Braz J Oral Sci. 15(3):190-195

Musculoskeletal Disorders among Dentists 
in Northwest area of the state of São Paulo, 

Brazil
Ana Carolina da Graça Fagundes Freire1,  Gabriella Barreto Soares2, Tânia Adas Saliba Rovida3,  Cléa Adas Saliba 

Garbin4, Artênio José Ísper Garbin5
1PhD student of Preventive and Social Dentistry - Araçatuba School of Dentistry- Paulista State University / Unesp, Jose Bonifácio Street, 1193, Araçatuba, 

São Paulo, Brazil 
2PhD student of Preventive and Social Dentistry - Araçatuba School of Dentistry- Paulista State University / Unesp, Jose Bonifácio Street, 1193, Araçatuba, 

São Paulo, Brazil. E-mail: gabriella.barreto@yahoo.com.br , Phone: +55(027)981000511
3Professor of the Program of Preventive and Social Dentistry - Araçatuba School of Dentistry- Paulista State University / Unesp. Jose Bonifácio Street, 

1193, Araçatuba, São Paulo, Brazil
4Professor of the Program of Preventive and Social Dentistry - Araçatuba School of Dentistry- Paulista State University / Unesp. Jose Bonifácio Street, 

1193, Araçatuba, São Paulo, Brazil
5Professor of the Program of Preventive and Social Dentistry - Araçatuba School of Dentistry- Paulista State University / Unesp. Jose Bonifácio Street, 

1193, Araçatuba, São Paulo, Brazil

Corresponding Author:
Gabriella Barreto Soares

1193, Jose Bonifacio St
Araçatuba – SP- Brazil 

Phone : +55-027-981000511
gabriella.barreto@yahoo.com.br

Abstract

Objective: To determine the prevalence of musculoskeletal disorders in dentists who attend post-
graduate courses in various specialties and establish possible relationships with sociodemographic 
and occupational factors. Methodology: This is a cross-sectional study where 91 professionals 
responded to validated instruments: “Work-related activities that may contribute to job-related 
pain and / or injury” and NMQ “Nordic Musculoskeletal Questionnaire”, and variables were also 
collected regarding sociodemographic and occupational characteristics. Results: WMSDs were 
often reported in the neck, shoulder, lower/upper back, and hand/wrists. Logistic regression analysis 
revealed that there was a correlation between reports of WMSD in lower back and work related 
(OR=13.40). Moreover, associations were found between WMSDs and the occupational factors 
that can contribute to musculoskeletal disorders. Conclusion: There was a high prevalence of 
musculoskeletal disorders among brazilian dentists, and  that the work-related activities contributed 
to musculoskeletal disorders in dentists.

Keywords: Musculoskeletal Pain; Occupational health; Risk factors; Dentistry.

Introduction

Musculoskeletal disorders are generally defined as a group of injuries affecting the 
bones, muscles and tendons of the body, and can occur after a single event or due to an 
accumulation of traumas related to labor activity1,2.

The dentists highlighted by the vulnerability and problems of various natures in the 
occupational context. Among these, those related to the specific postures during their 
clinical activity are evident3-5. Since dentistry is a profession that demands attention and 
precision in movements where the professional must constantly interact with tools and 

Received for publication: December 29, 2016
Accepted: May 31, 2017

Original Article Braz J Oral Sci.
July | September 2016 - Volume 15, Number 3  

http://dx.doi.org/10.20396/bjos.v15i3.8649979



191

equipment to assist in the care, it is natural to experience increased 
muscle tension exacerbated by the number of hours worked1,3,4. 
In this context, the professional end up sharply bending the body 
or performing rotations of the regions of the neck and spine, and 
abduction of the shoulder to improve the field of view and obtain 
easier access to the oral cavity3-9.

The static and sometimes clumsy posture combined with 
repetitive movements and compression of musculoskeletal 
structures increase the risk for developing injuries among dental 
professionals, jeopardizing their health and may lead to the 
removal from the career1,5,9.

To help prevent the installation of musculoskeletal injuries 
and minimize the negative effects, the professionals should 
orientate themselves about the risks to which they are exposed. 
Studies shows a high prevalence of lesions, but few have explored 
and discussed how early musculoskeletal disorders develop in 
dentists, thus undermining the implementation of preventive 
methods5,10.

Most musculoskeletal disorders may be alleviated with 
appropriate preventive attitudes, especially before chronic damage 
is installed1,5-9. Furthermore, the adopted work postures and their 
duration are closely related to musculoskeletal disorders and have 
their variations among the specialties11.

Despite the high prevalence of musculoskeletal complaints 
described, very little is known about these disorders among 
dental professionals and their associated factors. In this sense, 
the objective was to study the prevalence of musculoskeletal 
disorders and their possible relationship to sociodemographic 
and occupational variables in dentists who attend postgraduate 
courses and verify their perception in relation to risk factors for 
development of musculoskeletal disorders.

Materials and Methods

This is an epidemiological study, following the ethical 
standards proposed for studies in humans.

The sample consisted of dentists enrolled in postgraduate 
courses of various specialties (dentistry, endodontic, periodontic, 
surgery, prosthodontics, implant dentistry, pediatric dentistry 
and orthodontic) of a medium-sized municipality in the state of 
São Paulo, Brazil, during 2016. The dental class board advocates 
that each specialization class is comprised of 12 students (N = 
96). Dentists with physical limitations and pregnant women were 
excluded from the study.

Data collection was carried out during 4 months in 2016. 
The data variables related to sociodemographic characteristics, 
work and health of the dentists were acquired through a 
structured questionnaire designed specifically for this study. 
Socio-demographic variables included age, gender and marital 
status. Health-related variables included: body mass index (BMI), 
practice of physical exercises, diagnosis of any disease in the last 
12 months and the use of pain medications. 

To evaluate the musculoskeletal symptoms, the Nordic 
Questionnaire developed by Kuorinka was used with the goal of 
standardizing the measuring of the musculoskeletal symptoms. 
Brazilian version of the Nordic questionnaire was validated and 

adapted by Barros and Alexandre in 200312. This tool consists 
of a posterior view of a human figure, which is subdivided in 
9 anatomical regions: neck, shoulders, upper and lower back, 
elbows, wrists/hands, hips/thighs, knees and ankles/feet, and 
questions about the presence of musculoskeletal pain in any of 
the 9 anatomical areas, inability to perform normal activities and 
necessity to consult a health professional. The respondent has to 
signal with an X an affirmative or negative response (yes or no). 
A 12-month period prior to the time of the study was considered 
for the occurrence of musculoskeletal symptoms.

The questionnaire on risk factors at work that may contribute 
to musculoskeletal disorders (work-related) was also applied to 
identify how much work activities contribute to the development 
of musculoskeletal disorders. This tool was originally developed in 
the United States by Rosecrance et al. In 2009 it was adapted and 
validated for Brazilian culture by Colucci and Alexandre13. This 
instrument comprises 15 items that evaluate individuals’ awareness 
of job environment factors and their potential contribution to 
musculoskeletal disorders. The individuals were asked to indicate 
on a scale from 0 to 10 (with 0 = nothing, and 10 = a lot) 
how much each variable contributed to the development of pain 
and lesions related to their current work tasks. Responses were 
classified in a scale of 3 categories, which indicated severity of 
symptoms in crescent order: the first, from 0–1, indicated absence 
of symptoms; the second, from 2–7, indicated minimal to moderate 
symptoms; and the last, from 8–10, indicated severe symptoms.

Data were entered into the database and analyzes were 
performed using the SPSS version 21.0. To check if the pain 
interferes with the perception of risk factors for musculoskeletal 
disorders, professionals were divided into two groups, the 
group of symptomatic subjects (with pain) and the group of 
asymptomatic subjects (no pain) to be later compared. This 
diagnosis was made with the aid of the “Nordic Musculoskeletal 
Questionnaire” (NMQ). The comparison of the means between 
groups (symptomatic and asymptomatic) was performed using the 
Mann Whitney test. The logistic regression was used to analyze 
the relationship between the sociodemographic variables and the 
presence of pain. Also performed was an association by reason 
of the Maximum Like hood performed by associating the general 
questions of the “Nordic Musculoskeletal Questionnaire” (NMQ) 
(Question A: Over the last 12 months have you had any problems 
such as pain, tingling or numbness; B Question: In the last 12 
months, were you unable to perform normal daily activities; 
C question: in the last 12 months have you consulted a health 
professional because of this condition; D question: Over the past 
seven days have you had any problems) with the sociodemographic 
and occupational variables. A statistical significance level of 5% 
was considered for all tests.

The study was approved by the Committee on Ethics for 
Research on Human Beings of the College of Odontology of 
Araçatuba of the Paulista State University, and performed with the 
understanding and a written consent of every participant. 

Results

More than half of the dentists were women (63.8%) with 

Musculoskeletal Disorders among Dentists in Northwest area of the state of São Paulo, Brazil

Braz J Oral Sci. 15(3):190-195



192

average age of 30 years old (SD 6.16) and single (60.6%). The 
majority had practiced for an average of 21 years (SD 9.48). A 
large part of the sample worked in public and private services 
(55.3%), with a workload of more than 8 hours per day (36.2%), 
and 41.5% reported not taking breaks between appointments. An 
half of the study subjects had normal BMI (50.0%), however, 
there is a considerable part that was overweight (31.9%). Alarge 
number of the dentists (62.8%) had practiced physical activity 
for more than 1 year. 

The table 2 indicates that 90.4% of the sample reported pain 
in the last 12 months. More than a half of the dentists reported 
neck pain (58.5%), lower back (57.4%), upper back (55.3%), 
shoulders (46.8%), hands/wrist (44.7%).

Table 1 – Sociodemographic and Work Characteristics of 
Dentists. São Paulo, Brazil, in 2016.

Variables n %
Gender
Female 60 63.8
Male 34 36.2
Age 
20 to 24 years 12 12.8
25 to 29 years 34 36.1
30 to 34 years 22 23.4
35 to 39 years 14 15.0
40 to 53 years 9 9.7
No information 3 3.2
Marital status
Married 37 39.4
Single 57 60.6
BMI
Underweight 5 5.3
Normal weight 47 50.0
Overweight 30 31.9
Obesity 12 12.8
Workplace
Public 22 23.4
Private 52 55.3
Both 18 19.1
No information 2 2.1
Work hours / day
6 hours 12 12,8
8 hours 28 29.8
> 8 hours 34 36.2
No information 20 21.2
Breaks 
Yes 52 55.3
 No 39 41.5

Table 2 - Distribution of musculoskeletal symptoms (12 
months and 7 days), disability and demand for professional 
healthcare among dentists. São Paulo, Brazil, in 2016.

Body Area

Symptoms 
in the last 12 

months

Impediment 
to perform 

normal 
activities 

bacause of 
this problem 
over the past 

year

Consultation 
with a 

professional 
in the area of 

health because 
of this condition 
in the past 12 

months

Symptoms 
in the last 7 

days

n % n % n % n %
Neck 41.5 58.5 93.6 6.4 81.9 18.1 74.5 25.5
Shoulder 53.2 46.8 94.7 5.3 86.2 13.8 85.1 14.9
Upper Back 44.7 55.3 95.7 4.3 81.9 18.1 80.9 19.1
Elbow 87.2 12.8 98.9 1.1 96.8 3.2 96.8 3.2
Wrist/hand 55.3 44.7 96.8 3.2 87.2 12.8 85.1 14.9
Lower back 42.6 57.4 89.4 10.6 78.7 21.3 80.9 19.1
Hip/haunch 87.2 12.8 97.9 2.1 96.8 3.2 94.7 5.3
Knee 71.3 28.7 94.7 5.3 90.4 9.6 87.2 12.8
Ankle/feet 81.9 18.1 93.6 6.4 94.7 5.3 94.7 5.3

The association test was performed by the Maximum 
Likelihood of the general questions of the “Nordic Musculoskeletal 
Questionnaire” (NMQ) and the sociodemographic and work 
related variables. A statistically significant association was only 
observed for the daily working hours, when it was presented as 
very prolonged, hence contributing to the onset of musculoskeletal 
pain, interfering in performing normal daily activities such as 
housework, work and leisure (p=0.015) (Table 3).

Table 3 - Association between general questions of the NMQ 
and daily work day among dentists. São Paulo, Brazil, in 2016.

NMQ

Daily work day

p-value
6 hours

8 hours
        8 hours

More than 

n % n % n %
GA        
 Yes 10 83.3 26 92.9 32 94.1 0.546**
 No 2 16.7 2 7.1 2 5.9  
GB        
 Yes 1 8.3 5 17.9 15 44.1 0.015**
 No 11 91.7 23 82.1 19 55.9  
GC        
 Yes 4 33.3 11 39.3 22 64.7 0.062
 No 8 66.7 17 60.7 12 35.3  
GD        
 Yes 7 58.3 18 64.3 20 58.8 0.891**
 No 5 41.7 10 35.7 14 41.2  
Total 12 100 28 100 34 100 -

**MaximumLikelihoodRatio

Musculoskeletal Disorders among Dentists in Northwest area of the state of São Paulo, Brazil

Braz J Oral Sci. 15(3):190-195



193 Musculoskeletal Disorders among Dentists in Northwest area of the state of São Paulo, Brazil

The comparison of the symptomatic and asymptomatic 
groups was performed by the non-parametric Mann-Whitney test 
and a statistical significance was observed regarding the presence 
of pain when the dentist finds himself in an uncomfortable working 
situation, such as working in a very tight location inappropriately 
furnished (p= 0.005) (Table 4). The situations listed in the 
“Work-related Activities that may Contribute to job-related pain 
and / or injury” questionnaire that showed greater significance in 
relation to the pain experience were: performing the same task 

repeatedly (p= 0.001); work fast for short periods (p= 0.026); 
have to handle or hold small objects (p= 0.006); intervals or 
insufficient breaks during the workday (p= 0.003), working in 
uncomfortable positions (p= 0.001); working in the same position 
for long periods (p=value 0.001); bending or twisting one`s back 
uncomfortably (p= 0.001); long working hours (p= 0.004) (Table 
4). Symptomatic professional has a greater awareness of the risk 
factors for the development of musculoskeletal symptoms.

Braz J Oral Sci. 15(3):190-195

Table 4 - Comparison between the presence of pain and the 15 job factors that can contribute to musculoskeletal symptoms featured 
in the “Work-related Activities that may contribute to job-related pain and / or injury”. São Paulo, Brazil, in 2016. 

Instrument regarding job factors that can contribute to musculoskeletal symptoms

Symptoms of pain
p-valueYes No

      (SD)       (SD)  
Perform the same task repeatedly. 5.0(±3.33) 1.11(±1.83) 0.001*
Work fast for short periods. 3.74(±3.27) 1.22(±1.92) 0.026
Have to handle or hold small objects. 3.51(±3.54) 0.78(±2.33) 0.006*
Intervals or insufficient breaks during the workday. 4.69(±3.38) 1.22(±2.73) 0.003*
Working in uncomfortable positions / very tight space. 6.47(±2.89) 2.44(±3.09) 0.001*
Working in the same position for long periods. 6.78(±2.71) 2.67(±3.32) 0.001*
Bending or twisting of the back uncomfortably. 6.66(±2.88) 2.67(±2.60) 0.001*
Working near or at their physical limit. 6.00(±2.93) 3.44(±4.28) 0.059
Reaching or working above head level or away from the body. 4.53(±3.56) 2.56(±3.68) 0.119
Working in the heat, cold, damporwet. 4.08(±3.26) 3.33(±4.44) 0.433
Continue working with any pain or injury. 6.81(±2.85) 5.67(±3.20) 0.275
Carry, liftor move materials or heavy equipment. 4.26(±3.50) 3.67(±3.97) 0.597
Workday 4.91(±3.30) 1.56(±2.19) 0.004*
Use tools (format, vibration). 3.04(±3,16) 2.44(±2.92) 0.627
Work without receiving training. 3.32(±3.59) 2.78(±3.23) 0.893
General 4.94(±2.23) 2.44(±2.24) 0.005*

*Mann Whitney test

In the proposed model, individuals with greater awareness 
of the risk factors were classified with serious problems, and 
presented a risk of pain in the lower back 13.40 times higher than 
the asymptomatic subjects (Table 5).

Table 5 - Multivariate Analysis of the relationship of the 
Regions Lower back and “Work-related activities that may 
contribute to job-related pain and / or injury” São Paulo, 2016. 

Instrument regarding job 
factors that can contribute to 
musculoskeletal symptoms

Symptoms of pain
p-valueYes No

      (SD)       (SD)  
Perform the same task repeatedly. 5.0(±3.33) 1.11(±1.83) 0.001*
Work fast for short periods. 3.74(±3.27) 1.22(±1.92) 0.026
Have to handle or hold small 
objects. 3.51(±3.54) 0.78(±2.33) 0.006*

Discussion

In this study, the majority of respondents were female 
(63.8%), but this condition was not a risk factor for the presence 
of pain. Dentistry has shown a gradual increase in female workers 
in recent years11,14-18. The correlation between gender and pain 
becomes more evident with each passing year, this factor must be 
the mechanical overload caused by double shifts to which women 
are subjected, thus establishing an association between the female 
gender and musculoskeletal disorders11,15,19. Thus the average age 
in these surveys showed professionals over 35 years of age5,9,15,16 
and in our study,  the average age was 30.68 years, this variable 
also did not appear as a risk factor or statistical association with 
reports of pain.

Musculoskeletal disorders can be prevented by adopting 
a healthier lifestyle such as: nutritional care, practice of sports, 
performing daily stretches and adoption of ergonomic principles20. 



Physical exercise on a regular basis causes circulatory and 
metabolic adaptations beneficial to musculoskeletal structures, 
helping to maintain the static and dynamic posture, thus reducing 
the risk of musculoskeletal injuries11,15,20. Although most have 
reported engaging in physical activity (62.8%) with frequency 
and the Body Mass Index (BMI) found was considered normal 
(BMI = 25.02), these factors did not help in the prevention of 
musculoskeletal disorders, a plausible reflection would be a late 
start to a healthier life style coupled with excessive workload and 
lack of breaks.

Musculoskeletal disorders have increasingly become a matter 
of concern, research and discussion worldwide. It is fundamental 
importance to the quality of the professional and personal life of the 
dentist, knowing its causes, manifestations and ways to prevent and 
treat these lesions9. In this study, the presence of musculoskeletal 
disorders was observed in 90.4% of the professionals, and this is 
a very high prevalence, and similar results were found in other 
studies14-16,19,21,22.

The regions most committed to musculoskeletal disorders 
were the neck, upper back, shoulders, wrists / hands and lower 
back, and similar findings were found in studies of dental 
professionals14-17,19-21. The dentist performs flexion and abduction 
of the shoulder to serve as a support base for the fine and precise 
movements performed with the hands, so the more overloaded 
regions by static muscular effort of these professionals are the 
neck, shoulder and lower back10,15,21. The pain is manifested in 
higher and lower grades in accordance with the daily demands of 
static overload that each professional undergoes15.

The lengthening of the working day ends up requesting more 
maintenance on the static posture of the body, causing muscle 
fatigue, thereby the professional ends up adopting compensatory 
postures, leading to the onset of muscle pain and decreased strength 
of the upper limbs9,15,16. This fact can be seen in the results of this 
study in which the painful manifestation presented a statistical 
significance with the work hours and insufficient interval / breaks 
during the labor activity.

The daily working hours of most dentists was over 8 hours, 
and the breaks was reported by just over half of the subjects. 
The workload can be considered a pre-determining factor for 
the development of musculoskeletal disorders, but does not act 
in isolation. Therefore, professionals who work ergonomically, 
perform pauses between calls, maintain a workload that does not 
exceed 8 hours / day are less likely to develop musculoskeletal 
disorders15,20,21. One must also be aware of the ergonomics afforded 
by the furnishings in the workplace, such as tables and chairs, 
in the case of dentists, whose design often does not meet the 
biotype of the users, since they are manufactured in a standardized 
manner, and working on a device to which their body cannot adapt 
comfortably and ergonomically can affect the performance of the 
professional at work23.

Among the surveyed correlations, situations of discomfort 
at work get highlighted in this and other studies14-16,21, presenting 
an intimate relation to the painful events. In the analysis of the 
situations considered uncomfortable, the ones most significant in 
relation to the pain experience were: performing the same task 

repeatedly; work fast for short periods; have to handle or hold 
small objects; working in uncomfortable positions; working in the 
same position for long periods; bending or twisting of the back 
uncomfortably. This can be explained by the overloading of the 
muscles of the upper body (including shoulder, neck, hands) that 
the dentist does when performing their work activities, coupled 
with the stress and excessive workload5,16.

In the proposed model, individuals classified with severe 
problems presented greater perception of risk factors for the 
development of musculoskeletal disorders. Thus, dentists with 
musculoskeletal disorders have 13:40 times greater risk of 
developing pain in the lower back than asymptomatic individuals. 
The lack of stability and alignment of the spine associated to work 
for an extended time in the same position can generate decreased 
muscle flexibility and joint mobility, leading to muscle fatigue15,24. 
Professionals who complain of pain first use some form of drug 
therapy to relieve this sensation, seeking professional help from a 
specialist only after the persistence of symptoms15,19,24,25.

The pain can cause limitations in performing daily 
professional activities in individuals with low back pain or other 
musculoskeletal disorders15. When performing the association of 
general questions of the “Nordic Musculoskeletal Questionnaire” 
(NMQ) with the sociodemographic and occupational variables, 
a statistical significance was observed only in the hours worked 
/ day, demonstrating that the daily working hours, when more 
than 8 hours, contributing to the onset of musculoskeletal 
disorders, interfering in performing normal daily activities such 
as housework, work and leisure. So the professionals who work 
long continuous hours in uncomfortable positions, with a high 
volume of calls, without holding breaks may present some kind 
of pain or discomfort15,16,21. The short breaks are as important as 
the regimented labor stretches or long breaks, since they allow the 
professional to conduct some postures to reduce muscle tension, 
without interrupting the pace of work during short breaks, like 
drinking water, going to the bathroom, or between servicing of 
patients. These short breaks bring a release of accumulated lactic 
acid by prolonged postures, improving tissue oxygenation26.

Performing rest breaks is not a vital need of the body, but 
the introduction of this practice in daily life can reduce mental 
and physical fatigue, especially for workers such as dentists who 
perform activities that require much of the nervous system, in 
mental work, where finger dexterity and the requirement of the 
sense organs is of utmost importance27.

The results of this study were a high prevalence of 
musculoskeletal disorders among dentists and the region of 
the upper limbs and lower back region were the most affected. 
The extension of daily working hours proved to be a factor that 
interferes with pain, disabling the professional to perform their 
daily activities. The perception of professionals in relation to risk 
for the onset of painful symptom factors was considered severe in 
symptomatic individuals. More research on the subject becomes 
interesting for the purpose of further analysis on the installation, 
demonstration and prevention of musculoskeletal disorders in 
dentists, including the identification of risk factors and their impact 
on labor activity.

194Musculoskeletal Disorders among Dentists in Northwest area of the state of São Paulo, Brazil

Braz J Oral Sci. 15(3):190-195



195

Acknowledgement

We appreciate the funding from the Fundação de Amparo a 
Pesquisa de São Paulo (Foundation for Support and Research of 
São Paulo) (FAPESP).

References
1. Hayes MJ, Smith DR, Taylor JA. Musculoskeletal Disorders in a 3 Year 

Longitudinal Cohort of Dental Hygiene Students. J Dent Hyg. 2014 
Feb;88(1): 36-41.

2. Graham C. Ergonomics in dentistry, Part 1. Dent Today. 2002 
Apr;21(4):98-103.

3. Yarid SD, Diniz DG, Orenha ES, Arcieri RM, Garbin AJI. [Application of er-
gonomics principles in dental care]. Interbio. 2009;3(2);11-7. Portuguese.

4. Garbin AJI, Garbin CAS, Diniz DG, Yarid SD. Dental students’ knowl-
edge of ergonomic postural requirements and their application during 
clinical care. Eur J Dent Educ. 2011 Feb;15(1):31-5. doi: 10.1111/j.1600-
0579.2010.00629.x.

5. Yi J, Hu X, Yan B, Zheng W, Li Y, Zhao Z. High and specialty-related 
musculoskeletal disorders afflict dental professionals even since 
early training years. J Appl Oral Sci. 2013 Jul-Aug;21(4):376-82. doi: 
10.1590/1678-775720130165.

6. Durgha K, Sakthi DR. Occupational hazards and its impact on quality of 
life of dentists. IOSR J Dent Med Sci. 2014;13(7):53-6.

7. Babaji P, Samadi F, Jaiswal JN, Bansal A. Occupational hazards among 
dentists: A review of literature. J Int Dent Med Res. 2011;4(2):87-93.

8. Hayes MJ, Cockrell D, Smith DR. A systematic review of musculoskel-
etal disorders among dental professionals. 2009 Aug;7(3):159-65. doi: 
10.1111/j.1601-5037.2009.00395.x.

9. Hayes MJ, Smith DR, Taylor JA. Musculoskeletal disorders and symptom 
severity among Australian dental hygienists. BMC Res Notes. 2013 Jul 
4;6:250. doi: 10.1186/1756-0500-6-250.

10. Hayes MJ, Smith DR, Taylor JA. Predictors of MSD among dental 
hygienists. Int J Dent Hyg. 2012 Nov;10(4):265-9. doi: 10.1111/j.1601-
5037.2011.00536.x.

11. Kotliarenko A, Michel-Crosato E, Biazevic MG, Crosato E, Silva PR. 
[Osteomuscular disorders and related factors in dental surgeons from 
the Central West region of Santa Catarina state]. Rev Odonto Cienc. 
2009;24(2):173-9. Portuguese.

12. Barros ENC, Alexandre NMC. Cross-cultural adaptation of the Nordic 
musculoskeletal questionnaire. IntNurs Rev. 2003 Jun;50(2):101-8.

13. Coluci MZO, Alexandre NMC. Cross-cultural adaptation of an instrument 
to measure work-related activities that may contribute to osteomuscular 
symptoms. Acta Paul Enferm. 2009;22(2):149-54.

14. Chismark A, Asher G, Stein M, Tavoc T, Curran A. Use os complementary 
and alternative medicine for Work-Related pain correlates with career 
satisfaction among dental hygienists. J Dent Hyg. 2011 Fall;85(4):273-84.

15. Barros SS, Ângelo RCO, Uchôa EPBL. Occupacional low back pain 
and sitting position. Rev Dor Sao Paulo. 2011 Oct-Dec;12(4):308-13.

16. Aljanakh M, Shaikh S, Siddiqui AA, Al-Mansour M, Hassan SS. Preva-
lence of musculoskeletal disorders among dentists in the Ha’il Region 
of Saudi Arabia. Ann Saudi Med. 2015 Nov-Dec;35(6):456-61. doi: 
10.5144/0256-4947.2015.456.

17. Prudhvi K, Murthy KR. Self-reported musculoskeletal pain among dentists 
in Visakhapatnam: a 12-month prevalence study. Indian J Dent Res. 2016 
Jul-Aug;27(4):348-352. doi: 10.4103/0970-9290.191880.

18. Reis P, Moro AR, Da Silva J, Paschoarelli L, Nunes Sobrinho F, Peres 
L. Anthropometric aspects of body seated in school. Work. 2012;41 
Suppl 1:907-14.

19. Batham C, Yasobant S. A risk assessment study on work-related muscu-
loskeletal disorders among dentists in Bhopal, India. Indian J Dent Res. 
2016 May-Jun;27(3):236-41. doi: 10.4103/0970-9290.186243.

20. Medeiros UV, Segatto GG. [Injuries for repetitive strain (RSI) and work 
related musculoskeletal disorders (WRMD) in dentists]. Rev Bras 
Odontol. 2012 Jan-Jun;69(1):49-54. Portuguese.

21. Souza IMA, Vasconcelos TB, Bastos VPD, Farias MSQ. [Evaluation 
of pain and injuries caused by work in dentists in Fortaleza / CE]. Rev 
Fisioter S Fun. 2012 Jul-Dec;1(2):35-41. Portuguese. 

22. Silva HPL, Jesus CS. [Musculoskeletal symptoms among dentists of the 
public service]. Rev AMRIGS. 2013 Jan-Mar;57(1):44-8. Portuguese.

23. Biswas R, Sachdev V, Jindal V, Ralhan S. Musculoskeletal disorders 
and ergonomic risk factors in dental pratice. Ind J Dent Sci. 2012 
Mar;4(1):70-4.

24. Alexandre PCB, Silva ICM, Souza LMG, Magalhães Câmara V, Palácios 
M, Meyer A. Musculoskeletal disorders among brazilian dentists. Arch Env 
Occup Health. 2011;66(4):231-5. doi: 10.1080/19338244.2011.564571.

25. Wang SY, Liu LC, Lu MC, Koo M. Comparisons of musculoskeletal disor-
ders among ten different medical professions in Taiwan: a nationwide, 
population-based study. PLoS One. 2015 Apr 10;10(4):e0123750. doi: 
10.1371/journal.pone.0123750. 

26.  Alexopoulos E, Stathi IC, Charizani F. Prevalence of musculoskeletal 
disorders in dentists. BMC Musculosk Disord. 2004 Jun;5:16. 8p. Doi: 
10.1186/1471-2474-5-16.

27.  Regis Filho GI, Michels G, Sell I. [Work related musculoskeletal disorders 
in dentists]. Rev Bras Epidemiol. 2006;9(3):346-59. Portuguese. 

Musculoskeletal Disorders among Dentists in Northwest area of the state of São Paulo, Brazil

Braz J Oral Sci. 15(3):190-195