Chronic pain in old people affects individuals and families in different ways. Chronic pain is more common and severe among older people, who in addition to normal physical limitations that come with aging, end up dealing with the associated range of issues. Some of the effects occur at the individual level while others occur at the family level, with potential impacts on the community. The impacts also take on two major forms. They can be physical or psychological (Better Health Channel, 2011).
The physical effects of chronic pain on individuals come from the discomfort the pain causes, and the treatment and interventions required to manage the pain (Dewar, 2007). Pains like backaches, joint and bone pains limit motion. Depending on the severity, it may stop them from participating in simple chores such as household cleaning. It also makes it difficult for them to participate in demanding activities such as jogging, walking, or prolonged standing. Very severe pain may make it necessary for the person to have full time attention from someone else to help with simple tasks such as eating, going to the bathroom, and taking a shower. Some physical effects may arise from dependency on painkillers due to the associated side effects (Virir, 2009).
The psychological effects come from the realization that due to the chronic pain, someone needs to adjust his lifestyle in order to manage the pain. This sense of being limited results in stress especially because it may be necessary to rely on people for activities someone has always done for themselves such as doing the laundry. People who had very active lifestyles may suffer from severe depression especially if the onset of the pain is sudden. Generally, human beings do not adjust too well to sudden permanent changes especially if they lose some of the freedom they have enjoyed.
The families of old people with chronic pain also go through a number of impacts because of the presence of someone suffering from chronic pain (Kumar, 2007). In many cases, the family makes changes to its routine to accommodate the needs of the patient. They may find it necessary to create a private room for the person to better accommodate their needs. This means that one or several members of the family will lose their space. Depending on the level of dependency that the pain brings about, some members of the family may have to adjust their lifestyle permanently in order to be the primary caregivers.
The psychological effects that families suffer from depend on the severity of the pain in the sufferer. When the pain is light, then a family can go on without significant psychological effects. This is also the case if the patient has strong coping habits. On the other hand, the family can suffer from trauma if the patient is in a lot of pain, occasioned by severe limitations (National Health Priority Action Council, 2006). This constant exposure to the pain causes the family to feel sorry for the patient. It may lead to depression in adults and over-reaction in younger children when they come across people suffering from chronic pain in the future. If the therapies required require a lot of money to finance, then there is likelihood of additional stress on the providers of the family. In addition to providing palliative care, they will also bear the financial burden of taking care of the patient.
References
Better Health Channel. (2011). Pain Management – Adults. Web.
Dewar, A. (2007). Assessment and Management of Chronic pain in the Older Person Living in the Community. Australian Journal of Advanced Nursing , 24 (1).
Kumar, N. (2007). WHO Normative Guidelines on Pain Management: Report of a Delphi Study to Determine the Need for the Guidelines and to Identify the Number and topics of Guidelines that Should be Developed by WHO. Gevena: World health organization (WHO).
National Health Priority Action Council (2006). National Chronic Disease Strategy. Canberra: Australian Government Department of Health and Ageing.
Virir. (2009). Pain Assessment and Management in Residential Aged Care. Victoria: Vivir Healthcare Pty Ltd.
Chronic pain has an impact on all parts of a person’s life. Not only does the person suffer from the pain, but it can also cause tension, irritation, sleeping problems, social isolation, and low self-esteem. Chronic pain can be treated with various methods, ranging from over-the-counter drugs to surgery and acupuncture. Most patients suffering from chronic pain are diagnosed with mental disorders. This essay discusses the various antidepressants that can be used to alleviate chronic pain.
Antidepressant Drug Classes for Chronic Pain
Antidepressants have been explored for people with chronic pain in numerous different classes. The following drugs have been analyzed: Tricyclic antidepressants, selective serotonin reuptake inhibitors, reuptake inhibitors for serotonin and norepinephrine, reuptake inhibitors for norepinephrine and dopamine, reuptake inhibitors and receptor blockers, and monoamine oxidase inhibitors (Roughan et al., 2021). Tricyclic antidepressants are commonly prescribed by health care personnel to relieve chronic pain. Patients can lead comfortable lives since pain can be unbearable sometimes.
Tricyclic Antidepressants
Before developing SSRIs, tricyclic antidepressants were the standard treatment for depression. These medications are the most prevalent type of antidepressant used for chronic pain, even though they are being used less frequently for depression. Tricyclic antidepressants appear to be particularly successful in treating neuropathic back pain and have been utilized to ease various pain conditions. When tricyclic antidepressants, particularly amitriptyline, are used to alleviate chronic pain, they are usually administered at considerably lower levels than when used to treat depression, resulting in fewer adverse effects. Blurred vision, weight gain, and tiredness are all common adverse effects.
Selective Serotonin Reuptake Inhibitors
The most common utilized antidepressants are selective serotonin reuptake inhibitors. They ease mild to intense depressive signs, are moderately secure, and have rarer damaging results than other antidepressants. SSRIs are antidepressants that function by increasing serotonin amounts in the brain. It is a chemical messenger that sends notions between nerve compartments in the brain. They prevent serotonin from being reabsorbed into neurons. Nerve impulses increase serotonin’s availability, which enhances dispatch communication between neurons.
Norepinephrine and Dopamine Reuptake Inhibitors
Another type of antidepressant is an NDRI, with bupropion being the most common. According to scientists, low levels of the brain chemicals serotonin, dopamine, and norepinephrine are thought to have brought side effects, including sadness and anxiety. These substances are neurotransmitters, which means they transport signals between nerve cells. Nerve cells frequently reabsorb messages once they have carried them. Norepinephrine and dopamine reuptake inhibitors inhibit dopamine and norepinephrine from being reabsorbed at the spaces between nerve cells in the brain (Robillard et al., 2021). This means they can send more messages between nerve cells, and the two substances are more concentrated in nearby brain tissue.
Monoamine Oxidase Inhibitors
Monoamine oxidase inhibitors are a powerful class of antidepressants that stop the synthesis of serotonin, dopamine, and norepinephrine in the brain. This aids them in their task of controlling their emotions. This could result in high blood pressure and other complications. Overdosing on these medicines can also be incredibly harmful (Bekircan et al., 2022). MAO Inhibitors are older antidepressants with a poor side effect profile. They are not widely used to treat depression or other conditions.
Conclusion
Chronic pain is a subjective sensation rather than a medical diagnosis. Patients with chronic pain should be examined for anxiety and distress and treated for underlying medical issues. Major depression is typical psychiatric comorbidity of chronic pain, with severe effects and a high therapeutic response rate. Antidepressants are beneficial in treating many chronic pain syndromes, including neuropathic illnesses, and are an effective treatment for depression.
A 43-year-old man using crutches went to the hospital complaining of leg pain. His medical history includes a fall on his right hip seven years ago, after which the pain began, and the discovered 75% tear of cartilage surrounding the hip joint. Symptoms include cramps with changes in the skin color and flexions of the toes. One of the neurologists the patient contacted diagnosed complex regional pain syndrome (CRPS), also called reflex sympathetic dystrophy (RSD). The family doctor denies RSD and is confident that the pain is of psychosomatic origin and caused by depression and refers the patient for a psychiatric examination. The man denies depression, and although he admits to some periodic sadness, he is confident that he can cope with it. The solutions proposed to the patient included Neurontin, later stopping the first drug, and administration of Zoloft, followed by the addition of Wellbutrin and Ativan.
The first decision for the treatment was to prescribe Neurontin (gabapentin) 300 mg at bedtime with a gradual increase in dose. This decision is justified since the drug is a standard solution for neuropathic pain management in CRPS (Money, 2019). Studies have shown that it has an inhibitory effect on voltage-gated calcium channels (Binder, 2021). As a result, Neurontin was expected to help reduce the patient’s pain. At the same time, side effects of spaciness and dizziness were possible (Binder, 2021). Therefore, the foggy feeling reported by the man was expected, but the medicine did not give the necessary pain relief. Moreover, the patient gave a high rate of the level of pain, indicating that the drug has no effect.
The second decision to treat the patient was to discontinue Neurontin and prescribe Zoloft (sertraline). This drug belongs to selective serotonin reuptake inhibitors (SSRI), which are considered a new generation of antidepressants and can be applied to treat chronic pain (Onuțu et al., 2018). According to the evidence presented in various studies, as SSRI, Zoloft can affect serotonin levels and have an anti-inflammatory effect, affecting the patient’s pain (Onuțu et al., 2018). As a result, the expectations for this decision were a reduction in pain in a man. Moreover, side effects were also characteristic of this type of drug; for instance, they included anxiety, sexual dysfunction, and agitation (Onuțu et al., 2018). As the pain became more manageable, the subsequent decision was to correct and improve the current treatment.
Continuing treatment, the third decision was the addition of Wellbutrin (bupropion) and a short course of Ativan. The decrease in Zoloft was not considered, as the patient had improved pain management. The appointment of Wellbutrin is the evidence-based solution, as many studies prove a reduction in the side effect of SSRI-induced Erectile dysfunction (Yasin et al., 2019; Yee et al., 2018). Studies also support the justification for the short-term use of Ativan to reduce anxiety (Constable et al., 2022). These medicines can help the patient cope with side effects and control pain.
Thus, the patient’s treatment in the considered case focused on chronic pain management. The first decision to prescribe Neurontin failed, and the patient continued to feel severe pain. The second decision was the appointment of Zoloft, belonging to SSRIs, which are increasingly being considered for pain management. The medication showed a result in reducing pain but also caused some side effects. Therefore, the third decision, Wellbutrin and Ativan, aimed to minimize the side effects of continuing treatment with Zoloft.
Chronic lower back pain may be defined as a physiological difficulty most encountered in the back muscles of humans. As indicated by Guarino, (2010), this pain emerges from a sprain that mostly occurs within the lower back region. Chronic back pain is predominantly noticed in Australian adults and the adults are mostly affected by this condition. Investigations conducted by the Australian Bureau of Statistics indicate vital insights. From these investigations, it is notable that 15% of Australians suffer from this condition. According to most studies in Australia, the condition emanates from strain or injury incurred by the lower back muscles. These investigations also indicate that 24% of adults aged between 65 and 75 suffer from this condition (COHC, 2011). There are different factors noted to cause the development of this condition amongst the Australian elderly people (Briggs & Buchbinder, 2009). It is vital to examine some of these contributing factors. The objective of this discussion is to analyze the biological and socio-cultural factors influencing the occurrence of chronic lower back pain in Australian adults (AIHW, 2005).
Accordingly, several surveys have been conducted throughout Australia to examine the pattern of occurrence of this condition. The National Health Survey 2004-05 indicated that approximately one out of 10 individuals within Australia eencounter remarkable hindrances to activities. The basic reason was due to the occurrence of chronic lower back pain (Briggs & Buchbinder, 2009). These problems are predominantly cited amongst the ageing population in Australia.. Most health institutions and research organizations have indicated an increased incidence of this condition in Australia. The adult population of over 60 years has frequently been affected. These lifestyle diseases are increasingly widespread (Walker, Muller & Grant, 2004). The elderly, usually above 60 years old are the most affected population (Briggs & Buchbinder, 2009). The gradually increasing rates of occurrence of this condition might be attributed to many factors. Most sources indicate that the internal and external pressures notable of Australian lifestyle are a major contributing factors. This condition has remarkably affected the elderly persons in Australia for a considerable long period. Indicatively, people depend on their backs for several chores and during many occasions (COHC, 2011).
As prompted by the discussion plan, man’s back has an important role. The basic function if is to support the entire human upper body. The back also props up the cranium. All of these anatomical structures are evidently important and have great weight. This condition has become so common amongst the elderly population in Australia (Walker, Muller & Grant, 2003). It has severe consequences and there is need for this Australian population to understand this complication. Apart from this, they need to strive to prevent further increase in the number of incidences. It is vital to recognize the causative factors and appropriate preventive mechanisms. This should be done it time before this condition disables a significant size of the viable older persons. Notably, there are various factors that have been indicated to lead to the development of this condition within adults. Some of the factors to be analyzed include biological and socio-cultural factors. These have largely been noted to contribute to the development of this condition in Australia.
Chronic Back Pain in Adults
Critically, previous studies in Australia in the periods of 2004 and 2005 elicited very vital indications. From these investigations, it was evident that lower chronic backache affects about a greater percentage of adult individuals. According to most studies, approximately 11.4% of the Australian citizens within an age category of 30 and above years suffer from the condition (Willis, Reynolds & Keleher, 2009). In the self report in formation revealed by the National Aboriginal and Torres Strait Islander Health Survey, persistent backache was indicated to be increasingly common amongst the elderly population. This was relative to the pattern observed within the younger population. Observably, there are different kinds of lower back pain notable within the adult Australian population.
It is crucial to agree that non-specific backache remains the highly widespread type. This type of backache is normally categorized in this group due to the fact that the main origin of the ache usually remains unknown. As a result, this complication may not be particularly diagnosed. The degree of this pain also varies from very serious to serene (Briggs & Buchbinder, 2009). Sciatica forms the next category of the adult lower backache. Alternatively, this condition might also be referred to as the ache within the nerve root. In Australia, the sciatica transpires within every one amongst 20 incidences of the backaches. Observably, it is the outcome of a nerve that emanates from a chord under pressure or hurt. The main contributory element of the complication is associated with the disc prolapsed. It is notable that a remarkably severe leg ache relative to the backache might be an indication of the complication.
Conditions Determining Occurrence of Persistent Backache Complication amongst the Older Persons
Biological Conditions
Evidently (as observed in Australia), many biologic conditions cause lower back pains in adults. Genetic makeup predominates as the basic and initial determinant. Various research institutes in Australia have indicated that backaches might emanate from inherited susceptibility factors (Willis, Reynolds & Keleher, 2009). The susceptibility factors might be inherited by the children through the transfer of genes. There are several genetic complications that may lead to the development of the backache. Some of these observed in Australia include osteoporosis, osteomalacia as well as osteoarthritis. Notably, these conditions are observed to emanate as Australians grow into advanced ages. The destructive contraction in height of the disc remains as a predominant hereditary occurrence. It leads to back complications. Nonetheless, this occurrence is just one of the several channels in which hereditary factors manipulate the transpiration of backache.
Indicatively, an individual’s age remains as potential biological factor that leads to the development or occurrence of backache within the elderly persons. The effect of age on the orientation of the inter-vertebrae is notable in Australia. Advancement in age makes these bone’s disks to wither and contract. As these bones move on the surface of one another, rigidity is created. Consequently, a backache is developed. Increased age also leads to the contraction within the human spinal cord. The spinal cord might also be termed as the spinal stenosis (Wand, McAuley, Marston & De Souza, 2009). Biologists indicate that the effect causes pressure to occur upon the nerves of the spinal system as well as the cord. Consequently this effect results into pain. Gender refers to a third element that may lead to the development of backache amongst the adults in Australia. It is significant to comprehend diverse aspects of back pain with regard to the health of adult Australian population.
In Australia, elderly females have been noted to register several complaints concerning backaches relative to the males. This situation might be potentiated by the pronounced curve notable within the female’s downer back muscles. This curve exerts increased force on the female’s back. It is also notable that the occurrence of persistent backache in Australia might also be stimulated by the female’s weight of the bust. Generally, the females with larger bust sizes are highly affected by the back muscle tension. When the back is hurt, there is emancipation of severe pain and distress. Age has also been noted to cause this condition in Australia. Physical harm may include a variety such as shock on the back (Willis, Reynolds & Keleher, 2009). This might emerge from accidental harm. There are other body parts that are likely to transfer harm to the back. Such bodily harms may occur within the superior spinal bone. The chest may also be injured. The bodily harm on muscles occurs during the instances of unusual activities such as pulling heavy material and other physical labor. As noted in Australia, slight back injuries might occur due to tripping, falling, or even extensive twisting. For the Australian government and health authorities to manage the condition, it is vital to avert the predisposing factors.
Socio-Cultural Factors (family & individual)
Previous studies in Australia associate chronic lower backaches with the nature of work an individual does. In Australia, older persons engaged in tasking jobs are more susceptible to backache complications. The strenuous duties make depression to alter the functioning of the brain. Blood circulation to diverse body sections is also minimized. Individuals under poverty remain more susceptible to backache in Australia (Guarino, 2010). This results from depression as well as deprived diet, which reduces the bone substitution rate as well as the capacity to heal from the backaches. The Australian health agencies should note the significance of social assistance intervention in healing those with backaches. Backaches might be caused by the absence of social assistance (Walker, Muller & Grant, 2003). As most studies indicate, make persons to be more attached to the social system. It also enhances the level of concern for the patient. In Australia, this observation is eminent during the therapy of backache (AIHW, 2005). In Australia, wealth also influences backache. There are disparities notable in backache within diverse factions. In Australia, the people from poor family backgrounds are more likely to suffer backaches in their old age.
Conclusion
It is evident that Australian adults continue to suffer from the back muscle complications. Studies in Australia indicate high incidences of persistent backaches amongst adults relative to the younger population. The two different kinds of backaches are observable. It is also notable to take into consideration, the three major conditions that influence the occurrence of the complication amongst the elderly in Australia. These have been elaborately described in the discussion. Amongst some of the biologic influences for this complication include heredity, age, as well as the gender of an individual. Women have specifically recorded high incidences of persistent backache as compared to the males in Australia. The indulgence of close acquaintances and other family members assist in the reduction of the severity of backache. As noted in Australia, the socio-cultural elements also remain significant in influencing the progression of backache. There is an eminent need for conducting further extensive investigations about this challenge in Australia.
References
AIHW (Australian Institute of Health and Welfare). (2005). Arthritis and musculoskeletal conditions in Australia, 2005. Sydney: AIHW Canberra.
Briggs, A. & Buchbinder, R. (2009). Back pain: a National Health Priority Area in Australia? Medical Journal of Australia, 190 (9): 499-502.
COHC (Canberra Optimal Health Centre). (2011). Low Back Pain: It May Not Have To Be Yours Forever. Web.
Guarino, A. (2010). Get your lower back pain under control–and get on with life. Sydney: Johns Hopkins University Pr.
Walker, B., Muller, R. & Grant, W. (2004). Low back pain in Australian adults: prevalence and associated disability. Journal of Manipulative Physiol Ther., 27(4): 238-44.
Walker, F., Muller, R. & Grant D. (2003). Low back pain in Australian adults: the economic burden. Asia Pacific Journal of Public Health, 15 (2), 79-87.
Wand, B., McAuley, J., Marston, J. & De Souza, L. (2009). Predicting outcome in acute low back pain using different models of patient profiling. Web.
Willis, E., Reynolds, L., & Keleher, H. (2009). Understanding the Australian health care system. Sydney: Churchill Livingstone/Elsevier.
Many studies have been conducted about the prevalence of chronic low back pain in aviators. Other studies have been conducted about the prevalence of neck pain, with few types of research combining the two. This research investigates the relationship between the prevalence of persistent neck and backache in aviators.
Methods
The research constitutes an article review, with relevant articles being selected based on their discussion of the topic. A search conducted using the keywords resulted in 18 relevant articles.
Results
Most of the articles discuss the prevalence of low back pain in aviators, with others looking at neck pain in different types of aircraft pilots.
Conclusion
The results of the article review indicate a higher incidence of the symptoms in aviators compared to the general population. Helicopters have a higher incidence, with the civilian pilots having a relatively lower prevalence compared to military pilots.
Introduction
Aviation is an area that is linked with globalization. People can travel to different parts of the world at speeds that were at one time unimaginable. Some of the other benefits that the industry has introduced include growth in international trade and international migration. Careers have also been developed because of this industry, with one of the most prestigious of these occupations being piloting. Man’s desire to take to the skies became a reality in the 20th century. After realizing this dream, the ingenuity led to the development of different types of aircraft. Speed has also been a factor in the aviation industry. As a result, aviators and engineers have constantly increased the speed and altitudes that flights can achieve.
However, the industry has experienced several problems, especially to pilots who fly different aircraft. One problem that has been the subject of considerable discussion in different literature materials is the occupational hazards that the pilots in the various aircraft faced. Different researchers have looked at health issues related to flying, including deafness, visual disturbances, and hypertension. Some of the researchers also looked at the effects of being a pilot on back soreness and neck pain. Some factors that may cause injuries and chronic health problems in the aviation pilots include the vibration caused by the engines, the loud noises of the aircraft engine, the long hours required in some flights, and in some cases, the inadequate adjustment of seats for individual pilots.
The association between chronic neck and back soreness and being an aviation pilot can be made by looking at the history of one of the aviators who presented with back pain. The patient has served in the air force for 37 years and retires at the age of 56 years. In his aviation career, he flew a helicopter for the United States Navy and later worked as a civilian pilot for seven years at one of the local companies. He retired only after he started experiencing progressively increasing back pain.
He currently uses a walking stick and has had one of the hips replaced. He is also on analgesics, which he picks fortnightly at the local clinic. The symptoms developed when he was still working for the military. However, he concealed the situation to proceed with the benefits. He is an example of the many pilots with constant neck and back hurting. Consequently, there is a need to find any association between the career and the symptoms. This paper uses the findings of various researchers to investigate persistent back and neck soreness in pilots who fly different aircraft.
Literature Review
Unrelenting back and neck hurting are common medical conditions in any health institution. Health researchers have mainly attributed them to the occupation of the patients. The association between back pain and aviation has widely been studied, with different researchers having different conclusions. The types of aircraft and their relation to back pain were also studied, with some of the researchers such as Simon-Arndt, Yuan, and Hourani concluding that there was no clear association between the two (16).
Other researchers such as Froom, Barzilay, Caine, Margaliot, Forecast, and Gross concluded that the risk of back pain was increased in aviators, although it was not associated with the flight types (9). Despite these extensive studies on back pain and aviation, few researchers have studied neck pain and its relation to flying. As a result, there is hardly any study combining the problem of back pain and neck pain and their relation to being a flight pilot.
Grossman, Nakdimon, Chapnik, and Levy are some of the researchers who conducted a study on the effects of different flights on their pilots (10). The researchers attributed neck and back pain to two major factors in-flight pilots, namely whole body Vibration (WBV) and acceleration forces (10). These factors, according to the researchers, acted in concert with the head loading on the muscles of the neck to cause the chronic tenderness that the pilots experienced (10). Neck hurting was associated with acceleration, night vision gadgets, the helmets, and inadequate rest between flights in some of the aviation areas (10). On the other hand, backache was a combination of these factors in addition to the poor positioning in the cockpit seats for the pilots
The posturing of the pilots in-flight is a major factor in the development of back soreness. According to De Oliveira and Nadal, posture can be a target in the reduction of cases of persistent back and neck hurting (6). Common helicopter vibrations were also confirmed to be the main factor in the causation of lower back pain (6). Fighter jets have a little predisposition to vibrations that are common to helicopters. The pilots were reported to have experienced unending neck and back soreness.
Therefore, there is a different reason for these types of aircraft. Some of the researchers such as De Loose, Van Den Oord, Burnette, Van Tiggelen, Stevens, Cagnie, Witvrouw, and Danneels reported that the pilots flying the F-16 fighter planes were predisposed to these symptoms based on the sudden movements that the planes were capable of making (5). Fighter pilots also have a rather physically demanding work. They constantly have to flex their neck as they operate the multi-million dollar machines (5). This situation may be a direct contributor to the unremitting neck ache that they are reported to experience.
In addition to the posture that the aviators have to take while flying their aircraft, the headgear that they wear was also reported being an addition to the weight on their heads. The standard issue of most helicopter pilot helmets includes night vision apparatus, which demands the pilot to constantly flex his or her head while looking at the instrument panel as Salmon, Harrison, and Neary confirm (15). This finding may reveal the high incidence of neck ache in the aviators. About the causation of low back tenderness in pilots, another suggested cause is the damage that is done to the lumbar spine in the flights by the vibration from the helicopters (9).
Although Froom et al. state that there is little association between vibration in the aircraft and their association with backache, they confirm that the cause may be related to the long flight hours that demand the pilot to remain seated for long periods (9). However, vibration in the helicopters is supported by most of the other studies that included these types of aircraft (6). In most of the studies discussed above, the researchers managed to conclude that the persistent neck and back soreness was not caused by a single factor but a combination of many factors. However, the researchers concentrated on the factors that their studies hypothesized to be the most important in the causation of unceasing neck and backache.
Materials and Methods
Procedure
The selected materials and the strength of a literature review in an article enable the making of strong conclusions and evaluation of any knowledge gaps. In this research, an article review provided the best way of answering the study objectives, as this method has the advantage of saving resources and time while it also provides strong conclusions that are backed by the findings of the researchers. After setting the research objectives including investigating the relationship between the different flights and their relation to back and neck soreness, the next step in the research was to investigate the best method of achieving these objectives.
The appropriate databases where credible research articles on the subject were available were established. The next step after the databases were found was the selection of keywords to be used to locate the desired articles for review. The keywords that were selected for the results included persistent back pain, unending neck soreness, and pilots. The database provided many results from each of the keywords.
These results were later refined to include peer-reviewed articles and appropriate research. The most appropriate articles were selected from the pool of results. Their references were also analyzed to evaluate other materials that will be useful for research. The initial search produced over a thousand articles, which were later refined to just 54 articles that were appropriate for the study. The final list of literature that was best suited for the study consisted of 18 articles that were directly related to the study topic.
The other inclusion criterion apart from the requirement that the articles be peer-reviewed was that they had to be written in English. Articles that were not written in this language were not considered for evaluation. This was among the criteria used to get the total number of 18 articles that were obtained. The findings of these articles were evaluated to guarantee adequate conclusions. Qualitative methods of analysis were used, with the results obtained being used to make appropriate conclusions. The guiding principles during the analysis of the literature were the objectives formulated for the study.
The methodology of the Various Studies
Most of the research papers that were eventually used to assess the relationship between flight pilots and unremitting back and neck ache used qualitative methods to investigate their respective hypotheses. In one of the researches from the results, Wagstaff, Jahr, and Rodskier were investigating spinal symptoms in fighter pilots that were induced by the acceleration forced (+Gz) (19). These researchers used a questionnaire survey to answer the questions devised by the group (19). The fighter pilots in different airbases later filled the questionnaires. The analyzed data was to be used to assess how often they reported having back pain and neck pain after a considerable period of flying (19). The more prevalent of the two conditions among the 105 pilots was neck pain (19). The figure below shows this distribution.
In another study, the researchers investigated the in-flight effects of vibration, posturing, and fatigue on the back muscles in 12 Brazilian civilian pilots (6). The participants were monitored during their helicopter flights, which were lasting an average of 2 hours (6). They recorded the contractility of the muscles before the pilots took to flight and used surface electromyogram (EMG) as the main test in the study.
They also measured the vibration of the pilot sets in-flight using the triaxial accelerator and used the median frequencies (MF) in the power spectra of EMG to measure fatigue (6). The muscular activity in the aviators is one of the most important associations made between the development of persistent neck and back tenderness. These studies indicate that the causation of the neck and back pain have a more physiological and anatomic relationship.
Another study also investigated back symptoms and flying different aircraft. The study by Grossman, Nakdimon, Chapnik, and Levy provided a good basis for the current research (10). In this research, the use of questionnaires was utilized. Different pilots operating different types of aircraft answered these questionnaires. The main types of aircraft pilots who completed the questionnaires included fighter aircraft, attack helicopters, cargo planes, helicopters, and utility flights (10). The researchers also collected the demographic variables of the pilots, their type of flight, and the pain symptoms that they were experiencing. The weekly flights and the frequency of flying were also analyzed in the questionnaires (10).
De Loose, Van Den Oord, Burnette, Van Tiggelen, Stevens, Cagnie, Danneels, and Witvrouw also conducted a study investigating the effects of flying and chronic neck pain in pilots (4). In this research, 90 volunteer F-16 pilots were each required to fill a questionnaire. Some of the participants had reported experiencing bilateral neck pain, and these were established to be 17 of the 60 participants (4). The questionnaire contained vital information on these pilots, the duration of the pain symptoms, training and flying hours (4). Some of the measures that were taken in this study included the isometric neck flexion and extension strength, the lateral flexion strength, and the neck position sense (4). The other measures included the cervical range of motion in these pilots about the aviation hours (4).
Orsello, Phillips, and Rice also conducted studies on the association between low back pain and in-flight height in military helicopter pilots (14). The survey was conducted among 1028 helicopter pilots drawn from the US Navy. The pilots were asked to open up concerning the low back pain and its relation to their work (14). The total number of pilots that were used for the final study was 544 after the exclusion of the participants without the necessary data. The researchers performed a case-control analysis, with logistic regression being done on height, the BMI, and the low back pain (14). They also used Chi-square and Analysis of Variance (ANOVA) to synthesize the results (14). These methods of analysis were appropriate to provide researchers with quality data on the topic.
In another study, the researchers investigated the various factors in the neck pain reported by the F-16 pilots (5). In this study, the researchers sought to establish the relationship between neck pain and the F-16 fighter pilots in 90 male pilots (5). The pilots were from the Royal Netherlands Air Force and the Belgian Air force. They were required to fill a questionnaire that was voluntary and anonymous (5). The study followed the frequent episodes of neck pain that were being experienced in the air force. The researchers saw this situation as an opportunity to find the relationship between this kind of flight and the symptom.
Another selected study was conducted by Hansen and Wagstaff investigating the prevalence of low back pain among helicopter aircrew in Norway (11). The researchers initially requested helicopter aircrew members in the country’s air force (RNoAF) to participate in research that they were conducting (11). 204 participants responded consisting of a control group that was made up of pilots from marine and transport aircraft in the country (11).
The survey consisted of questions that assessed the prevalence of back pain in the pilots and the medical attention that they had sought over two years (11). They were also required to answer questions regarding the leaves at the workplace that were necessitated by the low back pain (11). Low back pain along with other pain symptoms is considered important factors at the workplace for aviators. The reduction in the working hours can be attributed to the problem in some of the pilots.
In another selected research, the researchers used questionnaires to investigate the prevalence of low back pain in pilots (9). The participating pilots in this particular study were pilots from fighter planes, helicopters, and transport planes (9). The pilots were supposed to report any symptoms of low back pain in the history of their flying careers together with how they had been affected. Sovelius, Oksa, Rintala, and Sittonen were among the researchers whose research was considered in this study (17).
In their research, they investigated the effects of acceleration forces on the muscle loading in pilots flying fighter planes (17). The study utilized test subjects that were subjected to different forces and neck and back muscle loading in these participants examined (17). The researchers measured the EMG activity of the various muscles in the back and neck in the 11 participating fighter pilots from Finland (17).
Salmon, Harrison, and Neary who looked at neck pain in military helicopter pilots (15) conducted a study with a similar methodology as the current study. The researchers examined the literature on unending back pain in military helicopters (15). Ang, Linder, and Harms-Ringdahi also evaluated the relationship between being a military pilot and the prevalence of neck pain (2). Their study primarily sought to establish the relationship between neck strength and fatigue in the helicopter and fighter plane pilots (2). The pilots who were investigated consisted of 31 pilots with episodes of neck pain (2). The group was also compared with controls that had no neck symptoms. In most of the studies, the control group was a group of selected civilian pilots. The assumption was that the pilots were less affected by the symptoms.
In another related study by Van Den, De Loose, Sluiter, Frings-Dresen, the researchers used participants with neck pain and those that reported no neck pain in their piloting career (18). The researchers measured various determinants of neck pain in the participants, including the cervical range of motion, isometric neck muscle strength, and the neck position sense (18). The researchers used analysis of variance (ANOVA) just like in other related studies to establish the relationship between the pilot career and the prevalence of neck pain (18).
Nevin and Means were among the researchers whose works were considered for evaluation. These researchers evaluated the prevalence of pain and discomfort caused by wearing body armor for helicopter aviators (13). The 68 helicopter aviators were required to participate in a self-reported pain rating, and they used a questionnaire that also included the times of flight (13).
In a different study on the prevalence of low back pain in pilots flying rotary wings planes, researchers used participants from the Royal Air Force to fill a questionnaire (3). Cunningham, Docherty, and Tyler distributed the questionnaires to air force pilots and other pilots flying civilian planes and the coastguard planes in the United Kingdom (3). The questionnaires were similar to those used in the other studies since they consisted of the demographic information of the pilots, the prevalence of low back pain, and the duration of flying in these planes. A similar study by Drew (the researcher) using questionnaires was utilized for this current research.
The questionnaires were distributed between two types of pilots: those flying high-performance aircraft and those that flew low-performance aircraft (7). The questionnaire was also anonymous just like in the other studies, as it sought to establish the relationship between flight performance and the prevalence of spinal symptoms (7).
In a similar survey that utilized the above methodology, Drew (another researcher) investigated the relationship between the sitting angle in airplane pilots, their G-exposure, and the prevalence of the spinal symptoms (8). This study was also resourceful to the current study. The methodology was consistent with the conclusions. The results of the literature search also resulted in one useful thesis for research by Andrea Philips from the Naval Postgraduate School in California (1).
The thesis was on back pain in helicopter pilots. The researcher also conducted a survey similar to the ones above (1). He sent the survey questionnaires to the participating pilots via email. These questionnaires were later sent back to him (1). In the last study by Kasin, Mansfield, and Wagstaff whose findings were utilized, the researchers assessed the risk of low back pain in helicopter aviators mainly considering whole-body vibration (WBV) (12). In this research, Kasin, Mansfield, and Wagstaff tested six helicopters in operational relevant maneuvers (12). Vibration magnitude was later calculated for each of the helicopters (12).
Summary of the Methodology
Most of the articles discussed used surveys to investigate the relationship between the back and neck symptoms and the types of aircraft that were being considered. Most of them had questionnaires that were handed to the participating respondents. The questionnaires were later analyzed to evaluate the existing relationships. In some of the articles, the researchers opted to measure the contributing factors to back pain.
The factors included the whole body vibration, cervical range of motion, isometric neck muscle strength, and the neck position sense. Other researchers also measured the electrical activity from the muscles before, during, and after the flights. The methodology considered constituted various types of aircraft and pilots. Most of the research studies used relevant methodology, which was adequate to make the conclusions that the researchers subsequently provided. They were also appropriate for consideration in this particular study and hence relevant in the making of conclusions.
Results
Most of the studies whose methods are discussed above, which were considered in the current study, concluded that there was a positive relationship between being a pilot and the prevalence of unceasing neck and back soreness. However, most of the researchers conducted a study that sought to relate the prevalence of either back pain or neck pain on the different types of planes. The results of these studies will be discussed next.
Chronic Neck Pain
One of the studies that investigated the effects of being a pilot and the prevalence of neck pain concluded that there were “no significant differences between pilots and aircrew with neck pain and their colleagues without pain, nor was there any effect of occupation” (18, p. 50). This means that the researchers did not find a significant relationship between being a pilot and experiencing neck pain. On the other hand, Ang, Linder, and Harms-Ringdahl established that fighter pilot was predisposed to neck pain because of the increased loading and decreased muscle strength (2).
De Loose et al. suggested that the neck pain experienced in fighter plane pilots was a result of the high loading that was experienced during the flights and that the problem was consistent in the pilots (5). Some of the researchers even suggested the introduction of training programs that are specifically aimed at reducing the prevalence of neck pain in military pilots (15). Chronic neck ache was discussed in the research articles as being a big problem among pilots. In another study, flying a high-performance plane was considered one of the main reasons why pilots experience persistent neck pain (8). However, most of the studies mainly looked at the effects of being a pilot in the different types of planes and the prevalence of low back pain.
Chronic Back Pain
One example of a study that concluded that there is a relationship between chronic back pain and being a helicopter pilot is that of Kåsin, Mansfield, and Wagstaff (12). The researchers associated the pain with the whole body vibration that was the subject of their study. Other studies strongly linked back and neck pain to being an aviation pilot. Philips asserts, “The cause of most pilots’ back and neck pain is due to flying rather than other activities” (1, p. 25). This finding follows after the results of the survey showed that a few of the problems that the pilots had were attributable to other activities apart from flying.
The other researchers who found an association between flying and low back pain included Cunningham, Docherty, and Tyler (3), Nevin and Means (13), Sovelius and colleagues (11), Grossman, Nakdimon, Chapnik, and Levy (10), and Hansen and Wagstaff(11). Despite these findings, there were still researchers who concluded that the prevalence of back pain in the pilots was not different from that experienced by other people in other careers that were not actively involved in flying (9).
Based on their study, Froom et al. concluded that there was no relationship between vibration stresses in helicopters, the long-term damage of the lumbar spine, and subsequent unceasing low backache (9). Most of these studies investigated different types of planes and their relation to either neck or back pain, or both types of pain. It is important to look at the different findings that the individual types of aircraft provided.
Fighter Jet Aircrafts
Ang, Linder, and Harms-Ringdahl were some of the researchers who investigated the effects of chronic back soreness related to the different types of aircraft (2). They concluded that fighter jet aircraft and military helicopter pilots are at an increased risk of developing persistent low back tenderness (2). This finding was related to the acceleration forces that were experienced at different aircraft. Some of the factors attributable to the development of unremitting neck ache in fighter jet plane pilots include the night vision gadgets that they wear, helmets, helmet-mounted displays, and the suits (1). These are responsible for the added weight that causes axial loading and the resultant chronic back pain.
Froom et al. placed the prevalence of unending backache in fighter pilots higher than the prevalence of the same parameter in helicopter pilots (9). In another study on the prevalence of neck pain in the F-16 pilots, the researchers concluded that the pilots are at a higher risk of persistent neck pain associated with the high performance of these planes (4). De Loose and colleagues confirmed this observation in their study on the F-16 pilots (5).
Some of the main reasons for the high prevalence of persistent back and neck ache in fighter pilots include the high Gz forces and the increased stress from long hours of flight (17). These pilots also face the agronomic risks associated with poor seat positioning. The notion of fighter pilots being more at risk of persistent back and neck hurting than other pilots was further supported by Drew Wed (8). The researcher states that high performance in the different types of aircraft was a problem that led to unremitting neck and back tenderness (8).
Fighter jets are associated with high velocities, large acceleration forces, and unique instrumentation in the cockpit. These factors are some of the major causes of back pain in the aviators who use them. In most of the research studies listed above, the aviators found an association between back pain and being a pilot in one of these aircraft. The percentages of low back pain that were attributable to being a pilot in the fighter aircraft varies from one study to the next.
Apart from low back pain whose cause by jet aircraft was ranked the second to helicopters, neck pain was established as being significantly caused by the jet planes (17). Neck pain is prevalent in the jet pilots because of the additional headgear that they wear in comparison with other pilots flying other types of planes. The components include night vision goggles, the helmet, and other technological apparatus.
Helicopters
Military helicopter pilots were established as one of the groups at risk of developing low back pain because of long flying hours (14). The results indicated that the ergonomic stressors for the military helicopter pilots are the most significant causes of in-flight low back pain for the pilots. The designs of the helicopters were also established to be the main factors in the causation of low back pain in the pilots of navy helicopters. This aspect was also established to be the main factors that can be used to mitigate the effects (14). In another study that is described above, the researchers found little significance between being a helicopter pilot and the likelihood of experiencing unending backache (18). However, this was not supported by other findings from other research studies.
One of the other studies reporting an increased prevalence of back and neck pain in helicopter pilots was conducted by Ang and colleagues (2). They established that the prevalence of low back pain is related to the type of flight that one operates and the duration of the flight. Hansen and Wagstafe established that an increased prevalence of low back pain was mainly associated with flying helicopters for more than 2000 hours (11). Grossman, Nakdimon, Chapnik, and Levy were some of the researchers who investigated the effects of various aircraft on spinal symptoms such as persistent neck and/or back tenderness (10). They concluded that the prevalence of these symptoms was more in helicopter pilots.
De Oliveira and Nadal further investigated the main reasons why the helicopter pilots are affected more than the other pilots did (6). The previous hypothesis that claimed the symptoms occur due to fatigue, posturing, and vibration is not supported in their study. They concluded, “Other mechanical processes related to the constant helicopter vibration such as cyclic compression of disks might reveal the etiology of such pain and should be further investigated” (6, p. 322). Helicopter pilots were also confirmed as being associated with low back pain in another study by Froom et al. (9). However, pilots flying the transport planes were more at risk of having chronic back pain in the study.
In another research finding, the researchers suggested that the prevalence of chronic neck and backache in helicopter pilots might be reduced through active exercise therapy (14). The researchers concluded that the pilots flying the helicopters are at an increased risk of developing unceasing neck and back soreness because of the increased hours of flight. Nevin and Means went further to evaluate the causes of chronic pain in helicopter aviators (13). The findings were that the body armor that the pilots used was a positive contributor to unremitting backache and chronic neck pain.
Andrea Philips also found that many pilots in the navy had at one time reported persistent back and neck soreness (1). This group comprised mainly the helicopter pilots who worked for the navy. Kasin, Mansfield, and Wagstaffe also reported an increased prevalence of low back pain in helicopter pilots (12). In most of the studies described above, the pilots that were most susceptible to unrelenting back and neck hurting were the helicopter pilots and researchers in each of the studies suggested further studies to investigate the main forces behind the relatively high incidence of these symptoms in helicopter pilots. Some of the most common associations to back pain for the helicopter pilots are the vibrations and the long flight hours for the pilots (6, 14, and 18).
Civilian Aircrafts
Civilian aircraft pilots were also at increased risk of developing low back pain and chronic neck pain. However, this situation was significantly less common in military aircraft pilots. These pilots were used as the control group in some of the studies that investigated the prevalence of low back pain in pilots (12). The studies on civilian aircraft also found significant evidence where the pilots had experienced unrelenting back and neck hurting (3). The aviators reported that they had more of chronic low back pain as compared to neck pain.
Few of these studies found significantly large associations between back pain and being a civilian pilot. One of the reasons for this case includes the fact that the researchers had based their hypothesis on the military air transport and that the field was more demanding than working as a civilian pilot (12). However, there is a need to carry out more research on the implications that being a pilot in civilian commercial airlines has in the manifestation and development of spinal symptoms, especially unrelenting back and neck hurting. Important to note is that the industry is more regulated with the pilots having lesser flying hours and with assistance.
Discussion
In most of the research articles that were analyzed, there was a strong association between unrelenting back and neck hurting and the piloting occupation. Helicopter pilots have been confirmed as the most commonly affected by all the pilots of the different types of aircraft pilots (14, 18, 2, and 12). Helicopter pilots are more predisposed to unrelenting back and neck hurting because of the various factors in the propulsion systems of this type of flight. Localized muscle fatigue was determined in the studies as a major factor in the helicopter pilots. This observation was estimated through the measurement of the electric activity of the muscles (6).
One of the few studies combining the effects of many factors on the prevalence of unrelenting back and neck hurting in pilots was by De Loose et al. who concluded that consortium of factors is responsible for these symptoms (4). Some of the factors that act as a group in the causation of neck pain and chronic back pain in the pilots included the isometric neck flexion and extension, the positional sense of the pilots, the range of motion, and the aircraft factors (4). However, the aircraft factors were established as the main factors in the development of unrelenting back and neck hurting.
In aircraft with strong acceleration forces, the piloting of aircraft without the appropriate support for the lumbar spine is one of the factors that lead to the development of lumbar pain after long periods of service (17). There exist individual differences in the causation and prevalence of this pan. Therefore, the control may have to take an individual approach (17). Pilots need to support their lumbar spine in the operation of the high acceleration aircraft, as this strategy may be beneficial in the prevention of chronic back pain. In this case, the reduction in back pain depended on the level of support for the individual pilots.
One of the individual pilot characteristics that were described in the studies is the height of the pilot. Orsello, Philips, and Rice stated that an increase in height had a resultant increase in the probability of experiencing low back pain for the fighter plane pilots (14). In their study, they observed, “For every 1’’ increase among male pilot height values, the odds of experiencing significant LBP in-flight increased by 9.3%, with those equal/taller than median (71 in.) having over twice the odds compared with those shorter” (14, p. 32). The graph below shows the relationship between the height of the pilots and the odds of developing chronic back pain.
The physical characteristics of the pilots were also the subject of other studies that try to relate them to the prevalence of chronic neck or back pain. The duration of flying varied among the individual pilots and the consistent findings is that the pilots that had flown for longer in any type of aircraft were more affected about those with fewer flight hours. The increased flying times for the participating pilots had a bearing on the stresses that their muscles went through.
The increase in flying time is associated with an increased prevalence of chronic low back pain (19). The results also apply for persistent neck soreness (2). Most of the pilots who were surveyed in the researches were silent about their back pain with the reason that they might have consequences in their careers (19). In most cases, the researchers had to use retrospective methods of enquiring about the unrelenting back and neck hurting in these pilots to make them more open about the symptoms.
The prevalence of pain varies in the different types of aircraft as stated above, with the helicopter pilots being described as the most predisposed in most studies. The prevalence of unremitting neck pain is more common in fighter pilots while the one in low back pain is more in helicopter pilots (10). Apart from the location of the persistent pain, the prevalence of pain is also determined by the type of aircraft, the time of service, and the individual characteristics as stated above. Some of the researchers who conducted extensive work on the variations of the pain among the different types of aircraft pilots include Grossman, Nakdimon, Chapnik, and Levy (10). In their research, they further supported the distribution of these symptoms in the pilots. The figures below represent some of their findings.
Despite the above findings incriminating the types of aircraft in the causation of unremitting neck and back pain, the individual pilots were considered important in the causation of their neck and back symptoms. Pilots take different positions when flying their aircraft while sitting in positions that predispose them to pain (18). The posturing of the cervical spine and the back may be corrected through adequate training for these pilots and the provision of seats that are specifically designed for each of the pilot (18). The companions of pilots and fellow aviators and the position in which they are seated in a plane also affect the manifestation of the described symptoms. The prevalence of persistent neck and back pain is also dependent on the total flight hours for these pilots.
The other individual characteristic that was subject to investigation in some of the studies is the muscle strength for the various supporting structures (2). For people with strong supports for the neck, the incidence of neck pain was considerably low as compared with those with reduced muscle bulk (2). The factors that were responsible for the development of chronic neck pain in those pilots with less muscle bulk include the rapid changes in velocity for the different types of aircraft, and the ability of bulk muscled individuals, to adequately support their necks. Therefore, the study indicated that bulky muscled individuals are less predisposed to getting constant low backache and neck tenderness in contrast to the natural predisposition that bigger people have to low back pain.
In most contemporary aircraft, aviators are required to wear special armor and clothing for their protection and to make them efficient pilots. This inference is mainly an observation in the military aircraft, especially the fighter and military helicopter pilots. There has been growing concern that the apparatus that the pilots are required to wear may be contributing to their cockpit weight and the overall stress in their neck and back, thus multiplying the acceleration forces.
Nevin and Means investigated the relationship that the added body armor for the pilots had in the predisposition of chronic pain (13). They found out that although the initial intention was to make the armor lighter for the pilots, the added weight had a bearing on the muscles in the pilots (13). They reported increased stresses to the lower back muscles and thus the development of chronic back pain in the pilots (13).
The prevalence of pain in most of the research findings pointed to more pain for the air force pilots. Civilian pilots were less affected because, as most of the researchers stated, these pilots operated in a tightly controlled field with professionalism being highly emphasized (5). The exception was a study carried by Cunningham, Docherty, and Tyler whose findings pointed to a higher prevalence of persistent pain in the civilian pilots compared to the air force pilots contacted in the study(3). The findings are illustrated in the following figure.
The findings above can be described as being different from the other studies because only one type of aircraft was used. The researchers obtained their data from the pilots of rotary-wing aircraft that are more in civilian as opposed to military transport use (3).
The other significant factor in the prevalence of chronic hurting, especially persistent backache, is that most of the pilots experienced it while in flight (11). The pain usually lasted a few hours after the flight and later subsidize after a certain period. The presence of unceasing pain is a bother to the pilots and the aviation agency because it affects their quality of work (11). The number of leaves that the pilots ask can be reduced if the problem is tamed and/or more measures are taken to avoid its development (11). The prevalence of this pain is related to the number of hours that the pilots are flying that Hansen and Wagstaff described it as being different from the civilian unending low back pain (11).
The prevalence of persistent neck and backache in this study was established as a product of the individual characteristics and airplane characteristics. In most of the researches, aviators who experience these symptoms because of being pilots have been involved in long periods of flight, poor positioning, or had taken a poor angle in the plane (12). However, the study establishes that the prevalence of chronic neck and backache in pilots is more than the prevalence in the general population. The civilian pilots are less affected by the career as opposed to the aviators working for the military. Even in these pilots working for the military, there are variations between the different types of planes that they operate, with the helicopter pilots being more predisposed to persistent back and neck pain (1).
The helicopter pilots have various factors working together to make them more prone to chronic symptoms described above. These factors include the vibrations that are frequent in-flight (12). The aviators often have to wear heavy gadgets that aid them in their flight missions. These gadgets have been identified as the main reasons for the causation of neck pain (7). The distribution of neck pain in the aviators is also one of the observations in the study. The fighter pilots were more predisposed to chronic neck pain. The blame for this observation in most of the studies is mainly on the acceleration forces that the pilots operating the fighter planes are exposed to during various periods in their flight missions.
In most of the studies, one of the consistent factors in the manifestation of unremitting neck and back symptoms is the duration of flying for the different types of planes (8). The study establishes that the longer the duration of flight times, the more likely that the pilots will have unrelenting neck and back pain (8). This inference may reveal why air force pilots were more affected by civilian pilots. The air force pilots generally reported working in a more stressful environment compared to their civilian counterparts, and their flight hours were longer on average. The civilian pilots also reported a higher prevalence of chronic back pain. However, chronic neck pain is more prevalent among military aviators. In general, the prevalence of neck pain was less compared to chronic back pain.
The prevalence of these symptoms in the general population is significantly lower compared to the aviators. Therefore, there is a positive relationship between being an aviator and the manifestation of unrelenting back and neck hurting. There is a need to carry out further research on the individual factors that may be contributing to the increased prevalence of these symptoms. One example is the role played by training in the causation of neck pain. The acceleration forces have been the subject of many studies in the research. Nevertheless, there is still a need to evaluate the different levels of acceleration and provide values below which acceleration causes the little manifestation of the symptoms.
Conclusion
In conclusion, the research looked at the different causes of persistent neck and back soreness in aviators. It analyzed the findings of different studies about this hurting in pilots. The findings indicate that the prevalence of unending neck and backache in the specified category of people is higher than in the general population. The civilian pilots are less likely to suffer from these symptoms. However, they also get affected. About the different types of aircraft, the studies indicate that the military helicopters and other helicopters have a higher incidence of pilots experiencing persistent neck and backache. However, chronic neck pain was higher in fighter plane pilots, with chronic back pain being more in the helicopter pilots.
Some of the factors that were found significant in the development of these symptoms varied in different individuals and aircraft. Tall pilots, those who flew longer hours, and those working for the military were most likely affected. Helicopters and military planes were most prone because of additional heavy gadgets on the aviators and the acceleration forces to which they were predisposed. The posturing of the aviators was another string association to unrelenting back and neck hurting.
Some of the recommendations include the need for a plan to monitor the symptoms in pilots before and after flights. Modification of planes should also be done to suit the individual needs of the aviators. There is also a need to carry out training for the pilots on the best posturing methods that they should adopt while in-flight. Some of the measures were discussed to be important in the prevention of the development of unrelenting back and neck hurting in aviators. There is also a need for more research into the topic. This particular study will add to the growing body of evidence on the topic.
References
Andrea P. the scope of back pain in navy helicopter pilots. California: Naval Postgraduate School Monterey; 2011.
Ang B, Linder J, Harms-Ringdahl K. Neck strength and myoelectric fatigue in fighter and helicopter pilots with a history of neck pain. Aviat Space Environ Med. 2005; 76(1): 375-80.
Cunningham LK, Docherty S, Tyler AW. Prevalence of low back pain (LBP) in rotary wing aviation pilots. Aviat Space Environ Med. 2010; 81(2): 774-8.
De Loose V, Van Den Oord M, Burnotte F, Van Tiggelen D, Stevens V, Cagnie B, et al. Functional assessment of the cervical spine in F-16 pilots with and without neck pain. Aviat Space Environ Med. 2009; 80(1): 477- 81.
De Loose V, Van Den Oord M, Burnotte F, Van Tiggelen D, Stevens V, Cagnie B, Witvrouw E, Danneels L. Individual, work-, and flight-related issues in F-16 pilots reporting neck pain. Aviat Space Environ Med. 2008; 79(3): 779-83.
De Oliveira CG, Nadal J. Back muscle EMG of helicopter pilots in flight: effects of fatigue, vibration, and posture. Aviat Space Environ Med. 2004; 75(1): 317–22.
Drew W. Spinal Disease in Aviators and Its Relationship to G-Exposure, Age, Aircraft Seating Angle, Exercise and Other Lifestyle Factors, Defense Technical Information Center Compilation Part Notice ADPO10561. London: Routlege; 1999.
Drew W. Spinal symptoms in aviators and their relationship to g-exposure and aircraft seating angle. Aviat Space Environ Med. 2000; 71(2): 22-30.
Froom, P, Barzilay, J, Caine, Y, Margaliot, S, Forecast, D, Gross, M. Low back pain in pilots. Aviat Space Environ Med 1986; 57: 694-5.
Grossman A, Nakdimon I, Chapnik L, Levy Y. Back symptoms in aviators flying different aircraft. Aviat Space Environ Med. 2012; 83(1): 702–5.
Hansen OB, Wagstaff AS. Low back pain in Norwegian helicopter aircrew. Aviat Space Environ Med. 2001; 72(4):161-4.
Kåsin JI, Mansfie lD N, Wagstaff A. Whole body vibration in helicopters: risk assessment in relation to low back pain. Aviat Space Environ Med. 2011; 82(1): 790-6.
Nevin RL, Means GE. Pain and discomfort in deployed helicopter aviators wearing body armor. Aviat Space Environ Med. 2009; 80(5): 807-10.
Orsello CA, Phillips AS, Rice GM. Height and in-flight low back pain association among military helicopter pilots. Aviat Space Environ Med. 2013; 84(2): 32-7.
Salmon DM, Harrison MF, Neary JP. Neck pain in military helicopter aircrew and the role of exercise therapy. Aviat Space Environ Med. 2011; 82(2): 978-87.
Simon-Arndt CM, Yuan H, Hourani LL. Aircraft type and diagnosed back disorders in U.S. Navy pilots and aircrew. Aviat Space Environ Med. 1997; 68(3): 1012-8.
Sovelius R, Oksa J, Rintala H, Siitonen S. Neck and back muscle loading in pilots flying high G z sorties with and without lumbar support. Aviat Space Environ Med. 2008; 79(1): 616-9.
Van Den OM, De Loose V, Sluiter JK, Frings-Dresen MHW. Neck strength, position sense, and motion in military helicopter crew with and without neck pain. Aviat Space Environ Med. 2010; 81(2): 46-51.
Wagstaff, AS, Jahr KI, Rodskier S. +Gz-induced spinal symptoms in fighter pilots: operational and individual associated factors. Aviat Space Environ Med. 2012; 83(3): 1092-6.