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Original Article 

Biosci. J., Uberlândia, v. 34, n. 2, p. 435-446, Mar./Apr. 2018 

GEOMETRIC MORPHOMETRICS AND FACE SHAPE CHARACTERISTICS 
ASSOCIATED WITH CHRONIC DISEASE IN THE ELDERLY 

 
MORFOMETRIA GEOMÉTRICA E CARACTERÍSTICAS DA FORMA DA FACE 

ASSOCIADOS À DOENÇA CRÔNICA EM IDOSOS 
 

Lorena Andrade NUNES1; Andreia Souza de JESUS2; Cezar Augusto CASOTTI3; 
 Edilson Divino de ARAÚJO4  

1. Pós-doutoranda do Programa de Pós-Graduação em Enfermagem e Saúde da Universidade Estadual do Sudoeste da Bahia – UESB, 
Jequié, BA, Brazil; 2. Enfermeira, da Secretaria de Saúde do Município de Wenceslau Guimarães, BA, Brazil; 3. Professor doutor, da 
Universidade Estadual do Sudoeste da Bahia -UESB, Jequié, BA, Brazil; 4. Professor doutor, da Universidade Federal de Sergipe – 

UFS, São Cristóvão, SE, Brazil. 

 
ABSTRACT: The aging process is something that occurs naturally during the lifetime of the human being. It 

causes biological, psychological and social changes in the body. Anthropometry, which until the late nineteenth century 
was a common tool in clinical and taxonomic practices, has gained great importance as a public health measure. This 
methodology is also important in the evaluation of morbidities in individuals and their social practices. Thus, the objective 
of the present study was to evaluate facial shape characteristics in the elderly, associated with chronic diseases such as 
diabetes and hypertension, based on two-dimensional images of the lateral and frontal views of the face. Analysis of 
discriminant function and cross validation presented significant differences (p<0.01), for sexual dimorphism in both views 
and the presence and/or absence of diabetes and hypertension (p<0.01). For the male sex, the highest classifications were 
related to the complete lateral and frontal views, in 75.2% and 81.2% of cases, respectively. In terms of the female sex, 
they referred to the frontal view without the orolabial region or jaw (71.4%). There was variation in the facial bilateral 
symmetry in the elderly, with the presence of fluctuating and directional asymmetry (p<0.01). Despite morphological 
variations associated with aging, it is possible to use geometric morphometrics techniques to observe characteristics in 
facial shape related to the presence of diabetes, hypertension, and the presence or absence of both diseases.  

 
KEYWORDS: Asymmetry. Diabetes. Face shape. Hypertension. Homo sapiens  

 
INTRODUCTION  

 
The face is the most viewed region of the 

body during one’s lifetime and plays an important 
social role related to communication and adaptation 
of living beings (DARWIN, 2004). It is what 
distinguishes humans from other life forms and can 
express emotions, guide behavior, allow 
reproduction and generate chances of survival 
(MENDES et al, 2009). Additionally, it is an 
important way to communicate and shows a 
fundamental role in human socialization.  

In the same way that the face is capable of 
expressing innumerable feelings and sensations, it 
can reveal population differences, aid in 
identification in criminal cases and in some contexts 
detect the state of health or presence of syndromes 
(DEMAYO et al, 2009a; HAYES; TULLBERG, 
2012; SCOTT et al, 2013; PRASAD et al, 2015). 
Facial markers associated with computer 
recognition have generated interest from different 
disciplines and research areas (MAYER et al, 2017).  

Based on morphological characteristics of 
this region it is possible to identify patterns that can 
generate knowledge related to human health. 
Morphometric studies, especially those utilizing 

geometric morphometrics, have generated 
quantitative results for shape and size, which are 
directly interpreted using graphic visualization 
(ROHLF; MARCUS, 1993; SIĞIRLI; ERCAN, 
2013). This technique is defined as a set of methods 
of acquisition, processing and analysis of shape 
variables, such that geometrical information from 
the original data and information for covariation 
between the landmarks are maintained (ROHLF; 
MARCUS, 1993; SLICE, 2007).  

In geometric morphometrics, the data is 
obtained using landmarks, whose points follow the 
rules of homology, that is to say, biological 
correspondence, which delineate reliable anatomical 
definitions (SNEATH; SOKAL, 1973; 
BOOKSTEIN et al, 1985). This homology between 
landmarks is important to ensure a biological 
interpretation of the results. The variables are 
analyzed based on the Generalized Procrustes 
analysis (ROHLF, 1999), which transforms the 
configuration of the anatomical landmarks using 
translation, rescaling and rotation, such that the sum 
of the squares of the distances between the 
corresponding points be as small as possible 
(MONTEIRO; REIS, 1999).  

Received: 29/07/17 
Accepted: 05/12/17 



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This methodology has been utilized in 
diverse areas of human health, using the face for 
different purposes. From the images, it is possible to 
detect subtle facial abnormalities in people with 
epilepsy who carry pathogenesis determined by 
chromosomal microarrays (CHINTHAPALLI et al, 
2012). In a similar manner, Hennessy et al. (2007; 
2010) identified subtle facial abnormalities in 
individuals with schizophrenia and bipolar disorder.    

Facial characteristics can indicate the 
differential effects of hormone exposure during the 
pre-natal period and of real chromosomal gender, to 
understand characteristic differences and classify a 
person as “masculine” or “feminine” and the 
consequences of perceptions and choice of partner 
(FINK et al, 2005). In a manner similar to that 
observed by this author, based on facial geometric 
morphometrics, it is possible to see that the shape of 
the face and fingers 2D:4D varies depending on 
hormonal presence prior to the onset of puberty, 
which gives the characteristics of masculinity 
(MEINDL et al, 2012). Additionally, the shape of 
the face is associated with the body mass index 
(BMI) and the waist-hip ratio (WHR), as verified by 
Mayer et al (2017) in a sample of youths from 
Central Europe, utilizing facial imaging and 
geometric morphometrics. The faces of women with 
an elevated BMI had a broader, rounder facial 
contour in relation to the size of the eyes and lips 
and relatively lower eyebrows.  

Other applications of this methodology are 
in Odontology, and plastic, craniomaxillofacial, and 
otorhinolaryngology surgeries, which are 
increasingly interested in new technologies to 
promote correct diagnosis and prepare patient 
treatment plans, including for the diagnosis of 
congenital and acquired malformations (MENEZES; 
SFORZA, 2010). However, while studies utilizing 
facial patterns have been carried out using 
adolescent and/or adult individuals, there are no 
studies associated with facial shape patterns in the 
diagnosis of diseases in elderly individuals. The 
aging process is slow, progressive and irreversible, 
and provokes biological, psychological and social 
changes. The face is one of the areas where this 
process and the consequences of the passage of time 
is most noticeable (KEDE; SABATOVICH, 2004; 
FERNANDES; ASSUNÇÃO, 2011; SANTOS-
FILHO; FERREIRA, 2016).  

Therefore, the aim of this study was to 
verify if there is a facial morphological pattern in 
the elderly associated with chronic diseases such as 
diabetes and hypertension, despite the facial 
variations, which occur due to the aging process. 
The general hypothesis tested in this study excludes 

the effects of allometry and sexual dimorphism, 
making it possible to find specific patterns in order 
to form distinct groups of individuals according to 
the presence and / or absence of chronic diseases: 
diabetes and / or hypertension. 

 
MATERIAL AND METHODS   

 
After the approval of the project by the 

Ethics Committee (CAAE 56017816.2.0000.0055), 
elderly residents from the municipality of Aiquara-
BA, were submitted to the Mini Exam for Jawal 
State test (FOLSTEIN et al., 1975), prior to 
applying morphometric testing as an exclusion 
criterion. This is because neurological and 
psychiatric diseases can lead to variations in facial 
shape (HENNESSY et al, 2005; CHINTHAPALLI 
et al, 2012). The individuals presented diabetes, 
hypertension, and the presence or absence of both 
diseases (diabetes/hypertension).  

For the analysis of the lateral view, 206 
elderly people, 119 female and 87 male, 
participated. For the analysis of the frontal view, 
209 elderly people, 121 female and 88 male, 
participated. They had ages varying from 60 to 95 
years of age and an average of 71 years. The data 
was collected in 2016 in the city of Aiquara – BA. 
The images were obtained using a digital Canon 
SX60HS camera, with the individuals seated at a 
distance of 1.5 m. Participants were instructed to 
maintain a neutral expression, mouth closed and 
eyes to the front, with adjustment according to the 
Frankfurt  horizontal plane. Additionally, a scale bar 
to the side of the head was used and individuals 
were identified. Participants used no make-up or 
glasses. Additionally, the photos were taken in a 
well-lit environment, using the flash where 
necessary, avoiding problems of shadowing and 
consequently with measurement. 

For the lateral view, 4 landmarks and 19 
semilandmarks were used and for the frontal view 
10 landmarks and 12 semilandmarks in areas that 
characterized the differences in the structure of the 
human face using the TpsDig2 program (ROHLF, 
2015) (Table 1; Figure 1). These landmarks were 
selected with the aim of determining the facial 
variation associated with the identification of the 
presence or absence of the diseases tested, and to 
minimize the effects related to the aging process. 
The semi-landmarks were submitted to the 
adjustment process using the TpsRelw program, 
equalizing the distances over the curves. These were 
placed so as to minimize the differences in shape of 
the individuals in relation to the average shape 
(BOOKSTEIN, 1997; GUNZ; MITTEROECKER, 



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2013). All measurements were carried out by the same person to avoid errors between observers.  
 

 
Figure 1. Scheme of the frontal (A) and lateral (B) views with the localization of the landmarks (filled in 

points) and semilandmarks (empty points) used for facial differentiation. 
 
Table 1. Description of the landdmarks and semilandmarks used in the faces of the elderly for morphometric 

analysis.  
Landmark
s 

Description and types of the landmarks and semilandmarks 
Type Frontal view Type Lateral view 

1 III Trichion III Trichion 

2 III 
Highest point at the top edge of 
the midline portion of the 
eyebrow (left) 

III The midpoint of the forehead 

3 III 
Highest point at the top edge of 
the midline portion of the 
eyebrow (right) 

III Glabella 

4 I 
Distal bending of the eyelid of the 
left eye 

III 
The deepest point of the 
nasofrontal region 

5 I 
Mesial bending of the eyelid of 
the left eye 

III Midnasale 

6 III Glabella III Pronasale 

7 I 
Mesial bending of the eyelid of 
the right eye 

I Subnasale 

8 I Distal eyelid flap of the right eye III 
The midpoint of the border of the 
labiare superius 

9 III Left zygomatic region III 
The midpoint of the border of the 
bottom lip 

10 III Right zygomatic region III Gnathion 

11 I 
Most lateral point on the left nasal 
ala 

III Distal eyelid flap of the right eye 

12 I 
Most lateral point on the right 
nasal ala 

III Most lateral point on the nasal ala 

13 III Pronasale III 
Most lateral point where the 
upper and lower lib meet 

14 I 
Most lateral point of the nose 
(left) 

I Tragus auricular curvature 

15 I Subnasale I Antihelix start 

16 I 
Most lateral point of the nose 
(right) 

III Ear contour 



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17 III 
Most lateral point where the upper 
and lower lib meet (left) 

III Ear contour 

18 III 
The midpoint of the border of the 
labiare superius 

III Ear contour 

19 III 
Most lateral point where the upper 
and lower lib meet (right) 

III Ear contour 

20 III 
Protrusion of the mental tubercle 
(left) 

III Contour of the earlobe 

21 III Gnathion III Contour of the earlobe 

22 III 
Protrusion of the mental tubercle 
(right) 

III Contour of the earlobe 

23 --- ---- I Intertragic notch 
 
Based on the Cartesian coordinates 

obtained, the data was submitted to Generalized 
Procrustes analysis with the aim of eliminating the 
effects of scale, rotation and translation and to 
obtain the average shape of the face. A preliminary 
test was carried out based on the Procrustes 
ANOVA, to find out if there were measuring errors 
associated with the measurer. In this manner, 
measurements were carried out in duplicate 
(PALMER, 1994).  

A regression analysis was conducted, to 
verify and correct the allometry effect, especially 
due to the effects of the aging process. Following 
this, the correlation analysis, discriminating 
function, cross validation and D2 Mahalanobis 
distance and Thin-Plate Sline were carried out. 
These analyses were undertaken using the MorphoJ 
program (KLINGENBERG, 2011). Differences 
associated with sexual dimorphism and edentulism 
were also tested for. Subsequently, we investigated 
if there were symmetrical facial variations for the 
frontal view or fluctuating and directional 
asymmetry, using Procrustes ANOVA for each 
individual. Subsequently an analysis of variance 
(ANOVA) was realized to verify if the diseases 
interfered with characteristics of facial symmetry. 
To verify facial symmetry, the landmarks from one 
side were corresponded with those on the other side 
along a medial plane (KLINGENBERG et al, 2002).  

 
RESULTS  

 
From the Procrustes ANOVA, an absence of 

variation associated with measurement errors was 
found, therefore, the analyses were performed. 
Based on the regression to test the presence or not of 
allometry, significant values for the frontal and 
lateral views (p<0.01) were observed. Therefore, the 
face shape, in both the lateral and frontal views, is 
modified as a function of size. Thus, the data 
without the allometry effect was used and the 
analysis of facial shape was conducted. 

Different ethnic groups were evaluated and 
differences associated with ethnicity were not 
observed. In the discriminating function, significant 
differences (p < 0.01) were observed in terms of 
sexual dimorphism both for the frontal and lateral 
views. Therefore, females and males were analyzed 
separately to only verify the effect of the variation 
of facial shape based on the presence of absence of 
diabetes and/or hypertension. However, in 
individuals, the whole face was analyzed as well as 
without the jaw and orolabial region, given that 
these regions suffer intense morphological alteration 
with age, despite significant values associated with 
edentulism not being observed (p<0.01). 

Within each sex, when evaluating the facial 
shape with or without the orolabial region, 
significant differences were encountered (p<0.01) 
using the discriminating function related to the 
chronic diseases for both views. Based on these 
results, cross validation was carried out with the aim 
of determining to what extent individuals were 
correctly classified within each group.  

Considering the male sex, from the 
complete frontal view, individuals were correctly 
classified in 75.2% of cases, while from this same 
view without the orolabial region and jaw the 
classification was 72.4%. In the complete lateral 
view and without the orolabial region and jaw there 
was 81.2% and 66.3% of correct classification for 
each group, respectively. For females, individuals 
were classified correctly in 62.8% of cases for the 
complete frontal view and 71.4% without the 
orolabial region and jaw. In the lateral view, the 
classification was 68.5% for the complete view and 
67% for the view without orolabial region or jaw.  

Based on the better classification by cross 
validation, the D2 Mahalanobis distance was 
obtained from 10,000 permutations. For the male 
frontal view, significant values (p > 0.05) were not 
observed only with facial shape between individuals 
with hypertension and hypertension and diabetes, as 
well as presenting a shorter Mahalanobis distance. 



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The greater facial morphological distance was 
between individuals with an absence of these 
diseases and diabetics (Table 2). However, for the 
complete lateral view, significant differences were 
found comparing all the groups, where the smaller 

distance was between individuals without presence 
of either disease and the greater distance was 
between those who presented both diseases and the 
diabetics (Table 2).  

 
Table 2. D2 Mahalanobis distance matrix in the lower half of the table and significance value with 10,000 

replications, referent to the complete masculine frontal and lateral views.  

Frontal view 
Presence of both 
diseases 

Absence of both 
diseases 

Diabetes Hypertension 

Presence of both 
diseases 

 <.0001** 0.0138* 0.0696ns 

Absence of both 
diseases 

3.3491  <.0001** <.0001** 

Diabetes 3.6736 4.4913  0.0001** 
Hypertension 1.7518 2.2127 3.7255  

Lateral view     

Presence  
of both diseases 

 <.0001** 0.0002** <.0001** 

Absence of both 
diseases 

3.6676  <.0001** 0.0162* 

Diabetes 6.1049 6.1005  <.0001** 
Hypertension 3.4133 1.7778 6.275  

ns – not significant; * significant p>0.05; ** significant p>0.01 

 
For the lateral female view without the 

orolabial region or jaw, significant values (p<0.05) 
were also observed for all the groups. The greatest 
distance was between those who did not present 
both diseases and diabetic individuals, and the least 

distance was between those individuals with both 
diseases and those with hypertension. These results 
were similar to those found in males in the frontal 
view (Table 3). 

 
Table 3. D2 Mahalanobis distance matrix in the lower half of the table and significance value with 10,000 

replications in the upper part, referent to the lateral female view with the orobial and jaw. 

 
Presence of both 
diseases 

Absence of both 
diseases 

Diabetes Hypertension 

Presence of both 
diseases 

 0.0115* 0.0172* 0.0184* 

Absence of both 
diseases 

1.4302  0.0001** 0.0068** 

Diabetes 2.511 3.0411  0.0001** 
Hypertension 1.2948 1.1493 2.9957  

* significant p>0.05; ** significant p>0.01;   
 

Based on the thin-plate spline, it is possible 
to verify the change of form between the groups 
analyzed. For the frontal view it is possible to 
observe that in individuals who present diabetes, the 
region of the zygomatic arch tends to expand, while 
in those who present hypertension the nasal region 
and the jaw tends to expand, giving the face a “full 
moon” shape as reported by some researchers (DBH 
VI, 2010; OIGMAN, 2014). In individuals who 
present both diseases, the face shows the 
characteristics associated with diabetes and 

hypertension patients, with some widening in the 
region of the zygomatic arch and the jaw. Those 
who did not present both diseases, have a facial 
shape closer to the average, presenting fewer 
variations (Figure 2).  

For the lateral view, individuals who 
presented diabetes presented shortening in the nasal 
region and contraction in the region of the ear at the 
beginning of the anther branch in relation to the 
auricular form, while the individuals with 
hypertension had a shape opposed to that of 



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diabetics. Evidence of differences in the shape of 
the lateral view between hypertension patients and 
individuals who did not present both diseases was 
not observed. Those simultaneously presenting 
hypertension and diabetes, in a manner similar to 

those in the frontal view, presented characteristics 
for shape both of hypertension patients (expansion 
in the auricular region) and for diabetics 
(contraction in the nasal region) (Figure 3).   

 

 
Figure 2. Thin-plate spline demonstrating the variation in the frontal face shape based on the average shape for 

individuals with diabetes, hypertension and presence or absence of both diseases.  
 

 
 
Figure 3. Thin-plate spline showing the variation in face shape in the lateral view based on the average shape 

for individuals with diabetes, hypertension and presence or absence of both diseases. 
 



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Significant values for the asymmetry 
characteristics for facial shape (p<0.001) were 
observed. The elderly presented fluctuating 
asymmetry with significant values for the side 
relation by individual (p<0.001) and directional 
asymmetry associated with the side effect 
(p<0.001). Despite the presence of facial symmetry, 

significant values related to the presence or absence 
of diseases were not encountered (p<0.05). 
However, it was observed that individuals who 
present hypertension have a tendency to show 
greater variation in facial symmetry, while 
individuals who do not present both diseases have 
less facial symmetry (Figure 4).  

 

 
Figura 4. Boxplot indicating the highest and lowest indices of asymmetry based on facial shape in 

elderlypeople with diabetes, hypertension or with presence or absence of both diseases. 
 
DISCUSSION  

 
During the aging process, it is natural that 

phenotypic facial changes take place. Time can 
influence the size and shape of the nose, such as the 
tendency for growth and rotation of the tip, and the 
action of gravity itself. Gradual reduction in muscle 
mass can also interfere in the variability of facial 
shape (SANTOS-FILHO; FERREIRA, 2016). 
Facial allometry in humans can be an important 
factor for confusion in studies related to facial 
perception and even the choice of partner. These 
changes are especially associated to the masculine 
face (MITTEROECKER et al, 2013).  

Morphological differences associated with 
sexual dimorphism were also encountered by other 
researchers. Scott et al. (2010) verified the 
association between sexual dimorphism and 
attraction to masculine faces and the prediction of 
the choice of partners. Claes et al (2012) verified 
significant sexual dimorphism in young adults 
between 18–25 years. In a similar manner, 
Mitteroecker et al (2015) verified the facial 
differences associated with sexes and further still 
the different degrees of masculinity based on facial 
shape and partner preferences.  

Beyond these differences between the sexes, 
the orolabial region is one of those, which most 
suffers transformations associated with time of life, 

with a tendency for the lips to become thinner and a 
loss of elasticity in muscles and collagen. The 
region of the jaw under the influence of gravity can 
also alter the facial shape over time (SANTOS-
FILHO; FERREIRA, 2016).  

Despite the effects caused by aging 
principally in the orolabial region as reported by 
Santos-Filho and Ferreira (2016), the lower result 
for the analyses of the orolabial region, indicate that 
the complete evaluation of the face still has better 
results in comparison with the analyses without this 
region, especially because the morphological 
variation for individuals who have hypertension is 
mainly located in the region of the menton that is in 
the orolabial region. 

From the greater values obtained through 
cross validation, it is possible to observe that male 
individuals present morphological characteristics 
that more clearly relate to the presence of diseases 
such as diabetes and hypertension. Additionally, the 
face as a whole, in both the views, were those that 
most contributed to the separation of the groups, 
diabetics, those with hypertension, or the presence 
or absence of both diseases. In women, the best 
parameter for the identification of the chronic 
diseases is the frontal view without the orolabial 
region or jaw. Demayo et al (2009b) verified 
variations in face shape between diabetic and non-
diabetic adults. Additionally, it is inferred that the 



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geometric morphometrics is effective to describe the 
facial shape between individuals who present this 
disease and that this technique can be utilized to 
describe the facial shape with the aim of identifying 
specific health problems.  

Diabetes mellitus and systemic arterial 
hypertension are diseases that generally increase at 
more advanced ages and are one of the main causes 
of mortality around the world (CRUZERA; 
UTIMURA; ZATZ, 1998). Arterial hypertension 
normally generates changes in the facial region 
frequently making it rounder (DBH VI, 2010) while 
diabetes normally generates edemas due to the 
accumulation of bodily fluids (ANWER et al 2011), 
and these characteristics are frequently visible in the 
facial region. 

A study carried out by Scott et al (2015) 
found that the quotient of the autism spectrum is 
identified with greater ease in the facial shape of 
individuals of the male sex, compared with females. 
Men were identified in 69% of cases while women 
in only 47%. Demayo et al. (2009a) found 
differentiated grouping characteristics from the 
facial shape of each sex, with the discriminating 
analysis for the male population being classified 
correctly in 91.1% of cases and in females in 94.4%. 
This demonstrates that facial analysis of both sexes 
is important given that they can present difference 
characteristics and responses in a diversity of 
analyses.  

These differences in facial characteristics 
between men and women can be related to life style 
associated with each sex. Men show fewer health 
problems, ingest fewer medications and tend to have 
a better quality of life in comparison with women 
due to being more accepting of the physical changes 
associated with aging (GUIOMAR, 2012). The life 
process of women shows a greater preoccupation 
with children. Additionally, they do not have the 
same opportunities or access to education, schooling 
or profession, they frequently abdicate their 
freedom, and these tiring, day-to-day factors 
associated can accelerate the aging process 

(FIGUEIREDO et al., 2007; PLONER et al., 2008). 
However, women worry more about their 
appearance in comparison to men, being more 
demanding, presenting characteristics of vanity and 
being more worried about the standard 
(LIMOEIRO, 2012). All these variables can 
interfere in some way, in the differences between 
the sexes associated with facial morphological 
variations and chronic diseases.  

With these results it is possible to observe 
that there are morphological facial differences 
between elderly individuals who show the presence 

or absence of both diseases. According to Pound et 
al. (2014), facial symmetry can indicate 
physiological health and interfere in the selection 
and choice of partners, despite not having observed 
facial variation due to health in children.  

Facial asymmetry is also common amongst 
individuals, as was seen by Demayo et al. (2009b). 
These researchers identified asymmetry in the facial 
region between individuals who presented or not 
diabetes, observing a lengthening toward the right 
side, an inclination of the peak of the forehead and a 
compression of the face in the direction of the 
center. Evaluating population differences in Filipino 
indigenous groups Demayo et al. (2009a) found 
variations in facial symmetry for both sexes, the 
results corroborating with those found in this study, 
which presented fluctuating asymmetry and 
directional asymmetry. Solon et al. (2013) found 
high levels of fluctuating asymmetry between 
youths and adults with the presence of hypertension 
when comparing individuals who did not present 
this disease.  

Despite facial variations occurring due to 
human aging, it was possible to observe changes in 
facial characteristics in the elderly with chronic 
diseases such as diabetes and hypertension. Up to 60 
years of age, the studies associated with human 
aging were almost exclusively directed toward 
fragility, loss and decline (GUIOMAR, 2012). The 
social representation of old age is associated with a 
loss of vitality, tiredness, disease, incapacity and 
many other negative aspects (PLONER et al, 2008). 
However, there are also socio-political changes, 
especially related to health and quality of life 
generating a new profile for aging and a tendency to 
search for new understandings in terms of the life of 
the elderly, especially associated with greater 
longevity and better conditions of life (GUIOMAR, 
2012).  

The main limitations of the study were due 
to the limited number of anatomical landmarks to be 
chosen due facial aging process which is reflected in 
a reduction in the number of variables analyzed. 
This limited us to an evaluation of the internal 
structures. Additionally, the transversal delineation 
of this study presented a limitation, which did not 
allow inferences regarding the causality of the 
associations observed. However, despite these 
factors, with the number of anatomical landmarks 
utilized, it was possible to observe that even with 
these limitations, we were able to determine the 
changes in shape between the groups of individuals 
evaluated.  

Studies such as the present one can 
contribute to the development of diagnostic 



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morphometric methods for precocious diseases, 
based on new methods and techniques as well as try 
to contribute to treatments, in this way improving 
the quality of life of these individuals. However, 
further research is necessary to confirm the 
possibility of the use of geometric morphometrics in 
the identification of precocious diseases.  

ACKNOWLEDGMENTS 
 
Research Program for SUS (FAPESB / 

PPSUS) financial support, grant term 
SUS0055/2013. And by the scholarship of the 
National Postdoctoral Program of CAPES for the 
author Lorena Andrade Nunes 

 
 

RESUMO: O processo de envelhecimento é algo que ocorre naturalmente durante a vida do ser humano. Isso 
causa mudanças biológicas, psicológicas e sociais no corpo. A antropometria, que até o final do século XIX foi uma 
ferramenta comum em práticas clínicas e taxonômicas, e ganhou uma grande importância como medidas de saúde pública. 
Esta metodologia também é importante na avaliação de morbidades nos indivíduos e suas práticas sociais. Assim, o 
objetivo do presente estudo foi avaliar características da forma facial em idosos, associados a doenças crônicas como 
diabetes e hipertensão, com base em imagens bidimensionais das vistas lateral e frontal do rosto. A análise da função 
discriminante e da validação cruzada apresentou diferenças significativas (p <0,01), para o dimorfismo sexual em ambos 
os pontos de vista e a presença e/ou ausência de diabetes e hipertensão (p <0,01). Para o sexo masculino, as classificações 
mais elevadas foram relacionadas às vistas laterais e frontais completas, em 75,2% e 81,2% dos casos, respectivamente. 
Para o sexo feminino, os resultados para a vista visão frontal sem a região orelabial ou maxilar foi de 71,4%. Houve 
variação na simetria facial bilateral dos idosos, com presença de assimetria flutuante e direcional (p <0,01). Apesar das 
variações morfológicas associadas ao envelhecimento, através de técnicas de morfometria geométrica é possível observar 
uma característica na forma facial em relação à diabetes, hipertensão e presença ou ausência de ambas as doenças. 

 
PALAVAS-CHAVE: Assimetria. Diabetes. Forma da face. Hipertensão. Homo sapiens 

 
 
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