowbridge 
and Escher. 

14. Travis, L. E. (1978): The cerebral dominance theory of  stuttering 
1931-1978. J.  Speech.  Hear.  Dis. 43, 278-281. 

15. Van Riper, C. (1973): The  treatment  of  stuttering.  Prentice-Hall 
Inc., EnglewoOd Cliffs,  N.J. 

Die Suid-Afrikaanse  Tydskrif  vir Kommunikasieafwykings,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)



52 Lesley Wolk 

16. Webster, R. L. (1977): A few  observations on the manipulation of 
speech response characteristics in stutterers. In The  problems  of 
Stuttering  — Theory  and  Therapy.  Reiber, R. W. (Ed). Elsevier 
North-Holland, Inc. N.Y., 73-76. 

17. Wyke, B. (1974): Phonatory reflex  mechanisms and stammering 
Folio  Phoniat. 26, 321-338. 

BOOKS BOOKS 
CAMPUS 

BOOKSHOP 
WESTDENE 
SERVICES 

34 BERTHA ST, 
BRAAMFONTEIN 

76a KING GEORGE ST, 
HILLBROW 

J h b 3 9 - 1 7 1 1 J h b 3 9 - 1 7 1 1 
/ 

UNIVERSITY MEDICAL 

The  South  African  Journal  of  Communication  Disorders,  Vol.  28, 1981 

R
ep

ro
du

ce
d 

by
 S

ab
in

et
 G

at
ew

ay
 u

nd
er

 li
ce

nc
e 

gr
an

te
d 

by
 th

e 
P

ub
lis

he
r 

(d
at

ed
 2

01
2)