Bioscience Journal  |  2021  |  vol. 37, e37008  |  ISSN 1981-3163 
 

1 

 

 
 

Luciana Paula do Carmo FERRUZZI1 , Letícia Resende DAVI2 , Daniela Cristina Braga de LIMA1 , 

Marcelo TAVARES3 , Alessandra Maia de CASTRO4  
 
1 Postgraduate Program in Dentistry, School of Dentistry, Federal University of Uberlândia, Uberlândia, Minas Gerais, Brazil. 
2 Department of Occlusion, Fixed Prosthesis, and Dental Materials, School of Dentistry, Federal University of Uberlândia, Uberlândia, Minas 
Gerais, Brazil. 
3 Department of Statistics, School of Mathematics, Federal University of Uberlândia, Uberlândia, Minas Gerais, Brazil. 
4 Department of Pediatric Dentistry, School of Dentistry, Federal University of Uberlândia, Uberlândia, Minas Gerais, Brazil. 
 
Corresponding author: 
Alessandra Maia de Castro Prado 
Email: alessandramaiacp@ufu.br 
 
How to cite: FERRUZZI, L.P.C., et al. Oral health-related quality of life of athletes with disabilities: a cross sectional study. Bioscience Journal. 
2021, 37, e37008. https://doi.org/10.14393/BJ-v37n0a2021-53664 

 
Abstract 
Several studies have suggested that athletes with disabilities experience more difficulties having access to 
oral health care than the population in general. The aim of this study was to estimate the impact of socio-
demographic/socio-economic factors, oral hygiene habits and clinical oral health conditions on the OHRQoL 
– Oral Health-Related Quality of Life (assessed with the Oral Health Impact Profile 14 – OHIP-14) on a sample 
of athletes with heterogeneous types of disabilities. Altogether, 105 athletes with disabilities were 
evaluated. Cross-sectional data was collected including interviews to obtain socio-demographic/socio-
economic data, the OHIP-14 and clinical oral examinations parameters. The outcome variable was the OHIP-
14 severity score. The explanatory variables were sex, age, monthly household income, level of schooling, 
frequency of toothbrushing and flossing, gingival bleeding, periodontal disease, trauma in incisors, 
prosthesis wearing and needs, number of sound teeth, DFMT (decayed, filled and missing teeth) index and 
its isolate components. Mann-Whitney, Kruskall-Wallis and Spearman tests used to compare OHIP-14 
severity scores associated with the explanatory variables. The mean OHIP-14 severity score for the sample 
was 9.32 (SD 8.99) and the most affected domain was Physical Pain (mean 2.63; SD 1.97), followed by 
Psychological Discomfort (mean 1.81; SD 2.02). Significant differences in mean OHIP-14 scores were found 
for periodontal disease, need for complete dentures, number of sound teeth, DFMT index and its 
components. These results suggest that these clinical parameters can be related to impaired OHRQoL for 
this population. 
 
Keywords: Athletes. Disabled Persons. Epidemiology. Oral Health. Quality of Life. 
 
1. Introduction 

Oral health is relevant for one’s general health as it has influence on the quality of life and overall 
well-being. Nevertheless, even elite athletes may experience poor oral health which could lead to effects 
ranging from physical pain or functional limitations to psychological impacts (Needleman et al. 2015). When 
it comes to athletes with disabilities, the scenario seems to be worse since studies have suggested that they 
may have poorer general oral health status which is often attributed to the manifold difficulties they face to 
attend dental treatment (Zhou et al. 2017).  

ORAL HEALTH-RELATED QUALITY OF LIFE OF ATHLETES WITH 
DISABILITIES: A CROSS SECTIONAL STUDY 

https://orcid.org/0000-0001-5588-8092
https://orcid.org/0000-0003-0100-820X
https://orcid.org/0000-0003-1825-3893
https://orcid.org/0000-0003-3008-3460
https://orcid.org/0000-0002-1185-9609


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Oral health-related quality of life of athletes with disabilities: a cross sectional study 

According to a recent systematic review and meta-analysis, dental caries is a significant global health 
problem in athletes with intellectual disabilities worldwide (Azeredo et al. 2019). Yet another review showed 
that athletes with intellectual disabilities were more frequently diagnosed with oral health problems such as 
missing teeth, gingivitis, filled teeth, sealants, and untreated decays (Al-Shamlan et al. 2019). 

People with disabilities may find in adapted sports a means to foster physical rehabilitation, help 
them overcome psychological challenges and promote social engagement, thus helping in their psychosocial 
reintegration process. In addition to this, people with disabilities participating in adapted sports activities by 
itself is sufficient for presenting a positive perception of quality of life (Ciampolini et al. 2017). 

Paralympic sports have gained an increasing number of practitioners which can be evidenced by the 
growing number of athletes participating in paralympic events (International Paralympic Committee 2018).  

International data on the oral health status of athletes with heterogeneous types of disabilities is 
really scarce. Most of the literature in this field has been based on the Special Olympics sporting events 
which are aimed at athletes with intellectual disabilities (Marks et al. 2018). Although these studies offer a 
useful assessment of this population’s oral health status, it is argued that the generalization of their results 
should be avoided, once their participants may have better access to dental care than the general population 
of people with disabilities (Marks et al. 2018).  

Oral health criteria offer objective measures of oral disorders which are undeniably important to 
understand a population’s health status. Yet, they fail to provide deeper insight into the impact of oral 
disease on everyday living and quality of life. A number of questionnaires focusing on individuals’ self-
perception have been developed to assess Oral Health-Related Quality of Life (OHRQoL) and the Oral Health 
Impact Profile short form (OHIP-14) is a shortened version of the OHIP-49 (Slade 1997). It is a 14-item 
questionnaire, which was translated to Portuguese, validated for Brazil and presents good psychometric 
qualities (De Oliveira and Nadanovsky 2005).   

Although previous studies have described a moderate relationship between disease and quality of 
life (Masood et al. 2017), there is an apparent scarcity of articles about OHRQoL in populations of athletes 
with disabilities, so there is a need for studies which assess the oral health status of this population, 
considering the heterogeneity of disabilities which is commonly inherent among these individuals, regardless 
of the sports they practice. So, the aim of the present study was to evaluate if the OHRQoL (assessed by the 
OHIP-14 severity score) is affected by socio-demographic/socio-economic factors, oral hygiene habits and 
clinical oral health conditions on a sample of athletes with heterogeneous types of disabilities. The study 
hypothesis was that none of the socio-demographic/socio-economic factors, the oral hygiene habits and the 
clinical oral health status would have an impact on the OHRQoL of the athletes. 
 
2. Material and Methods 

Study design and sample characteristics  
This cross-sectional observational study evaluated athletes with disabilities training in Uberlândia, 

MG, Brazil, congregated by the Uberlândia’s Foundation of Tourism, Sports and Leisure (FUTEL). Exclusion 
criteria comprised subjects who were not able to answer the questionnaires (either themselves or with the 
aid of a legal caretaker), those that were not present for examinations during the study and also those who 
were not able or willing to sign a statement of informed consent. Altogether, 121 athletes were eligible to 
participate, but 105 took part in the study and a convenience sampling strategy was adopted.  

 
Ethical considerations 

The Human Research Ethics Committee of the Federal University of Uberlândia, MG, Brazil, approved 
the study (protocol process number: 98620818.1.0000.5152). Participants signed a statement of informed 
consent. 

 
Training exercise and pilot study 

Both dentists who took part in the study underwent a training exercise which was theoretical and 
practical. A professor of the School of Dentistry of the Federal University of Uberlândia conducted the 
theoretical stage involving the discussion of the criteria used in the clinical examinations. In the clinical stage, 
10 patients, who were undergoing treatment at the prior mentioned School of Dentistry, were examined by 



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FERRUZZI, L.P.C., et al. 

the two dentists. Each dentist was responsible for a set of criteria and performed the same examinations in 
the whole sample throughout the entire study in order to avoid inter-examiner discrepancies.  

Subsequently, a pilot study was performed with 10 athletes, not included in the main study. The same 
athletes were re-evaluated ten days afterwards. The intra-examiner Kappa coefficient was calculated for all 
the clinical parameters.  Kappa values varied from 0.65 to 1.00 and were considered satisfactory, according 
to the criteria adopted by the Brazilian National Oral Health Survey (Brasil 2010). The necessary adaptations 
were then made to adjust the data collection tool. 

 
Non-clinical data collection 

Every practical stage of this study took place in the athletes’ training centers, using natural 
illumination, since many participants would face difficulties in displacing to the School of Dentistry. 

Non-clinical data was collected through face-to-face interviews prior to clinical examinations. The 
instruments used in the interviews were the Brazilian version of the OHIP-14 and an adapted questionnaire. 
The OHIP-14 comprises seven conceptual domains: functional limitation, physical pain, psychological 
discomfort, physical disability, psychological disability, social disability and handicap, with 2 questions each. 
It measures the frequency of oral impacts on a five-point Likert type scale: 0 = never; 1 = hardly ever; 2 = 
occasionally; 3 = fairly often; 4 = very often. In the additive method, used to obtain the total OHIP-14 severity 
score, the ordinal values for the 14 questions are added (range from 0 to 56). The method performs better 
than the simple count method but has a similar performance as the weighted standardized method when it 
comes to discriminating between groups (Allen and Locker 1997). The overall and per domain OHIP -14 
severity scores were calculated. Higher scores denote poorer self-reported OHRQoL (De Oliveira and 
Nadanovsky 2005). Volunteers were instructed to answer the questions considering the previous 12 months.  

The adapted questionnaire included questions about sex, age, monthly household income, level of 
schooling and oral hygiene habits. Age was divided into three categories: 15-30, 31-45 and 46+ years.  
Monthly household income was categorized into four groups considering the Brazilian minimum wage (1 
BMW current value of US$ 269.00): up to 1 BMW, from > 1 to 3 BMW, from > 3 to 5 BMW and > 5 BMW. 
Level of schooling was assessed in number of years and grouped as follows: up to 8, from 9 to 12 and more 
than 12. Toothbrushing was dichotomized into once a day or twice/more daily. Dental flossing was divided 
into irregularly (if the individual flossed a few days per week/month) or regularly (if the individual flossed 
every day).  

 
Clinical data collection 

Clinical examinations were performed to collect the volunteer’s oral findings using adapted 
guidelines from the World Health Organization (WHO) - Oral Health Surveys Basic Methods (WHO 2013).  

The periodontal condition was evaluated employing the Community Periodontal Index (CPI) and 
Clinical Attachment Loss (CAL). After gentle probing, gingival bleeding was observed and registered as 
present or absent. The distance in millimeters from the free gingival margin to the base of the pocket/sulcus 
was defined as the pocket depth (PD). The distance between epithelial attachment and the cement-enamel 
junction was used to estimate CAL. The occurrence of periodontitis was determined by the combination of 
PD ≥ 4 mm and CAL ≥ 4 mm in at least one measured site (Peres et al. 2007). Traumatism for upper and lower 
incisors was assessed and dichotomized as absent or present. Dental prosthesis use was categorized as 
follows: does not wear, wears fixed dental prosthesis, wears removable dental prosthesis and wears 
complete dentures. Dental prosthesis needs were classified as follows: no need, needs to replace one tooth, 
needs to replace more than one tooth and needs complete dentures. Decayed‑filled‑missing teeth in 
permanent dentition (DFMT) index and its components were determined, as well as the number of sound 
teeth. 

 
Data management and statistical analysis 

The outcome variable was the OHIP-14 severity score. The explanatory variables were sex, age, 
monthly household income, level of schooling, frequency of toothbrushing and flossing, gingival bleeding, 
periodontal disease, trauma in incisors, prosthesis wearing and needs, number of sound teeth, DFMT index 
and its isolate components (decayed, filled and missing teeth). Mann-Whitney and Kruskall-Wallis tests were 



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Oral health-related quality of life of athletes with disabilities: a cross sectional study 

used to compare OHIP-14 severity scores associated with these variables. Descriptive analysis of the data 
was performed and the mean OHIP-14 severity score values, standard deviation, median and interquartile 
range were calculated in association with the explanatory variables. Spearman correlation coefficients were 
calculated to assess the correlation between number of sound teeth, DFMT index, its isolate components 
and the OHIP-14 severity scores. A 5% level of significance was adopted. 
 
3. Results 

A total of 105 athletes with disabilities took part in this study. The average age of the participants 
was 33 (SD 12) years (range 15 to 71 years). Sixty athletes practiced athletics, 24 powerlifting, 11 were 
swimmers and 10 played boccia. Seven athletes needed the help of a caretaker to perform their daily 
activities. 

Among the participants, 82 (78.1%) had a predominant physical impairment, 17 (16.2%) had visual 
impairments and 8 (7.6%) had intellectual impairments predominantly. The athletes with physical 
impairments included: 48 with limitations of the lower limbs, 6 with limitations of the upper limbs, 12 with 
limitations of both the lower and upper limbs and 12 with hemiplegia (limitations on one side of the body of 
the lower and upper limbs).  The etiology of the impairments comprehended: poliomyelitis, 
myelomeningocele, hydrocephalus, hypoxia at birth, dwarfism, arthrogryposis, cerebral palsy, autism, 
glaucoma, congenital toxoplasmosis, stroke, cerebral aneurysm, meningitis, Arnold Chiari syndrome, traffic 
accident, gunshot trauma and injury from shallow water diving. 

The OHIP-14 severity score ranged from 0 to 41.0 (median 6.0; mean 9.32; SD 8.99). The distribution 
of the scores was skewed and 45.71% of the participants had scores between 0 and 5. As shown in Figure 1, 
the analyses per domain revealed that physical pain was the most affected one (mean 2.63; SD 1.97), 
followed by psychological discomfort (mean 1.81; SD 2.02). 
 

 
Figure 1. Mean scores for total OHIP-14 and by domain. 

 
The socio-demographic/socio-economic characteristics of the sample are presented in Table 1. Most 

individuals were males (60.9%), mostly young (46.7% were between 15-30 years old), 63.8% studied 
between 9 and 12 years, and 49.5% had a monthly household income which varied from 1 to 3 Brazilian 
minimum wages. 

Most participants (93.3%) reported that they brushed their teeth twice or more daily and 67.6% 
declared that they floss daily (Table 1).  

Gingival bleeding was observed in 82.9% of the volunteers. Periodontal disease was prevalent in 
33.3% of the sample. Twenty-five (23.8%) volunteers have experienced some kind of dental trauma in 
incisors. Most volunteers (86.7%) do not wear any kind of prosthesis, however 39 volunteers (37.1%) need 
some type of prosthesis (Table 1).  



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Significant differences in mean OHIP-14 scores were found for periodontal disease and need for 
prosthesis. 
 
Table 1. Descriptive analyses of the characteristics of athletes with disabilities in Uberlândia, MG – Brazil. 
Mean, standard deviation, median, interquartile range and p-value for total OHIP-14 scores, related to the 
study variables (n= 105). 

Variables OHIP-14 scores 

Sociodemographic factors n (%) Mean SD Median 
Interquar- tile 

Range 
(P-value) 

Gender Female 41 (39.1%) 8.292 7.724 5.000 12.000 
0.689 

 Male 64 (60.9%) 9.984 9.716 6.000 13.750 

Age Group 
(years) 

15 to 30 49 (46.7%) 7.735 7.979 5.000 11.500  
31 to 45 36 (32.3%) 10.667 10.466 6.000 14.750 0.445 

 46+ 20 (19.1%) 10.800 8.218 8.500 14.750  

Socioeconomic factors            

Monthly 
household 

income 

1 BMW 31 (29.5%) 9.742 8.571 6.000 12.000  
> 1 to 3 BMW 52 (49.5%) 9.538 9.314 6.000 15.750 0.791 
 > 3 to 5 BMW 13 (12.4%) 9.692 11.003 6.000 13.000  

 > 5 BMW 9 (8.6%) 6.111 5.255 5.000 10.000  

Level of 
Schooling          
(in years) 

Up to 8 19 (18.1%) 9.684 7.660 6.000 15.000  

9 to 12 67 (63.8%) 9.433 9.124 6.000 13.000 0.657 

> 12 18 (17.1%) 8.779 10.367 5.500 11.750  

Oral Hygiene Habits            

Toothbrushing 
1X a day 7 (6.7%) 13.857 11.437 14.000 18.000 

0.236 
2X or + daily 98 (93.3%) 9.999 8.773 6.000 11.500 

Dental flossing 

Irregularly 34 (32.4%) 11.470 9.561 9.000 16.250 
0.088 

Regularly 71 (67.6%) 8.296 8.583 5.000 10.000 

Variables OHIP-14 scores 

Clinical Oral Health Parameters n (%) Mean SD Median 
Interquar- tile 

Range 
(P-value) 

Gingival 
bleeding 

Absent 18 (17.1%) 7.353 8.170 4.000 10.000 
0.234 

Present 87 (82.9%) 9.816 9.126 6.000 13.000 

Periodontal 
disease 

Absent 70 (66.7%) 7.843 7.945 5.000 10.500 
0.025* 

Prevalent 35 (33.3%) 12.286 10.274 9.000 16.000 

Trauma 
(incisors) 

Absent 80 (76.2%) 9.313 9.449 6.000 12.500 
0.539 

Present 25 (23.8%) 9.360 7.505 6.000 12.000 

Wearing Dental 
prosthesis 

Do not wear 91 (86.7%) 9.022 8.777 6.000 12.000  
Fixed   7 (6.7%) 13.143 8.726 11.000 18.000 0.066 
Removable   5 (4.7%) 13.200 12.729 13.000 23.500  
Complete denture 2 (1.9%) 10.000 14.142 10.000 –  

Need for dental 
prosthesis 

No need 66 (62.9%) 7.682 7.494 5.000 11.000  

Replace 1 tooth 11 (10.0%) 8.636 7.447 10.000 15.000 0.031* 

Replace > 1 tooth 25 (24.0%) 12.080 11.202 9.000 18.000  

Complete denture 3 (2.9%) 25.000 6.245 23.000 –  

*Statistically significant difference (p-value < 0.05). Mann-Whitney for dichotomous variables and Kruskall-Wallis for the other 
variables with more than two categories. 

 
Spearman correlation coefficients were used to assess the association between the number of sound 

teeth, DFMT index and its components and the OHIP-14 severity scores and were not strong (Table 2). All 
scores of DFMT were correlated significantly with OHIP-14. 

 
 
 
 
 



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Oral health-related quality of life of athletes with disabilities: a cross sectional study 

Table 2. Spearman correlation between OHIP-14 and sound teeth, DFMT index, decayed, filled, missing teeth 
and p-value.  

Variables Correlation coefficient p-value 

OHIP-14 X Sound teeth -0.295 0.002* 

OHIP-14 X DFMT index 0.329 0.001* 

OHIP-14 X Decayed teeth 0.192 0.050* 

OHIP-14 X Filled teeth 0.222 0.023* 

OHIP-14 X Missing teeth 0.267 0.006* 

*Statistically significant difference (p-value < 0.05 – Spearman). 
 

Table 3 shows that the number of sound teeth (mean 18.94; SD 7.81) decreased in older age groups. 
The mean DFMT was 9.92 (SD 7.91) and the ‘filled teeth’ component was predominant (mean 6.86; SD 6.25) 
followed by ‘missing teeth’ (mean 1.99; SD 4.65) and ‘decayed teeth’ (mean 1.08; SD 1.75). Tooth loss and 
filled teeth increased in older age groups. 

 
Table 3. Means (SD) for sound teeth, DFMT, decayed, filled, missing teeth by age categories (in years) and 
for the total sample (n= 105). 

Age Sound Teeth DFMT Decayed Filled Missing 

15-30 24.12 (5.0) 4.37 (4.6) 0.92 (1.6) 3.37 (0.3) 0.08 (4.2) 

31- 45 16.75 (7.2) 12.33 (7.1) 0.94 (1.1) 8.56 (6.3) 2.83 (6.2) 

> 46 10.20 (4.1) 19.20 (4.0) 1.70 (2.8) 12.35 (4.8) 5.15 (5.6) 

Total 18.94 (7.8) 9.92 (7.9) 1.08 (1.8) 6.86 (4.7) 1.99 (6.3) 

 
4. Discussion 

According to Al-Shamlan et al. (2019), studies that evaluate athletes with special needs commonly 
use convenience sampling, which is justified by the risk of presenting a relatively small number of 
participants, and their wide age range is also an attempt to tackle this risk. The authors normally related this 
to the difficulties of intellectually disabled athletes in cooperating with the examiners, but this is not in 
accordance with this study, since oral examinations were performed without difficulties due to the athletes’ 
behaviour. 

Another systematic review about the prevalence of dental caries in athletes with disabilities showed 
that eight of the included studies were considered to have a moderate risk of bias, and eight were considered 
to have high risk of bias (Azeredo et al. 2019), showing that the bias is present in other studies with this 
public. 

The present study evaluated the impact of socio-demographic/ socio-economic factors, oral hygiene 
habits, clinical oral health parameters on OHRQoL in a sample of athletes with disabilities in Uberlândia, MG, 
Brazil. Contrary to the hypothesis of the study, some of the explanatory variables analyzed had a significant 
impact on the OHRQoL and so DFMT. 

To the extent of our knowledge, this is the first study to assess OHRQoL and the variables related to 
it in a group of athletes with multiple disabilities. For Couto et al. (2018), OHIP-14 might be regarded as a 
useful tool in terms of understanding the overall impact of intellectual disabled patients’ self-perception of 
their oral health status in their daily activities and quality of life.  

Heterogeneity of the study samples may interfere with comparisons of OHRQoL data. Besides, the 
concept of health and disease, the nature and magnitude of their impacts, may vary between populations 
according to their cultural backgrounds (Allison 1999). The mean OHIP-14 score (9.32) for this study was 
higher than the one obtained (4.45) in a study conducted with workers in education in Brazil (Guerra 2014). 
However, it was lower than the mean (12.7) obtained for a sample of 71 hemophiliac patients in another 
study carried out in Turkey (Baskirt et al. 2009) but it was quite similar to the study of adults with mild 
intellectual disabilities (9.98) in Portugal (Couto et al. 2018) 

The domains with the highest means were physical pain and psychological discomfort (Fig. 1), which 
is in agreement with the results found in a study with adults with mild intellectual disabilities, whose most 



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FERRUZZI, L.P.C., et al. 

affected domains were the same (Couto et al. 2018) and other studies reported similar results (Guerra 2014; 
Marks 2018). A systematic review, which aimed at evaluating the impact of periodontal disease on quality 
of life, also showed that physical pain was the most affected domain, followed by psychological discomfort, 
in 4 of the 9 selected studies that adopted OHIP-14 (Ferreira et al. 2016). According to Locker (2000), pain 
may cause physical or psychological discomfort, or even social disability, defined as restraint or failure in the 
ability to perform some daily tasks. 

None of the social-demographic/socio-economic factors evaluated had a positive association with 
the OHIP-14 scores. Nevertheless, in a study that aimed at identifying the determinants of OHRQoL among 
older people, higher age and level of schooling were significantly correlated with better OHIP-14 scores 
(Martínez-Mesa, 2014). 

 Mean OHIP-14 scores were higher but not statistically significant for those who reported brushing 
their teeth twice or more daily and using dental floss regularly. Nonetheless, in a study which aimed at 
comparing the OHRQoL between a sample of patients with spinal cord injury and healthy controls, irregular 
toothbrushing was a significant variable related to poorer OHRQoL (Pakpour et al. 2016).  

Although dental trauma is the most common sport-related dental implication, the 25 athletes which 
had suffered trauma in incisors did not report much worse OHIP-14 scores. This result is quite surprising 
since dental trauma is often associated with serious consequences related to the aesthetic, functional, 
economic and psychological aspects (Soares et al. 2014). 

A recent systematic review reported that 25 of the 34 selected cross-sectional studies (most of which 
employed the OHIP-14) demonstrated that periodontal disease was associated with negative impact on 
quality of life (Ferreira et al. 2017). This result was corroborated by our study.  It also states that the greater 
severity of the disease leads to larger negative impact, since periodontal disease may cause a series of clinical 
signs and symptoms, such as bleeding, tooth mobility, receding gums, bad breath, toothache and even 
implications for the systemic health (Seymour 2007). However gingival bleeding, which may be considered 
one of the first signs of unhealthy periodontium, did not significantly impact the mean OHIP-14 sores, which 
agrees with the results obtained in another study (Martínez-Mesa 2014). 

Wearing dentures was not related significantly to worse OHRQoL, unlike a study (Martínez-Mesa 
2014) in which wearing dentures was a variable related to poorer OHRQoL. In a German population-based 
study which investigated the association between denture status and OHRQoL, it was reported that wearing 
removable prosthesis was also a strong variable related to impaired OHRQoL (John et al. 2004). The quality 
of the prostheses, especially when there is poor retention and adjustment, may be one of the reasons for 
the association between dentures and lower OHRQoL, once unfitting devices can cause traumatic ulcers and 
stomatitis (Andrade 2012; Gil-Montoya 2015).  

According to Couto et al. (2018), the need of dental prosthesis was significantly associated with OHIP-
14, since 32.9% of 240 adults with mild intellectual disabilities who had 20 or fewer teeth had an impact in 
OHRQoL. In this study, 36.9% need some kind of dental prosthesis and it was also statistically significant. 
Those authors pointed out other concerns about the use of a complete prosthesis such as the risk of 
swallowing or the difficulty to actually tolerate the use of a denture. 

The global prevalence of dental caries was 36.5% in a study with athletes with intellectual disabilities 
(95% CI = 30.6 to 42.7) with high heterogeneity between studies (Azeredo et al. 2019). Another review 
(Azeredo et al. 2020) aimed to realize a meta-analysis to calculate a worldwide prevalence of dental caries 
in athletes without disabilities and showed that there was a high prevalence of dental caries (46.25%). In the 
present study, 12.3% of the athletes had never had dental caries experience and at the moment of the 
examination 50.4% presented dental caries. It must be emphasized that only clinical examination was 
accomplished, since it was not possible to complement the diagnosis with X-ray exam. So, considering the 
impact of oral health in quality of life and in performance, risk factors for the development of dental caries 
in athletes should be studied more rigorously (Azeredo et al. 2020). 

The number of sound teeth, the DFMT index and its components had a weak but statistically 
significant association with the OHRQoL. Pain originating from decayed teeth may have deeper impact and 
its consequences may extend further to cause physical, psychological and social damages to the individual 
(Johansson and Östberg 2015). However, a study with an elderly sample of individuals from Brazil reported 



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Oral health-related quality of life of athletes with disabilities: a cross sectional study 

that the presence of decayed teeth had no impact on OHRQoL assessed with the Geriatric Oral Health 
Assessment Index (GOHAI) questionnaire (Andrade 2012).  

However, this study has important limitations that should be reported. One of these is the 
convenience sample, which does not guarantee its representativity. Nevertheless, it should be considered 
that it is possible to make some important inferences about oral health indicators of this sample, in spite of 
the sampling strategy that was adopted. Another limitation is the cross-sectional design, which did not allow 
the identification of individuals’ OHRQoL perception before a dental treatment and after. So, other 
multicentric studies are necessary to investigate the OHRQoL of athletes with disabilities in different places. 
In addition, heterogeneity seems to be an intrinsic characteristic of this population, from the cause and 
circumstances of the disabilities to the effects they produce. This limitation poses yet another challenge 
when it comes to avoid bias by means of using stricter exclusion criteria and, at the same time, assuring a 
sample with a considerable number of participants. 

Comprehending which health determinants have the strongest association with welfare may 
facilitate identifying priorities for preventive measures and choices of treatment. The present findings may 
assist in the establishment of specific public oral health policies directed at this population, taking into 
consideration their accessibility needs, as well as other particularities of their health status.  
 
5. Conclusions 

In conclusion, the present study demonstrated that some of the most prevalent oral health problems, 
namely tooth decay, tooth loss and periodontal disease, assessed with indices traditionally used in oral 
research, were associated with impaired OHRQoL. 
 
Authors' Contributions: FERRUZZI, L.P.C.: conception and design, acquisition of data, analysis and interpretation of data, drafting the manuscript, 
final approval; DAVI, L.R.: conception and design, acquisition of data, analysis and interpretation of data, drafting the manuscript, final approval; 
LIMA, D.C.B.: conception and design, acquisition of data, analysis and interpretation of data, drafting the manuscript, final approval; TAVARES, 
M.: analysis and interpretation of data, drafting the manuscript, final approval; CASTRO, A.M.: conception and design, acquisition of data, 
analysis and interpretation of data, drafting the manuscript, final approval. 
 
Conflicts of Interest: The authors declare no conflicts of interest. 
 
Ethics Approval: Approved by Human Research Ethics Committee of the Federal University of Uberlândia. CAAE: 98620818.1.0000.5152. 
 
Acknowledgments: The authors thank the Dental Hospital of the Federal University of Uberlândia, the associations and clubs which encourage 
the sport for people with disabilities in the city: Uberlândia Paraplegics Association (APARU), Sports Club for the Disabled of Uberlândia (CDDU), 
Virtus, Association of Visual Impairment of the Triângulo Mineiro (Adevitrim), Praia Clube and Uberlandia’s Foundation of Tourism, Sport and 
Leisure (FUTEL). 
 

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Received: 14 April 2020 | Accepted: 18 September 2020 | Published: 20 January 2021 

 

 

  

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, 
distribution, and reproduction in any medium, provided the original work is properly cited. 

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