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Ergonomics in Dentistry–Designing Your Work
*Author for correspondence
This article was originally published by Informatics Publishing and was migrated to Scientific Scholar after the change of Publisher.
Abstract
In recent years, there is a reported increase in the number of people suffering from work related musculoskeletal disorders; though all the people related to medical profession are included, there has been an increase incidence in dentists, dental hygienists, dental assistants. Maintaining one’s own health is important for overall performance and understanding the principles of ergonomics helps to achieve this goal. Ergonomics is the science of designing jobs, equipments and work-places to fit workers. Proper ergonomic design is necessary to prevent work related musculoskeletal disorders and the conditions which might lead to it, thereby increasing the performance of the dentist.
Keywords
Dentistry
Ergonomics
Musculoskeletal Disorders
Work Practices
1. Introduction
In Greek, “ergo” means work and “nomos” means natural laws or systems. Ergonomics is an applied science concerned with designing products which are comfortable and provide safety (ADA). Ergonomics modifies wok to meet the needs of people, rather than forcing people to accommodate the work. The international ergonomic association defines ergonomics as, the scientific disciplines concerned with the understanding of interactions among humans and other elements of a system, and the profession that applies theory, principles, data and methods to design in order to optimize human wellbeing and overall system performance. (International Ergonomic Association http://www.iea.cc)
The term ergonomics was coined by British psychologist Hywelmurrel, at the 1949 meeting at the United Kingdom admiralty, which later led to the foundation of the ergonomic society.
2. Implications in Dentistry
Though the musculoskeletal disorders are common among medical professionals, it is more common among dentists and dental hygienists, because of prevalence of different postures in dental procedures, repeated work, prolonged stature, unsupported sitting and graping smaller and thin instruments for longer time (Alexopoulus, Staathi, & Charizani, 2004; Finsen, Christensen, & Bakke, 1998). Limited access during dental procedures is also known to be the one of the reasons for causing musculoskeletal disorders.
3. Goals of Ergonomics Include
Prevention of work related musculoskeletal disorders and conditions which might lead to it
Increasing safety and productivity
Enhanced performance by eliminating unnecessary effort
Improving the standard of care to the patient
4. Musculoskeletal Disorders in Dentistry
Literature suggests that the incidence of the musculoskeletal pain in dentists, dental hygienist & dental students range from 64 to 93% (Gross & Fuchs, 1990). The most common work related musculoskeletal disorders are low back pain, tendonitis, epicondylitis, bursitis, carpal tunnel syndrome. Cumulative Trauma Disorders (CTD’S) are health disorders arising from repeated biomechanical stress to the hands, wrist, elbows, shoulders, neck and back. Most common CTD’S are carpal tunnel syndrome and low back pain (Shugars, Miller, Williams, Fishburne & Srickland, 1987). Carpal tunnel syndrome has been associated with repetitive and forceful work (Liss, Jesin, Kusiak, & White, 1995).
Work related musculoskeletal disorders affect soft tissues of the body in areas like the neck, back, shoulders, elbow, hands, wrist, and fingers. Symptoms of work related musculoskeletal disorders may progress in stages from mild to severe.
Early Stage: aching and tiredness of the affected limb occur during the work shift but disappears at night and during day off work. No reduction and tiredness in work performance.
Intermediate Stage: aching and tiredness occurs early in the work shift & persists at night. Reduced capacity for repetitive work.
Late Stage: aching, fatigue and weakness persists at rest. Inability to sleep.
5. Application of Ergonomics in Dentistry
5.1 Risk Factors in Dentistry Leading to Work related Musculoskeletal Disorders
Fixed body position during work
Repetition of movements during work
Forced concentration on small parts of body
Continuous work that does not allow sufficient recovery between movements
Grasping smaller and thin instruments for longer periods
Prolonged use of vibrating hand tools
Suboptimal lighting
Mental stress
Prolonged static position (Yamalik, 2007)
5.2 Guidelines to Prevent Work Related Musculoskeletal Disorders
5.2.1 Work Station
5.2.1.1 Workstation Layout
The Ergonomic Standard mandated by the Occupational Safety and Health Administration (OSHA) recommended that the most efficient and effective way to remedy “ergonomic hazards” causing musculoskeletal strain should be through engineering improvements in the workstation. (Liss, Jesin, Kusiak, & White, 1995; Gopikrishna, 2006).
Guidelines to be followed are:
Instruments, medications, materials should be placed so that they are easily accessible to the dentists
Easily adjustable chairs should be placed
The temperature of the room should be checked
Audio analgesia can be incorporated in the workplace
The distance between the dental chairs should be sufficient enough so that the operators can move easily (Sanders & Michalak-Turcotte, 2004).
Hoses should bepositioned away from the body
5.2.1.2 Operator Position
The main goal is to provide good access, support and mobility
The operator stool should have a broad base pan
Adjustable seat should be selected
Seat should be adjusted so that the operator knee is slightly below the hip level and thighs are 100-110 degree to the trunk with feet resting flat on the floor
Back rest height should be adjusted. The operator should sit back to take maximum lumbar support
Foot rests should be adjusted
Good hydraulic controls should be provided
The distance between the working field and eye should be 35–40 cm
The instrument tray should be positioned below the treatment point so that instrument can be picked only by moving the forearm
Patient should be positioned so that the operator achieves neutral posture
Elbow forearm angle is close to 90 degree
Bending body forward to 10 degree at hip joint (Sanders & Michalak-Turcotte, 2004)
5.2.1.3 Patient Position
Supine position of patient is usually the effective way by which operator achieves neutral posture
Stability should be looked for
Drop down arm rests
Patient should be positioned in such a way that the patient’s mouth should be only slightly above the dentists elbow level
There should be supplemental wrist/forearm support for operator
Articulating head rests should be provided
Hands free operation
Swivel feature–allows chair to rotate in the operatory
Large knobs should be eliminated as they, disturb the position of operator by hitting the dentalchair (Osuna, RDH, BS, & FAADH, 2006).
5.2.1.4 Rheostat Positioning
Rheostat should be positioned so that the operator knee is about 90–100 degree angle (Alexopoulus, Staathi, & Charizani, 2004) (Figure 1).
- Rheostat position.
5.2.1.5 Light Illumination
Main aim is to provide shadow free ,even operating field
Light source placed directly above or slightly behind the patients head to provide ood illumination
The intensity ratio between the dental operatory light and room lighting should be no greater than 3–4.6
5.2.1.6 Magnification
It has been noted that the dentist posture is ergonomically better while using magnification lenses compared to their posture while using regular safety glasses
Use of normal safety glasses necessitates 20 degree forward head bending which leads to flattening of low back curve; in contrast, use of magnification scope utilizes zero degree forward head bending, hence better results are provided
Dentists should select the magnification that will support their position
Factors considered include; working distance, depth of field, declination angle, convergence angle, magnification factor, lighting needs
There are three basic magnification systems available:
Single lens Loupes
Galilean Loupes
Prismatic Loupes
‘Magnification Continum’ is the term given to the growing number of magnification users (Sunnell, & Rucker, 2004) (Initially through naked eye progressing to the operating microscope).
5.2.1.7 Operating Microscopes
The dental operating microscope is different from that of loupes in that it offers stereoscopic vision compared to loupes with its convergent vision
The operating microscope has multiple levels of magnification from low(2.1, 3.2x)to high levels (13-19x)
Shadow free lighting is provided
Other advantages include–improvement in precision of treatment, communication with patient (through live video), improved ergonomics, and increase ease of documentation
Other newest technologies in the field of magnification include heads up display that involves a camera that is placed over patient and projects image to a monitor.
Other newer technological advances like CEREC helps the dentists to design and create all ceramic inlays, inlays, crowns, veneers for all teeth in one visit, by utilising digital impression technique there by eliminating the need for time consuming procedures.
5.3 Instrumentation
5.3.1 Hand Instruments
Use Larger Diameter, balanced Instruments with hollow or resin handles: They increase tactile sensitivity and reduce clinician fatigue. Thin instruments are difficult to grasp and increase the chance of muscle cramping.
Instrument sharpness: An instrument with a sharp blade will be less fatiguing to the clinician and contribute to the efficacy of work. Dull instruments require more force to be exerted.
Handles should be textured to reduce slippage, but should not be contoured. Round, knurled handles are preferred.
Grip design: Grip span should be curved and comfortably fit the palm of the hand (4”-5”) (Osuna, RDH, BS, & FAADH, 2006).
5.3.2 Automatic Handpieces
Lightweight, balanced models (cordless preferred)
Sufficient power
Built-in light sources
Easy activation and maintenence
Introduction of rotary instrument also lead to improved speed, efficiency and productivity.
5.4 Work Practices/Methods
5.4.1 Four Handed Dentistry
Method of practicing dentistry ergonomically by combing the skills of dental assistant with other work practices.
The work area around the patient is divided into four zones of activity. Zones of activity are identified using the patient’s face compared to face of a clock. The four zones are: the operator’s zone, assistant’s zone, transfer zone, and static zone. (Finkbeiner, 2001)
The operator’s zone for a right-handed operator extends from 7 to 12 o’clock, the assistant’s zone from 2 to 4 o’clock, the instrument transfer zone from 4 to 7 o’clock, and the static zone from 12 to 2 o’clock.
5.5 Instrument Transfer and Exchange
5.5.1 Benefits
Standardized operating sequence
Reduces the amount of time in the dental chair for the patient
Increased productivity
Less fatigue and stress
5.5.2 Principles of Instrument Transfer
The assistant must understand the sequence of the treatment procedure and anticipate when an instrument transfer will be required
The transfer of instruments should be accomplished with a minimum of motion involving only the fingers, wrist, and elbow
Instruments are transferred in the position of use
An instrument is transferred so the dentist can grasp the instrument for its appropriate use
The instrument being transferred must be positioned in the dentist’s hand firmly
The assistant will transfer dental instruments and dental materials with his or her left hand (Banerjee, 2013).
5.6 The Expanded–function Dental Assistant
Expanded function refers to specific intraoral tasks that are completed as a procedure or part of a procedure by the clinical dental assistant that have been delegated by the dentist.
Increased productivity
Less stress on dentist
More patients seen
Increased job satisfaction
6. Quadrant Dentistry
Doctor time is maximized. Completing multiple restorations on one patient takes less time than doing the same number on multiple patients
It minimizes cost. There is less paid in non–productive employee wages, fewer disposable goods, and less impression material, etc., which leads to huge savings
It reduces office and doctor stress. Fewer patients equals less scheduling headaches, no–shows, and cancellations
It increases the quality of care. Managing interproximal contacts, balancing aberrant occlusal forces, fine tuning occlusion, and delivering equally aesthetic restorations can be more predictably delivered in quadrants rather than one tooth at a time
It increases revenue. Maximizing time, decreasing cost, less stress, and more dentistry significantly raises your bottom line
7. Scheduling
Schedule Rest Breaks Between Patients
Rotate Between Tasks
Schedule Enough Time for Each Patient
Switch Between Positions Throughout the Day
8. Training of Dental Personnel
The main goal of training dental personnel is to identify and avoid conditions which might lead to WMSD.
9. Stretches
Apart from different ways of practicing work, performing specific exercises for trunk, shoulder, hands, head and neck should be performed on regular basis to prevent these disorders (Nutalapati, Gaddipati, Chitta, Pinninti, & Boyapati, 2010).
10. Scope of Ergonomics
Advanced working techniques with magnification devices, visualization aids and dental equipment have all helped improve the ergonomics of working as a dental clinician (Hokwerda, 2008; Murphy, 1998). Awareness about the operating positions should be done to eliminate work related disorders. Four handed dentistry is ergonomically known to be the best way to reduce WMSD. Dentists’ knowledge and attitudes towards ergo-nomics should be improved and updated by educational programmes in order to increase awareness, reduce the incidence of occupational pathology and improve the quality of the dental health–care (Rundcrantz, 1991; Valachi & Valachi, 2003). Legal responsibility for protecting the health of dental personnel and patients should be stressed upon.
11. Conclusion
Though the reasons for work related musculoskeletal disorders are numerous among dentists, the main contributing factor is poor posture. Working ergonomically helps prevent work–related injuries. The clinician must optimize working environment to help eliminate awkward postures, physical wear and tear, and fatigue. By combining ergonomic magnification with postural strengthening, positioning techniques, working practices, chair side stretching, the multifactorial problem of work– related pain in dentistry can most effectively be addressed. Thus, successful application of ergonomics not only helps the dentists to improve their health, it also increases satisfaction as well as quality of work.
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