EXPERIMENTS ON THE ELASTICITY OF THE VOCAL CORDS 

D A M S T E , P . H . , M.D. a n d WIENEKE, G.H., PH.D. 

Af  deling  Foniatrie,  Universiteits  KNO-Kliniek, 
Catharijnesingel  101, Utrecht,  Nederland 

SUMMARY 

Regulation of  vocal p i t c h occurs b y changes in the length and t e n s i o n o f  the 
vocal folds.  Because the Young's m o d u l u s of  t h e vocal cord ligament c o u l d b e 
a factor  w h i c h determines the difference  b e t w e e n male and female  voices, this 
was made an object o f  research. N o differences  could b e s h o w n . S o m e of  the 
problems and t h e limited accuracy of  t h e s e experiments are reviewed. 

OPSOMMING 

Beheer van s t e m t o o n h o o g t e vind plaas deur veranderinge in the lengte en 
spanning van die s t e m v o u e . Aangesien Y o u n g se m o d u l u s van die stemlipliga-
m e n t 'n faktor  kan w e e s wat die verskil tussen manlike en vroulike s t e m m e 
bepaal, was dit die o n d e r w e r p van navorsing. Geen verskille w o r d a a n g e t o o n 
nie. S o m m i g e van die p r o b l e m e en die beperkte akkuraatheid van hierdie 
eksperimente w o r d bespreek. 

When the pitch of  the voice rises, the length of  the vocal cords increases. All 
specialists in voice agree with this, no matter how they differ  in other opi-
nions. The mechanism by which the length of  the vocal cords increases is well 
known; the backward turning of  the cricoid cartilage in respect to the thyroid 

,by the pull of  the cricothyroids increases the distance from  the arytenoids to 
the farthest  attachment point of  the vocal cords. The amount of  stretch of 
the vocal folds  which can be effected  by this physiological mechanism was 
specified  by Sonninen12 with the help of  X-rays. From this research came a 
paper on the lengthening mechanism, more accurate than that given by R. 
Schilling10 in 1940. 

Van den Berg5 proposed by means of  experiments with cadaver larynges, that 
the vocal cords can stretch to a maximum of  30% of  their original length. In 
addition, the tension (in other words the elasticity modulus) increases approxi-
mately proportional to the traction exercised on the tissue. Falsetto tones are 
produced by the fully  stretched position of  the vocal ligament and conus elas-
ticus. These tones are at one end of  the vocal, register scale, and at the other 
end are the tones of  the chest register, the normal speaking voice of  man. This 
type of  voice is generated by the completely relaxed and supple vocal folds,  in 
which all parts participate,in the vibration. For a melodious speaking voice, 

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E x p e r i m e n t s on the Elasticity of  the Vocal Cords 15 

, f  u r s e above all for  singing, it is important that higher tones are pro-
h d in a mixed or a middle register. In this case the tensing of  the ligament 
h t h e cricothyroid is combined with the tensing and shortening of  the muscles 
h c o n t r a c t i o n of  the internal and external thyroarytenoids. Thus the vibra-
Γ of  the ligament remains coupled with that of  the muscle mass, which gives 

e to the full  tone of  the normal register. In falsetto  register the vibration is 
Γ ot t r a n s m i t t e d to the whole vocal fold,  only the medial edge vibrates. This 
"suits in a weak, thin tone. The voice can be voluntarily controlled to a great 
extent, and any individual can make a large variety of  vocal sounds. 
F r o m just the sound of  the voice it is possible to form  an idea of  the person, 
his character and his mood. One has, as it were, an acoustic face,  from  the 
sound of  the voice. Damage to the voice is just as disturbing as a facial  scar. A 
woman with a voice which has become masculine through the use of  andro-
gens, has suffered  an irreparable mutilation. Her acoustic impression has lost a 
great deal of  prettiness. She can shave or wax away her facial  hair, but her 
cracking baritone cannot be hidden, except by not going out or by keeping 
quiet. 
The problem of  virilisation of  the voice became noticed in the years after  1960 
through the introduction of  anabolic s t e r o i d s . 1 ' 2 ' 6 , 9 It is not possible to guess 
how many women have been made victims by the unchecked use of  these 
drugs. It is still a real problem. When one has seen it once, it is apparent that it 
is not rare, particularly the early stages of  voice virilisation. In the early stages 
the symptoms are not so obvious. Characteristic symptoms are: unsteady 
vocal pitch which wavers between two timbres; a light and dark- one. It is the 
lack of  control which gives the voice a subjective strange sensation. The range 
is not decreased, rather the lower range increased, and the higher tones less 
well controlled than before.  This is only noticed by women who sing. 
Vocal cord oedema comes especially into consideration for  differential  diag-
nosis; the pitch range in the higher tones is severely limited through this. How-
ever this is not the case in the early stages of  virilisation. Mirror examination 
shows a great difference.  In vocal cord oedema there is a widening of  the vocal 
folds,  which are lighter coloured. Laryngeal stroboscopy shows greater vibra-
tion amplitude and a widening of  the wavecrest. There is frequently  nothing 
special to see in virilised vocal cords. Only in a later stage is there sometimes a 
change in colour, to a dark yellow. 
What change in the vocal folds  is responsible for  the change of  voice in the 
woman whose voice becomes masculine? That is the question which many 
have put, and which has many different  answers. Some have sought the cause 
outside the larynx, in timing of  conduction of  impulses in the nervous system. 
We can forget  this possibility, as it is based on a most improbable theory of 
vocal cord vibration. Serious thought has been given to the opinion that the 
change is due to a change in muscle-tissue in the vocal folds,  the enlargment 
being directly caused by the anabolic* effect  of  testerone and other steroid 
compounds. Another opinion is that change in the mucous membrane causes 
the change in voice timbre. Perello9 has studied a section from  a mutated 

* By this  is meant the property  to promote  the synthesis  of  muscle  protein. 

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16 Damste and Wieneke 

larynx and reports a thickening of  the middle layer of  epithelium. In the same 
article he gives the increase in volume and power of  the thyroarytenoids and 
the inspiration muscles as causes of  the deepening of  the voice. In differential 
diagnosis of  vocal cord oedema, it is possible to find  arguments which make 
the thickening of  the epithelium as one of  the causes of  a voice change less 
probable. It is also known that steroids, to which the androgen hormone be-
longs, have an effect  on the composition of  connective tissue. Since the con-
nective tissue in the vocal folds  (coni elastici and vocal cord ligaments) greatly 
determines the sort of  voice and its quality, the hypothesis is that changes in 
this shall account for  masculine voice in women. Some physio-chemical argu-
ments have been discussed by Damste.7 

EXPERIMENTS 

In 1963-1964, we studied the possibility of  whether the elasticity of  the 
connective tissue in the edge of  the vocal cords, could be determined by 
measuring the elasticity. Experiments were carried out on a score of  larynges. 
The results were in many cases not completely reliable due to complicating 
circumstances and that is the reason why the work has not been published 
until now. On closer examination of  the data we feel  that it is still useful  to 
publish the method used, and a few  of  the results, as a guide and a warning to 
potential researchers. 
The plan was to determine the Young's modulus of  a satisfactorily  large num-
ber of  vocal cords from  men, women, women with masculine voices and 
possibly children and to see if  the values of  the Young's modulus in the four 
groups were significantly  different. 

METHOD 

The elongation of  the vocal cord and the force  was measured with the appa-
ratus shown in Figure  1. The ends of  the specimen were clamped. One end was 
fixed  to the support and one to the arm of  a lever made from  a light and stiff 
hollow pipe. On the other side of  the axis of  rotation the end of  a spring was 
attached. The spring could be stretched by displacing the other end by a 
nylon thread which is wound round an axis behind the black knob (below 
right in Figure  1). The force  exerted by the spring is indicated in grams on a 
gauged scale. The long arm of  the balance indicates the elongation of  the 
specimen in tenths of  a millimeter. 

PROCEDURE 

An experiment with forces  from  0-60 grams in 5 grm intervals was done within 
a minute, the time necessary to write or to dictate the numbers. More time 
was necessary for  the preparation of  the specimens. To get a solid attachment 
of  the ligament a piece from  the thyroid cartilage and from  the arytenoid was 
taken with it. The measurement was done after  the specimens had lain in a 
physiological salt solution for  ten minutes. Measurements with more or less 
dried out specimens were not reliable. 

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E x p e r i m e n t s on the Elasticity of  the Vocal Cords 
17 

Figure  1. The apparatus with which the stress-strain curves of  the vocal cord 
were measured. The vocal cord was fixed  on the left  side with two clamps. In 
the middle is the scale for  force,  to the right the scale for  increase in length. 
See text (methods) for  further  explanation. 

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18 Damste and Wieneke 

RESULTS 

Figure  2. Tension 6 as a function  of  the elasticity ε of  the right vocal cord 
from  a woman who died at 40 years. 

An example of  the results is shown in figuie  2. The stress (force/area  of  the 
cross-section) is given against the strain (increase in length/length with 0 gram 
force).  The cross-section of  the vocal cord was calculated from  the weight 
with the assumptions that (a) the area of  the cross-section is equal over the 
whole length (b) the mass density of  the tissue is 1 grm.cm-3. In these pre-
liminary measurements the results of  8 male vocal cords and 10 female  were 
considered. In all cases the stiffness  (Young's modulus measured as a slope on 
the curve: Δ6/Δε) increased greatly with increasing strain (to 15 *). The value 

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E x p e r i m e n t s on the Elasticity of  the Vocal Cords 19 

f  the strain, above which the curves rise steeply, shows noticeably great 
differences.  These differences  were clearly correlated with the age of  the 
patient on death. The relation between the age and the strain where the 
Young's modulus is one half  of  the maximum value measured in the experi-
ment is shown in figure  3. Also, the Young's modulus at the beginning of  the 

8 • • 
ο 
ο 

η Ο 

8 

_L 

0 25 50 75 100 [ y e a r ] 
age • 

Figure  3. Value of  the elasticity ε 5 at which the Young's modulus of  the 
vocal cord is equal to half  the maximum measured value set out against the 
age of  the person at death. Shaded blocks = male, Open circles = female, 
Correlation co-efficient  = 0.8. . 

curve (0-5 grf)  shows the dependance on age. For example the Young's modu-
lus measured from  a girl of  6 years was 350 grf.cm-2  and from  a woman of  40 
years 550 grf.cm-2.  The maximum error of  the apparatus is about 20% in this 
range. In the normal voice range the elasticity at small stresses will be import-
ant. The Young's modulus in the range of  strain less than 25% does not show 
significant  differences  in vocal cords from  males and females  without mascu-
line voice change. This is partly due to the lack of  precision of  the measure-
ments but mainly to the influence  of  the age of  the person. 

CONCLUSIONS 

From these measurements no significant  difference  between the Young's 
modulus for  low stress values in males or females  could be determined. Con-
sequently no conclusion can be drawn as to how far  masculine changes of  the 
female  voice are a result of  change in the Young's modulus. 

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20 Damste and Wieneke 

Possibly age has a greater influence  on the vocal cords than use of  drugs. We 
must first  have a better insight into the changes in the vocal apparatus due to 
age, before  it can be concluded that the changes in voice with the use of 
virilising drugs are due to changes in elasticity. It seems advisable to investi-
gate other factors  which have an effect  on these changes. One can think of  the 
increase in the mass of  the intrinsic laryngeal muscles. 
The accuracy of  the elasticity modulus is one of  the obstructions to interpret 
low strain (<25%) values. In view of  the discovered differences  the maximum 
error had to be smaller than 40 grf.cm-2  (7%). To achieve this, the measuring 
apparatus had to meet the following  requirements: The zero length must be 
measured with an accuracy of  ±0.2 mm; the elongation with ± 0.02 mm; the 
force  with ± 0.05 grf;  the weight with ±0.5 mgr. maximum error. This in-
cludes the uncertainties with regard to the true length of  the vocal cord, the 
varying cross-section and deviations in mass density. In the statistic analysis 
the effect  of  age has to be taken into account. 

DISCUSSION 

The conclusions do not confirm  our hypothesis that the Young's modulus in 
men and women with virilised voices have lower values than in normal women. 
Therefore  they are not in agreement with the results of  Bauer4 which did 
confirm  this hypothesis. He described a clear relationship between the Young's 
modulus and the sex (ratio 2:1) and could also discern the effects  of  voice 
mutating substances. Bauer calculates the values for  the Young's modulus at a 
50 grm weight. According to our measurements the tissue is then already in 
the range of  a high Young's modulus, at which it probably does not reach 
during normal voice use. The value of  the Young's modulus according to 
Bauer, is somewhat smaller than that found  by us: 600-1300 grf.cm-2  against 
1800-4500 grf.cm-2  measured with a stress of  50 grm. 

REFERENCES 

1. Arndt,  H.J.  (1963): Stimmschaden bei Frauen durch androgene und 
anabole Hormone. Deutsche Med.  Woch.  88: 2336-2339. 

2. Bauer, H.  (1963): Die Beeinflussung  der weiblichen Stimme durch an-
drogene Hormone.Folia  Phoniatrica  15: 264-268. 

3. Bauer, H.  und  Konig,  W.  (1967): Physikalische und histologische Unter-
suchungen am normalen und einem weiblichen virilisierten Kehlkopf. 
Arch. Ohr. Nas.-Kehlk.  Heilk.  188: 358-363. 

4. Bauer, H.  (1968): Die Beziehungen der Phoniatrie zur Endokrinologie. 
Folia  Phoniatrica  20: 387-393. 

5. Berg van den,  Jw.  (1960): Current  Probl.  Phoniat.  Logop., Karger, Basel-
New York 19-34. 

6. Damste, P.H.  (1964): Virilisation of  the voice due to anabolic steroids. 
Folia  Phoniatrica  16:10-18. 

7. Damste, P.H.  (1964): Virile changes in the voice induced by androgens. 
Excerpta  Medica  Intern.  Congress  85: 158-160. 

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E x p e r i m e n t s on the Elasticity of  the Vocal Cords 
21 

9. 

10. 

11. 

12. 

ί έ ρ Η (1967): Voice change in adult women caused by virilizing 
agents Journ.  of  Speech and  Hearing  Disorders,  32: 126-132. 
Perello  J.  (1964): Virilization de la laringe femenina.^cta  O.R.L. Iber.-
Amer XV, 2: 139-141. 
Schilling,  R. (1940): Uber den Spannungsmechanismus der Stimmlippen 
Hals-Nasenund  Ohrenarzt  31: 1Γ2. 
Sonninen,  A. (1956): The role of  the external laryngeal muscles in 
length adjustment of  the vocal cords in singing. Acta Otolaryngol  Suppl. 
130, Stockholm. 
Sonninen,  A. (1962): Paratasis-gram of  the vocal folds  and the dimen-
sions of  the voice. Proc.  4th  Intern.  Congr.  Phonetics  (Helsinki),  Ed. 
Mouton, Den Haag 250-258. 

FOR ALL Y O U R M E D I C A L B O O K 

A N D J O U R N A L R E Q U I R E M E N T S 

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T H E S P E C I A L I S T S 

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902 N o r w i c h House 
Heerengracht 
C A P E T O W N 

Telephone 2-9231 

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