Neck pain is a very common condition that affects nearly 50 percent of people over the age of 50 years at some point in their lives. With the increased use of computers and other stationary-designed workplaces, more and more younger persons are faced with this problem.
There are many structures in the neck that can cause pain. There are also multiple sites, when problematic, that can cause referred pain to the neck.
It is important to note the following: Whether pain is felt outside the neck; whether pain is felt in the shoulders, whether pain is felt down the arms, or whether pain is felt in the hands.
Signs to Seek Medical Attention for Neck Pain
Signs to seek medical attention as soon as possible include the following:
- Tingling of the upper extremities,
- Severe headaches,
- Visual changes,
- New neck pain lasting more than three weeks,
- Persistent neck pain.
The Anatomy of the Neck
The anatomy of the neck is made up of the cervical spine which, in turn, is composed of seven vertebrae (bones) which are joined by intervertebral discs. These discs are made up of a gel-like material that absorbs increased pressure. During the fourth decade of life (40’s), progressive degeneration of these discs occurs. The end result is a decreased ability of the discs to absorb shock and pressure.
Two Common Causes of Neck Pain
Two common causes of new or persistent neck pain are bulging discs and bone spurs.
As the disc loses some of its shock absorbing ability, it grows; and at times will bulge on the structures surrounding it.
It is also common for the vertebrae themselves, which are made of bone, to grow additions called bony spurs. The spurs may grow in such a way as to compress nerves in the neck.
Bulging Discs and Bone Spurs May Cause Neck Pain to be Referred
Both May Cause Neck Pain to Be Referred
People with either condition may experience pain that can be referred to any level of the back of the neck.
Muscle Spasms may Cause Neck Pain
Also, spasms of any of the many muscles of the neck are common causes of neck pain.
Try to Date When Your Neck Pain Began
It is helpful to date when the neck pain began. Once a specific activity can be linked to neck pain, treatment is easier. Most people with neck pain have no objective findings on physical exam. The history of the neck pain is an important tool for you and your health care provider to use to diagnose the cause of each pain.
Bending your head forward can cause Neck Pain / Spasm
Prolonged sitting with the neck flexed (bent forward) in one position, such as work on computers, is a common occupational cause of neck pain. A sustained position (without moving regularly) can cause spasm of the neck muscles and resulting pain.
Prolonged sitting with the neck bent forward (for example, on social medial, looking down at your phone) increases your risk for twisting injuries which may not hurt for 24 – 48 hours after the incident.
Bending your head back can cause Neck Pain
Prolonged neck extension (bent backward, looking up) is another common occupational situation that can give rise to neck pain in people doing overhead work.
The physical exam of the neck demonstrates that most people can easily place their chin on their chest, touch both shoulders with the chin and bend sideways to touch ear to shoulder on both sides.
Normally, the neck can be extended so a person is looking up at the sky. Sometimes, slight neck extension causes pain and this could be caused by disc degeneration, which is common.
Studies show that degenerative changes in the spine of the neck (cervical spine) in people without complaints are evident in over 90 percent of people over 50 years old.
Treatment for Neck Pain
Treatment of the neck differs if the neck needs to be immobilized with a collar. If this is you, you most likely will know who you are.
If your neck hurts, the first treatment is:
- aspirin (as long as you are not pregnant) or Tylenol-related products;
- and — believe it or not — performing as much of your daily activities as possible.
Muscle Relaxants May Be Prescribed
If neck pain lasts for more than three to four days, a course of muscle relaxants prescribed by your physician may be helpful.
People may seek manipulation therapy for neck pain. Be aware that the value of this type of treatment is uncertain.
Workplace Design is Critical to Minimize Neck Pain
One of the most important treatments is one of the least recognized. It is observation of your surroundings to determine what may be causing the pain. Workplace design and body motion are critical elements that can worsen pre-existing conditions or create / prevent new ones.
Workplace Design can minimize Ergonomic Risk Factors
The study titled, “Physicial Risk Factors for Neck Pain” concluded that there is a positive relationship between neck pain and the duration of sitting and twisting or bending of the trunk.
“It was concluded that there is some evidence for a positive relationship between neck pain and the following work-related risk factors:
- Neck flexiom,
- arm force,
- arm posture,
- duration of sitting,
- twisting or bending of the trunk,
- hand-arm vibration,
- workplace design.”
If you feel you may need to see a doctor, check out these links:
The American Academy of Orthopaedic Surgeons: https://orthoinfo.aaos.org/en/diseases–conditions/neck-pain/
References with Quotes:
1. Physical Risk Factors for Neck Pain
“Ergonomic risk factors for different types neck and shoulder disorders, such as: —
– Cervical spondylosis;
– cervical syndrome a/k/a cervical disc disease;
– thoracic outlet syndrome;
– shoulder joint osteoarhorosis;
– rotator cuff tendinitis;
– tension neck syndrome a/k/a “tendomyotic pressure pains in shoulders and neck” — can be minimized.Scandinavian Journal of Work and Environmental Health, 2000; 26(1):7-19, “Physical Risk Factors for Neck Pain,” by Geertje A.M. Ariens, Msc; Willem van Mechelen, PhD.; Paulien M. Bongers, PhD; Lex M. Bouter, PhD; and Gerrit van der wal, PhD.
2. Risk Factors for Musculoskeletal Disorders Among Newspaper Employees
“A total of 973 workers completed the survey. The one-year period prevalence rate for any musculoskeletal disorder of the upper extremities was 41 percent. Neck symptoms (26 percent) were the most frequently reported, followed by hand or wrist (22 percent), shoulder (17 percent), and elbow (10 percent) symptoms.”Scandinavian Journal of Work and Environmental Health, 1994; 20:417-26, “Job Task and Psychosocial Risk Factors for Work-Related Musculoskeletal Disorders Among Newspaper Employees,” written by Bruce Bernard, M.D.; Steven Sauter, PhD; Lawrence Fine, M.D.; Martin Petersen, PhD, and Thomas Hales, M.D.
3. Ergonomics Method for Prevention of the Musculoskeletal Discomforts Among Female Industrial Workers:
“Five main factors were associated with musculoskeletal discomforts:
1) Lack of worker selection and lack of appropriate training to prevent occupational hazards or work-related diseases;
2) Poor ergonomic design of the workplace and tasks, including organization;
3) Poor working posture;
4) Lack of task variation;
5) Insufficient rest breaks.”Journal of Human Ergo., 1993: 22:95-113, “Ergonomics Method for Prevention of the Musculoskeletal Discomforts Among Female Industrial Workers: Physical Characteristics and Work Facts,” written by P. Chavalitsakulchas and H. Shahnavaz, Center for Ergonomics of Developing Countries, Luled University, Sweeden.
4. Workplace Ergonomic Factors and the Development of Musculoskeletal Disorders of the Neck and Upper Limbs
“The rise in frequency of these (musculoskeletal) disorders is believed to be associated with the advance of automation and specialization in work (National Occupational Health and Safety Commission, 1988). Much faster work rates and the redesign of jobs often require that a production worker or data entry clerk do a single task or a very limited number of tasks repeatedly, commonly tens of thousands of times per day. Although new technologies have generally reduced the workload and fewer jobs entail heavy lifting, the repetitiveness of today’s ‘light work’ concentrates the work load on fewer, smaller muscle groups.”American Journal of Industrial Medicine. 1991; 19:87-107, “Workplace Ergonomic Factors and the Development of Musculoskeletal Disorders of the Neck and Upper Limbs: A Meta-analysis,” written by Susan Stock, M.D.:
5. Prevalence Rates and Odds Ratios of Shoulder-Neck Diseases in Different Occupational Groups
“Cervical Spondylosis – degenerative arthritis (osteoarthritis) of the cervical vertebra and related tissues. If severe, it may cause pressure on nerve roots with subsequent pain or paraesthesia (numbness and tingling) in the arms.
Cervical Syndrome (cervical disc disease)
“Cervical Syndrome (cervical disc disease) . . .for data entry operators the diagnostic criteria was; a) neck pain radiating to one or both arms; and b) numbness in the hands in addition to: c) limitation of neck movement and radiating pain provoked by test movements. Pain in the neck radiating to the arm with a segmental distribution was our concept of Cervical Syndrome.British Journal of Industrial Medicine, 1987; 44:602-610, “Prevalence Rates and Odds Ratios of Shoulder-Neck Diseases in Different Occupational Groups,” by M. Hagberg, National Board of Occupational Safety and Health, Medical Division, Sweden; and D. H. Wegman, Division of Environmental and Occupational Health Sciences, University of California, Los Angeles, U.S.A
Thoracic Outlet Syndrome
“Thoracic outlet syndrome – a symptom complex caused by conditions in which nerves or vessels are compressed in the neck or under the axilla (underarm). Anatomically, the cause is compression by structures, such as the first rib pressing against the clavicle (collar bone).”Tabers Medical Dictionary
Shoulder Joint Osteoarthrosis
“Shoulder Joint Osteoarthrosis – our concept of shoulder joint osteoarthosis is that of a reduction in the articular cartilage height (cushions between the bones) and sclerosis (degeneration) in the structures of the glenohumeral joint (shoulder joint).British Journal of Industrial Medicine, 1987; 44:602-610, “Prevalence Rates and Odds Ratios of Shoulder-Neck Diseases in Different Occupational Groups,” by M. Hagberg, National Board of Occupational Safety and Health, Medical Division, Sweden; and D. H. Wegman, Division of Environmental and Occupational Health Sciences, University of California, Los Angeles, U.S.A
Rotator Cuff Tendinitis
“Rotator Cuff Tendinitis – Shipyard welders, plate workers, and male office workers had the following the criteria for this condition: localized shoulder pain and tenderness of the humeral head (top of the arm bone).
Tension Neck Syndrome
“Tension Neck Syndrome- A constant feeling of one or more subjective symptom.
“For example neck pain or headache in addition to signs of at least two tender spots or palpable hardening (feeling hard bumps in your neck muscles), or both, plus muscle tightness in neck movements — were the diagnostic criteria of Tension Neck Syndrome for the Finnish studies of slaughterhouse workers, data entry operators, assembly line packers, shop assistants, and female office workers.British Journal of Industrial Medicine, 1987; 44:602-610, “Prevalence Rates and Odds Ratios of Shoulder-Neck Diseases in Different Occupational Groups,” by M. Hagberg, National Board of Occupational Safety and Health, Medical Division, Sweden; and D. H. Wegman, Division of Environmental and Occupational Health Sciences, University of California, Los Angeles, U.S.A
Tension Neck Syndrome a/k/a tendomyotic pressure pains
“For the Swiss, data entry operators, ‘conversational terminal operators,’ typists, and office workers, the medical finding listed as ‘tendomyotic pressure pains in shoulders and neck’ was regarded as Tension Neck Syndrome.”
Tension Neck Syndrome is most common shoulder-neck disease
“It should be noted that Tension Neck Syndrome had the highest rates of all shoulder-neck diseases studied and women tended to have higher rates of Tension Neck Syndrome than men.”British Journal of Industrial Medicine, 1987; 44:602-610, “Prevalence Rates and Odds Ratios of Shoulder-Neck Diseases in Different Occupational Groups,” by M. Hagberg, National Board of Occupational Safety and Health, Medical Division, Sweden; and D. H. Wegman, Division of Environmental and Occupational Health Sciences, University of California, Los Angeles, U.S.A