Discussion Musculoskeletal Disorders
Discussion Musculoskeletal Disorders
Discussion Musculoskeletal Disorders
Review of Case Study 3: Knee Pain
S
CC: “I have this dull pain in both of my knees, and I could feel them click sometimes.”
HPI: The patient is a 15-year-old male that plays for the track and field team, presenting for dull pain around the knees. The symptoms started two weeks ago while he was at practice, and he informed me that the pain initially would go away and come back. However, the pain has been persistent and is now accompanied by a “catching” sensation under the kneecap. The knee problem worsens with movement and rates the pain at a 7 out of 10. He has not taken any medications and reports that it is minimally relieved with rest. He has not been able to join practices for a week. He denies any other associated symptoms with the chief concern.
PMH: None
Medications: Ascorbic acid 500 mg, OD PO
Allergies: No known drug, food, or environmental allergies.
FH: Father – hypertension, hyperthyroidism, alive. Mother – no known medical history, alive.
SH: The patient is an only son and is in 10th grade. He is the track and field team leader and has been a member for 2 years now.
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Review of Systems
General: Denies fever, chills, or night sweats.
HEENT: Denies headache, head trauma, or injury.
Cardiovascular: Denies chest pain. Reports fatigue.
Respiratory: Denies difficulty breathing, cough, or hemoptysis.
Musculoskeletal: Reports muscle pain of bilateral LE and a catching sensation under the patella.
O
Vital Signs – temp 36.8C, BP 115/75, HR 98, O2 100%, RR 21; height 5’5, weight 121 lbs., BMI 20.1
General – Patient is alert and oriented, cooperative, and a reliable historian. Dressed appropriately for the situation, with a mood consistent with affect.
HEENT – The head is normocephalic without any visible abnormalities.
Chest – The chest is symmetrical. Lungs are clear in bilateral upper and lower lobes. S1 and S2 are audible without any heart murmurs.
Musculoskeletal – Limping and slower ambulation noted. Swelling noted on both patellae. The knees are warm to the touch, with a palpable fluid bulge with a grating sensation. Tenderness was noted on the quadriceps and patellar tendons. Muscle strength are +3. Unable to perform full range of motion.
Diagnostics/Imaging
Knee AP weight-bearing and oblique view: The radiograph of the knees while the patient bears weight allows visualization knees, tendons, and joints in an anatomical position. Meanwhile, the oblique view is cost-friendly and readily available that provides better detail of the knee joints before opting for or without a CT scan.
A
- Osgood-Schlatter Disease (Osteochondrosis) – A common cause of knee pain among adolescents, especially physically active ones. It is often characterized as an inflammation of the area below the knee. It is usually benign, with a gradual progression aggravated by repetitious activities of the knees (Smith & Varacallo, 2022).
- Patellofemoral Syndrome – It is also known as “runner’s knee.” The pain occurs either around or behind the patella. The associated everyday activities are running, climbing, jumping, or squatting (Gaitonde et al., 2019).
- Patellar Tendonitis (Jumper’s Knee) – Commonly associated with sports that involve strenuous jumping, causing small tears in the patellar tendon. These small tears result from accumulated stress and injury to the patellar or quadriceps tendons. Localized swelling over the tendons is usual on evaluation (Santana et al., 2022).
- Patella Femoral Subluxation – It is a dislocation of the kneecap, usually resulting from trauma, non-contact twisting injury, or a direct injury to the medial aspect of the knee. Patients with this kind of dislocation also complain of a popping sensation on their knees or a clicking and catching sensation that is usually aggravated when flexing or kneeling (Hayat et al., 2022).
- Synovial Plica Syndrome – A collection of symptoms that equally affects both males and females. The pain is usually reported in the anterior aspect of the knee, with a clicking or popping sensation. It is also highly associated with injury or overuse (Lee et al., 2017)
References
Gaitonde, D. Y., Ericksen, A., & Robbins, R. C. (2019). Patellofemoral pain syndrome. American family physician, 99(2), 88–94.
Hayat, Z., El Bitar, Y., & Case, J. L. (2022). Patella dislocation. In StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing. https://www.ncbi.nlm.nih.gov/
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Lee, P., Nixion, A., Chandratreya, A., & Murray, J. (2017). Synovial plica syndrome of the knee: A commonly overlooked cause of anterior knee pain. The Surgery Journal, 03(01), e9–e16. https://doi.org/10.1055/s-
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Santana, J. A., Mabrouk, A., & Sherman, A. (2022). Jumpers knee. In StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing. https://www.ncbi.nlm.nih.gov/
Smith, J. M., & Varacallo, M. (2022). Osgood schlatter. In StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing. https://www.ncbi.nlm.nih.gov/
Tafti, A., & Byerly, D. W. (2021). X-ray radiographic patient positioning. In (Ed.), StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing. https://www.ncbi.nlm.nih.gov/
I’m studying for my Health & Medical class and need an explanation.
Describe some of the more common pathophysiological changes and abnormal findings associated with musculoskeletal, metabolic, and multisystem health dysfunctions. Explain what symptoms are associated with the findings and how these affect patient function.
Musculoskeletal disorders (MSDs) are injuries or pain in the human musculoskeletal system, including the joints, ligaments, muscles, nerves, tendons, and structures that support limbs, neck and back.[1] MSDs can arise from a sudden exertion (e.g., lifting a heavy object),[2] or they can arise from making the same motions repeatedly repetitive strain, or from repeated exposure to force, vibration, or awkward posture.[3] Injuries and pain in the musculoskeletal system caused by acute traumatic events like a car accident or fall are not considered musculoskeletal disorders.[4] MSDs can affect many different parts of the body including upper and lower back, neck, shoulders and extremities (arms, legs, feet, and hands).[5] Examples of MSDs include carpal tunnel syndrome, epicondylitis, tendinitis, back pain, tension neck syndrome, and hand-arm vibration syndrome.
Causes
MSDs can arise from the interaction of physical factors with ergonomic, psychological, social, and occupational factors.[6]
Biomechanical
MSDs are caused by biomechanical load which is the force that must be applied to do tasks, the duration of the force applied, and the frequency with which tasks are performed.[7] Activities involving heavy loads can result in acute injury, but most occupation-related MSDs are from motions that are repetitive, or from maintaining a static position.[8] Even activities that do not require a lot of force can result in muscle damage if the activity is repeated often enough at short intervals.[8] MSD risk factors involve doing tasks with heavy force, repetition, or maintaining a nonneutral posture.[8] Of particular concern is the combination of heavy load with repetition.[8] Although poor posture is often blamed for lower back pain, a systematic review of the literature failed to find a consistent connection.[9]
Individual differences
People vary in their tendency to get MSDs. Gender is a factor, with women having a higher incidence of MSDs than men.[8] Obesity is also a factor, with overweight individuals having a higher risk of some MSDs, specifically of the lower back.[10]
Psychosocial
There is a growing consensus that psychosocial factors are another cause of some MSDs.[11] Some theories for this causal relationship found by many researchers include increased muscle tension, increased blood and fluid pressure, reduction of growth functions, pain sensitivity reduction, pupil dilation, body remaining at heightened state of sensitivity. Although there is no consensus at this time,[12] some of the workplace stressors found to be associated with MSDs in the workplace include high job demands, low social support, and overall job strain.[11][13][14] Researchers have consistently identified causal relationships between job dissatisfaction and MSDs. For example, improving job satisfaction can reduce 17-69 per cent of work-related back disorders and improving job control can reduce 37-84 per cent of work-related wrist disorders.[15]
Occupational
Because workers maintain the same posture over long work days and often several years, even natural postures like standing can lead to MSDs like low back pain. Postures which are less natural, such as twisting of or tension in the upper body, are typically contributors to the development of MSDs due to the unnatural biomechanical load of these postures.[3][16] There is evidence that posture contributes to MSDs of the neck, shoulder, and back.[3]
Repeated motion is another risk factor for MSDs of occupational origin because workers can perform the same movements repeatedly over long periods of time (e.g. typing leading to carpal tunnel syndrome, lifting heavy objects leading to herniated discs/slipped discs), which can wear on the joints and muscles involved in the motion in question.[3] [17] Workers doing repetitive motions at a high pace of work with little recovery time and workers with little to no control over the timing of motions (e.g. workers on assembly lines) are also prone to MSDs due to the motion of their work.
[16] Force needed to perform actions on the job can also be associated with higher MSD risk in workers, because movements which require more force can fatigue muscles quicker which can lead to injury and/or pain.[3] Additionally, exposure to vibration (experienced by truck drivers or construction workers, for example) and extreme hot or cold temperatures can affect a worker’s ability to judge force and strength, which can lead to development of MSDs.[16] Vibration exposure is also associated with hand-arm vibration syndrome, which has symptoms of lack of blood circulation to the fingers, nerve compression, tingling, and/or numbness.[18] Recent epidemiological studies identify gender as a significant risk factor in occurrence of MSDs among workers in gender-related occupations, e.g. hairdressers.
Diagnosis
Assessment of MSDs is based on self-reports of symptoms and pain as well as physical examination by a doctor.[3] Doctors rely on medical history, recreational and occupational hazards, intensity of pain, a physical exam to locate the source of the pain, and sometimes lab tests, X-rays, or an MRI[20] Doctors look for specific criteria to diagnose each different musculoskeletal disorder, based on location, type, and intensity of pain, as well as what kind of restricted or painful movement a patient is experiencing.[3] A popular measure of MSDs is the Nordic Questionnaire that has a picture of the body with various areas labeled and asks the individual to indicate in which areas they have experienced pain, and in which areas has the pain interfered with normal activity.[5] Recent machine learning algorithms can diagnose musculoskeletal disorder from gait patterns captured from 3D motion capture systems.[21]
Prevention
Prevention of MSDs relies upon identification of risk factors, either by self-report, observation on the job, or measurement of posture which could lead to MSDs.[22] Once risk factors have been determined, there are several intervention methods which could be used to prevent the development of MSDs. The target of MSD prevention efforts is often the workplace in order to identify incidence rates of both disorders and exposure to unsafe conditions.[23]
Workplace controls
Groups who are at particular risk can be identified, and modifications to the physical and psychosocial environment can be made.[23] Approaches to prevention in workplace settings include matching the person’s physical abilities to the tasks, increasing the person’s capabilities, changing how tasks are performed, or changing the tasks.[24]
Employers can also utilize engineering controls and administrative controls to prevent injury happening on the job.[4] Implementation of engineering controls is the process of designing or redesigning the workplace to account for strengths, weaknesses, and needs of the working population- examples would be workstation layout changes to be more efficient or reducing bending over, or moving necessary tools within shorter reach of the worker’s station.[4] Employers may also utilize administrative controls like reducing number of hours in a certain position, limiting overtime, or including more breaks during shifts in order to reduce amount of time at risk for each worker.[4]
Ergonomics
Encouraging the use of proper ergonomics not only includes matching the physical ability of the worker with the correct job, but it deals with designing equipment that is correct for the task.[25] Limiting heavy lifting, training, and reporting early signs of injury are examples that can prevent MSD.[26] Employers can provide support for employees in order to prevent MSD in the workplace by involving the employees in planning, assessing, and developing standards of procedures that will support proper ergonomics and prevent injury.[26]
One focus of ergonomic principles is maintaining neutral postures, which are postures in which muscles are at their normal length and able to generate the most force, while reducing stress and possible injury to muscles, tendons, nerves, and bones- therefore, in the workplace or in everyday life, it is ideal for muscles and joints to maintain neutral positions.[27] Additionally, to prevent hand, wrist, and finger injuries, understanding when to use pinch grips (best for fine motor control and precise movements with low force) and power grips (best for high-force movements done repeatedly) is important for employees and general tasks outside the workplace.[27]
The choice of tools should match that of the proper grip and be conducive to neutral postures, which is important for employers to consider when purchasing equipment.[27] In order to reduce injuries to the low back and spine, it is recommended to reduce weight and frequency of lifting cycles as well as decreasing the distance between the body and the load to reduce the torque force on the back for workers and individuals doing repeated lifting to avoid fatigue failure of the spine.[27] The shape of objects being lifted should also be considered, especially by employers, because objects which are easier to grip, lift, and access present less stress on the spine and back muscles than objects which are awkwardly shaped and difficult to access.[27]
The National Institute of Occupational Safety and Health (NIOSH) has published ergonomic recommendations for several industries, including construction, mining, agriculture, healthcare, and retail, among others.