| Abstract|| |
Background: Of the occupational hazards experienced by dental professional worldwide, work-related musculoskeletal disorders (WRMSDs) are quite common. Research in the past has recognized that musculoskeletal disorders in dentistry contribute considerably to sick leave, reduced productivity, and dentist attrition. Considering the magnitude of these disorders, an attempt has been made to determine the prevalence and associated factors of various WRMSD.
Aim: The aim of this study was to investigate the prevalence of self-reported, work-related musculoskeletal problems regarding the perception of pain, over the preceding 12 months and also to identify associated factors which might influence pain among dentists.
Subjects and Methods: A self-administered questionnaire was personally handed over to a select sample of practicing dentists in Visakhapatnam, Andhra Pradesh. The survey was performed using the Nordic Musculoskeletal Questionnaire.
Results: This study revealed musculoskeletal pain with a frequency of 56% in the neck, 39% in the hand, 32% in the lower back, and 18% in the shoulder regions. Chi-square test showed a significant association between pain in the neck and gender, age, height, and weight (P < 0.05). Pain in lower back was associated with gender, body mass index (BMI), height, and experience (P < 0.05). Pain in the hand was only related to the experience of the dentist (P < 0.05).
Conclusion: Within the limits of the study, the prevalence of WRMSD among dentists in Visakhapatnam, especially involving the neck, hand, lower back, and shoulders, is high. Gender, age, height, and weight, BMI and experience were found to be related with musculoskeletal pain.
Keywords: Musculoskeletal disorders, musculoskeletal pain, work-related musculoskeletal disorders
|How to cite this article:|
Prudhvi K, Murthy K R. Self-reported musculoskeletal pain among dentists in Visakhapatnam: A 12-month prevalence study. Indian J Dent Res 2016;27:348-52
The practice of dentistry is a challenging task as it involves a high degree of visual and manipulative elements, psychomotor skills, manual dexterity, and ability to maintain static postures over a long period. The complexity of work-related skills renders dentists susceptible to various health related hazards, and among them, work-related musculoskeletal disorders (WRMSDs) are quite common. These involve disorders of muscles, nerves, tendons, and joints causing musculoskeletal injuries such as carpal tunnel syndrome, tendonitis, ulnar nerve neuropathy, etc.
|How to cite this URL:|
Prudhvi K, Murthy K R. Self-reported musculoskeletal pain among dentists in Visakhapatnam: A 12-month prevalence study. Indian J Dent Res [serial online] 2016 [cited 2020 Feb 27];27:348-52. Available from: http://www.ijdr.in/text.asp?2016/27/4/348/191880
The human body is designed to facilitate movement, and the ability of the dentist to maintain a neutral and balanced position with all the muscles relaxed poses no problem, but the attainment of static postures by dentists during work causing more than 50% of their muscles to contract results in pain, injury, or musculoskeletal disorders (MSDs). Studies have reported musculoskeletal pain among dentists as ranging from 60 to 78%.,, The prevalence of WRMSD was higher in dentists when compared to physicians and surgeons.
High prevalence of WRMSD results in lowered productivity due to missed work schedule, inability to perform daily activities, and may sometimes also lead to a career ending injury. In a study conducted among dentists in Queensland, one in ten dentists reported taking an annual mean leave of 11.5 days a year, due to MSDs.
A variety of factors have been attributed to WRMSD in dentists which include postural habits such as forced static postures to obtain good vision, improper seating, forced wrist postures during scaling, and demographic variables such as duration of work hours, number of years in practice, gender, obesity, and height.
Considering the prevalence and multitude of factors influencing WRMSD, preventive strategies which involve proper ergonomic positions and regular exercises, combined with professional intervention, especially in those who are at increased risk, are the need of the hour.
Aims and objectives
The aim of this study was to investigate the prevalence of self-reported work-related musculoskeletal problems regarding perception of pain, over the preceding 12 months, and to identify factors such as sex, age, body mass index (BMI), height, exercise, educational qualification, experience and influence of WRMSD on ability to work, among a select sample of dentists in Visakhapatnam, Andhra Pradesh.
| Subjects and Methods|| |
A self-administered previously validated Nordic Musculoskeletal Questionnaire (Kuorinka et al. 1987) including various parameters related to WRMSD and an information sheet was given to 120 practicing dentists in and around Visakhapatnam, Andhra Pradesh, India. This analytical cross-sectional study was conducted from February to April 2015. Worldwide general prevalence of musculoskeletal pain among dentists as described by the previous studies was found to be over 50%., Therefore, a sample size of 97 would be sufficient to determine whether a similar prevalence occurred in target population as determined using 50% of proportion for sample calculation. Dentists with systemic diseases such as uncontrolled diabetes, which may influence the musculoskeletal system and with MSDs unrelated to dental practice were excluded from the study. To avoid lower response rate as associated with this type of surveys, it was decided to personally hand over the survey forms and then collect them after 1 week. Participants were assured of the confidentiality of information obtained from them. Additional information which comprised of fill in the blank or multiple choice questions was requested on age, gender, number of years in practice, and field of dental practice. Influence of WRMSD on the ability to work was collated by employing a scale of zero to ten, where zero-three is considered as mild, four-seven is considered as moderate, and eight-ten is considered as severe.
Data were entered into a spreadsheet program before being analyzed using the Statistical Package for Social Sciences (Version 21.0, IBM SPSS, Armonk, Newyork, USA). Basic statistics were calculated including prevalence rates. Differences in WRMSD prevalence were investigated using the Chi-square test for categorical variables. P values below 0.05 were considered statistically significant throughout.
| Results|| |
Forms were collected from all 120 practitioners, but 20 were excluded as they failed to answer all the questions asked. [Table 1] represents the profile of the respondents: There were 70 male and 30 female respondents. The average age of the respondents was 34.1 years standard deviation (SD 7), with a female average age of 30.9 years (SD 6.5) and the male average being 35.5 years (SD 6.8). In the study population, 55% were specialists and 45% were general practitioners. When compared to men, women had lesser height and weight, with an average of 161 cm, 59 kg, and a BMI of 22 in females and 170 cm, 73 kg, and a BMI of 25 in males, respectively. Work experience was also found to be less in females when compared to males with an average of 4.9 years and 8.3 years, respectively. With regard to the musculoskeletal pain, neck region is the most frequently affected (56%), followed by pain in the hand region (39%), lower back (32%), and shoulder (18%) [Table 2]. Neck and lower back pain were more prevalent in males than females (P < 0.05) and also increased with increase in height (P < 0.05); the prevalence of neck pain also increased with an increase in age and weight of the individual (P < 0.05) [Table 3] and [Table 4]. Pain in the hand and lower back were found to be less in junior practitioners (<10 years in practice) and in senior practitioners (>20 years in practice) (P < 0.05); pain in the lower back showed a positive correlation with BMI (P < 0.05) [Table 4] and [Table 5]. No significant correlation was found between other factors (age, BMI, height, exercise, educational qualification, and experience) and pain in various anatomical locations. The majority of dentists rated that WRMSD had mild to moderate effect on their ability to work [Table 6].
|Table 1: Mean age, experience, body mass index, height, and weight by gender of the dentists (mean±standard devaition) |
Click here to view
|Table 2: The prevalence of self-reported musculoskeletal pain in various anatomical locations among dentists at Vishakapatnam |
Click here to view
|Table 3: Association between neck pain and sociodemographic profile using Chi-square test |
Click here to view
|Table 4: Association between lower back pain and sociodemographic profile using Chi-square test |
Click here to view
|Table 5: Association between hand pain and sociodemographic profile using Chi-square test |
Click here to view
| Discussion|| |
Dental professionals adopt various ergonomic positions often requiring static postures during an average work day, which translates to a high risk for WRMSD. Various studies have reported the prevalence of MSD in the Indian population ranging from 15% and 18%, respectively., A postal survey conducted among general population in Sweden reported 15-20% of the prevalence of pain which was most common in the neck, shoulders, arms, and lower back. The reported prevalence of pain in the neck (56%), hand (39%), and lower back (32%) in this study is much higher than those reported for the general population and must be seen as being clinically significant and alarming. Similar findings among dentists have been reported in studies conducted around the world which include the prevalence of neck pain to be 57% (Leggat and Smith 2006) and 56% (Szymanska 2002), pain in the hand 34% (Leggat and Smith 2007), and lower back pain 36% (AlWazzan et al. 2001), and 39% (Oberg and Oberg in 1993).
The etiology of MSD in dental practice can be attributed to the dentist's posture which includes bending and twisting of the neck and back, abduction of the arm, and associated precise and repetitive movements of the arms. All these lead to considerable loads on the muscles of the neck, back, and arms. In this study, neck and lower back pain were more prevalent in males when compared to females, which is contrary to the previous studies which reported a higher prevalence of MSD among females., This could be due to disproportionate sample size between males and females (70 vs. 30) or could be due to more work years spent in practice by males (mean of 8.3) when compared to females (4.9). In this study, there was a significant increase in the prevalence of lower back pain with an increase in BMI, which is consistent with results obtained from the meta-analysis by Shiri et al. which showed a strong association between obese individuals and lower back pain. This could be explained by the increase in the mechanical load on the spine in obese individuals due to a higher compressive force or increased shear on the lumbar spine structures during various activities. Increased production of cytokines and acute-phase reactants in obese individuals lead to activation of proinflammatory pathways, which in turn may lead to pain. In obese individuals, dyslipidemia plays a major role in the development of atherosclerosis. Atherosclerosis could cause malnutrition of the disc cells which may predispose to disc degeneration. People with severe disc degeneration are more likely to have low back pain.
There was a significant association of neck pain with an increase in age in this study. While there are studies which suggest that the frequency of pain and stiffness remains stable with age, some researchers believe that musculoskeletal discomfort is maximum around the sixth decade of life. Shaik et al. found that there was a statistically significant association between age and the frequency of stiffness in the neck, hip/thigh (P = 0.031).
A significant association was found in this study with respect to hand and lower back pain and number of years in practice. Paradoxically, the lower prevalence of pain was reported by practitioners with <10 years in practice and in senior practitioners who have been in practice for more than 20 years. These results are similar to the previous studies where Thai dentists were found to have a lesser chance of experiencing musculoskeletal pain in the previous 12 months if they had more years of clinical experience. More experienced dentists probably learn to adjust their work posture to avoid such problems, or dentists with musculoskeletal problems may have left the profession. A Polish study found that those who did not report any symptoms had been practicing dentistry for the shortest length of time, i.e. <5 years.
Pain in the neck is significantly associated with height and weight of the dentists. A related study conducted by Morken et al. reported that weight was correlated with musculoskeletal symptoms in the head, shoulders, elbows, hands, and lower back among aluminum workers. Among the various risk factors associated with neck pain, height of the individual has a positive correlation where taller individuals are more susceptible for the neck injury. This can be due to the presence of association between height and disc herniation. Contrary to this, a study conducted among South African dentists by Botha et al. showed that for every centimeter decrease in height of the respondents, the risk of developing neck trouble increased by 3.8%.
Since WRMSD has a substantial impact on the well-being of the dentist, identifying the musculoskeletal needs during work, and adopting preventive measures should be recommended at the beginning of their careers.
The following preventive measures can be recommended to minimize the musculoskeletal pain among dentists.
- Maintenance of ideal body weight
- Proper assistance at work by practicing 4 hand dentistry
- Use of magnification
- Maintaining the low back curve during seating reduces lower back pain. This is achieved through using a wedge-shaped cushion which tilts the seat angle by 5-15°, using a saddle type operator stool, and distributing weight evenly by placing feet firmly on the floor
- Alternating between standing and sitting during work
- Positioning patients at the proper height. Patients should be placed in a semi-supine position for mandibular procedures and a supine position for maxillary procedures
- Chairside directional stretching performed in the reverse direction of awkward prolonged static postures.
One of the major limitations of this type of study is that respondents may not be accurately able to report their actual situation. This study included only practicing dentists and did not include those who have left the profession as a result of MSD. In addition, this study was conducted in a relatively limited geographic area.
| Conclusion|| |
Considering the higher prevalence of WRMSD, especially pertaining to the neck, hand, shoulder and lower back, preventive strategies that minimize the occurrence of these disorders, especially in those who are at increased risk should be practiced by the dentists.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Durgha K, Sakthi DR. Occupational hazards and its impact on quality of life of dentists. IOSR J Dent Med Sci 2014;13:53-6.
Shaik AR, Rao SB, Husain A, D′sa J. Work-related musculoskeletal disorders among dental surgeons: A pilot study. Contemp Clin Dent 2011;2:308-12.
Valachi B, Valachi K. Mechanisms leading to musculoskeletal disorders in dentistry. J Am Dent Assoc 2003;134:1344-50.
Shugars D, Miller D, Williams D, Fishburne C, Strickland D. Musculoskeletal pain among general dentists. Gen Dent 1987;35:272-6.
Rundcrantz BL, Johnsson B, Moritz U. Cervical pain and discomfort among dentists. Epidemiological, clinical and therapeutic aspects. Part 1. A survey of pain and discomfort. Swed Dent J 1990;14:71-80.
Chowanadisai S, Kukiattrakoon B, Yapong B, Kedjarune U, Leggat PA. Occupational health problems of dentists in southern Thailand. Int Dent J 2000;50:36-40.
Rambabu T, Suneetha K. Prevalence of work related musculoskeletal disorders among physicians, surgeons and dentists: A comparative study. Ann Med Health Sci Res 2014;4:578-82.
Leggat PA, Smith DR. Musculoskeletal disorders self-reported by dentists in Queensland, Australia. Aust Dent J 2006;51:324-7.
Diaz-Caballero AJ, Gómez-Palencia IP, Díaz-Cárdenas S. Ergonomic factors that cause the presence of pain muscle in students of dentistry. Med Oral Patol Oral Cir Bucal 2010 1;15:e906-11.
Cagnie B, Danneels L, Van Tiggelen D, De Loose V, Cambier D. Individual and work related risk factors for neck pain among office workers: A cross sectional study. Eur Spine J 2007;16:679-86.
Lindfors P, von Thiele U, Lundberg U. Work characteristics and upper extremity disorders in female dental health workers. J Occup Health 2006;48:192-7.
Botha PJ, Chikte U, Barrie R, Esterhuizen TM. Self-reported musculoskeletal pain among dentists in South Africa: A 12-month prevalence study. SADJ 2014;69:208-13.
Lalumandier JA, McPhee SD, Parrott CB, Vendemia M. Musculoskeletal pain: Prevalence, prevention, and differences among dental office personnel. Gen Dent 2001;49:160-6.
Rundcrantz BL, Johnsson B, Moritz U. Pain and discomfort in the musculoskeletal system among dentists. A prospective study. Swed Dent J 1991;15:219-28.
Pingle AS, Pabdid DD. A cross sectional study of rheumatic musculoskeletal disorders in an urban slum population. Indian J Community Med 2006;31:244-5.
Chopra A, Patil J, Billempelly V, Relwani J, Tandle HS; WHO-ILAR COPCORD Study. WHO International League of Associations from Rheumatology Community Oriented Program from Control of Rheumatic Diseases. Prevalence of rheumatic diseases in a rural population in western India: A WHO-ILAR COPCORD Study. J Assoc Physicians India 2001;49:240-6.
Brattberg G, Thorslund M, Wikman A. The prevalence of pain in a general population. The results of a postal survey in a county of Sweden. Pain 1989;37:215-22.
Polat Z, Baºkan S, Altun S, Tacir I. Musculoskeletal symptoms of dentists from south-east turkey. Biotechnol Biotechnol Equip 2007;7:86-90.
Miller AE, MacDougall JD, Tarnopolsky MA, Sale DG. Gender differences in strength and muscle fiber characteristics. Eur J Appl Physiol Occup Physiol 1993;66:254-62.
Alghadir A, Zafar H, Iqbal ZA. Work-related musculoskeletal disorders among dental professionals in Saudi Arabia. J Phys Ther Sci 2015;27:1107-12.
Shiri R, Karppinen J, Leino-Arjas P, Solovieva S, Viikari-Juntura E. The association between obesity and low back pain: A meta-analysis. Am J Epidemiol 2010;171:135-54.
Miranda H, Viikari-Juntura E, Punnett L, Riihimäki H. Occupational loading, health behavior and sleep disturbance as predictors of low-back pain. Scand J Work Environ Health 2008;34:411-9.
Howard BV, Ruotolo G, Robbins DC. Obesity and dyslipidemia. Endocrinol Metab Clin North Am 2003;32:855-67.
Lehto TU, Helenius HY, Alaranta HT. Musculoskeletal symptoms of dentists assessed by a multidisciplinary approach. Community Dent Oral Epidemiol 1991;19:38-44.
Ratzon NZ, Yaros T, Mizlik A, Kanner T. Musculoskeletal symptoms among dentists in relation to work posture. Work 2000;15:153-8.
Hayes M, Cockrell D, Smith DR. A systematic review of musculoskeletal disorders among dental professionals. Int J Dent Hyg 2009;7:159-65.
Szymanska J. Disorders of the musculoskeletal system among dentists from the aspect of ergonomics and prophylaxis. Ann Agric Environ Med 2002;9:169-73.
Morken T, Moen B, Riise T, Bergum O, Bua L, Hauge SH, et al.
Prevalence of musculoskeletal symptoms among aluminium workers. Occup Med (Lond) 2000;50:414-21.
Bartleson JD Jr., Gordon Deen H Jr., editors. Introduction. In: Spine Disorders: Medical and Surgical Management. 1 st
ed. New York: Cambridge University Press; 2009. P. 1-32.
Elfering A, Mannion AF. Epidemiology and risk factors of spinal disorders. In: Boos N, Aebi M, editors. Spinal Disorders: Fundamentals of Diagnosis and Treatment. 1 st
ed. Germany: Springer Science & Business Media; 2008. p. 153-73.
Valachi B, Valachi K. Preventing musculoskeletal disorders in clinical dentistry: Strategies to address the mechanisms leading to musculoskeletal disorders. J Am Dent Assoc 2003;134:1604-12.
Dr. Koyyalamudi Prudhvi
Department of Periodontics, GITAM Dental College and Hospital, Visakhapatnam, Andhra Pradesh
Source of Support: None, Conflict of Interest: None
[Table 1], [Table 2], [Table 3], [Table 4], [Table 5], [Table 6]