Musculoskeletal disorder

1. Musculoskeletal disorder Islamic University Nursing College

2. Musculoskeletal • The main organs and tissues that are part of the musculoskeletal system in humans are • the cartilages • the bones • the muscles

3. Musculoskeletal • Main functions of MS are: • To support & protect vital organs (the brain, heart and lungs) • To keep structure and maintenance of the body spatial conformation. • Allows the body to move (walking, standing, bending). Because soft tissues are resilient (flexible) in children, dislocations and sprains are less common than in adults • Nutrient storage (glycogen in muscles, calcium and phosphorus in bones)

4. Musculoskeletal: Physical Assessment • Inspect child undressed • Observe child walking • Spinal alignment • ROM (range of movement) • Muscle strength • Reflexes • Assessment of concerns

5. Musculoskeletal: Physical Assessment • Assessment of concerns: • Pain or tenderness & Muscle spasm • Masses • Soft tissue swelling • Fractures in children younger than 1 year are unusual because a large amount of force is necessary to fracture their bones. A child younger than 1 year with a fracture should be evaluated for possible physical abuse or an underlying musculoskeletal disorder that would cause spontaneous bone injury • assess injury site at the last

6. Musculoskeletal: Neurovascular Assessment • Neurovascular checks should be done at least every 1 to 2 hours during the first 48 hours, and usually for as long as the child is in traction • Pain: (location, alleviated and aggravating factors; Does the pain become worse when fingers or toes are flexed) • Sensation: Can the child feel/ touch on the affected extremity • Motion: Can the child move fingers or toes below area of injury / nerve injury • Temperature: Is the extremity warm or cool to touch • Capillary refill; Color; Pulses (distal to injury or cast)

7. Musculoskeletal: Diagnostic procedures • X-ray & Bone scan • Alkaline phosphatase (ALP): ALP is an enzyme found mainly in bone, liver, placenta, and kidney; levels may be elevated in bone disease, fractures, trauma, or liver disease and during periods of rapid growth. • Electromyography (EMG): studies the electrical activity of skeletal muscle and nerve conduction. • Muscle or bone biopsy • Arthoscopy: direct visualization of a joint with a fiberopticinstrument.

8. Fracture • Causes of fracture: • Birth trauma, child abuse & injury. • Vehicle accident for children and rare in infants • Fracture line can be transverse, oblique, or spiral, compound

9. Fracture: Clinical Manifestations • Swelling, pain or tenderness • Diminished functional use of the affected part; inability to bear weight. • Bruising, severe muscular rigidity • Sometimes crepitus. • Less frequent neurological and vascular damage (ischemia), which can be assessed using 5 Ps. • Pain • Pallor • Pulselessness • Parasthesia • Paralysis

10. Fracture: Therapeutic Management • Cast: fiberglass or plaster application to immobilize affected body part • Tractions :Is the direct application of force to produce equilibrium at the fracture site • Distraction: involves the use of an external device to separate opposing bones to encourage regeneration of new bone & used to immobilize fractures or correct defects when the bone is rotated or angled

11. Fracture: Therapeutic Management • Internal Fixation External Fixation

12. Fracture: Cast • Risk for altered tissue perfusion R/F pressure from cast • Keep extremity elevated to decrease edema. • assess circulation Q 15 minutes after applying the cast then hourly • assess skin warmth and 5 Ps • Risk for impaired skin integrity R/F pressure from cast • Cast edges must smoothed/covered • Cast remains in place for 4-8 weeks • Discourage itching under the cast

13. Fracture: Cast • Possible concerns: • Unusual odor under the cast • Drainage from cast • Tingling, numbness and swelling in the casted body part • Loose or cracked cast • Unexplained fever • Unusual fussiness (carefulness) or irritability and pain • Discoloration of finger or toes

14. Fracture: Traction • Is the direct application of force to produce equilibrium at the fracture site • Types of tractions • Manual traction: applied by hand is used during cast • Skin traction: pull applied directly to the skin surface and indirectly to the skeletal structure • Skeletal traction: pull applied directly to the skeletal structure by a pin, wire, or tongs

15. Fracture: Traction • Purposes • To realign bone fragments & treat dislocation • To provide rest for an extremity & help prevent or improve contracture deformity. • To allow preoperative or postoperative positioning and alignment. • To provide immobilization of affected body part • To fatigue the involved muscle and reduce muscle spasm so that bones can be realigned (Fatiguing of muscle is accomplished by applying constant stress to the muscle so that the buildup of lactic acid will produce muscle relaxation)

16. Fracture: Traction • Nursing Care • Regular assessment of 5 Ps • Skeletal traction is never released by the nurse (do not move the weights) • Assess blood pressure • Skin care for the child’s back, elbows and heels.

17. Fracture: Complications • Circulatory impairment: • Careful assessment of the pulses, skin color, and temperature is crucial • Nerve compression syndromes (e.g., carpal tunnel syndrome, tarsal tunnel syndrome) • Sensory testing with touch and pinprick • evaluating motor strength by asking the child to move the unaffected joint distal to the injury

18. Fracture: Complications • Compartment syndromes • is a tissue ischemia due to a compression of nerves, blood vessels, and muscle inside a closed space (compartment) within the body due to increased pressure in that part • The most frequent causes are: • tight dressings or casts, hemorrhage, trauma, burns, and surgery • Signs & symptoms include: • motor weakness and pain that does not decrease with medication • the muscle may feel tight or full • Burning sensation

19. Fracture: Complications • Epiphyseal damage: leads to unequal growth • Infection: osteomyelitis (potential problem in open fractures, from pressure ulcers, or when bone surgery) • Pulmonary emboli: blood, air, or fat emboli may produce a life-threatening vascular obstruction and ischemia. • Primary symptom is shortness of breath and chest pain. • Interventions should include: • Place patient in high fowlers • Administer O2 and check chest X-ray

20. Sprained ankle • A soft tissue injury • Management ( in the first 6 to 12 hours) • controlling the swelling and reducing muscle damage by “RICE” • Rest • Ice • Compression • Elevation

21. Kyphosis • Is an abnormally increased convex angulation in the curvature of the thoracic spine • It can occur secondary to disease process such as tuberculosis, chronic arthritis • Treatment • Postural exercises • Bracing (Milwaukee) for more marked deformity

22. Lordosis • Is an accentuation (stress) of the lumbar curvature beyond physiologic limits • It may be a complication of a disease process, the result of trauma or idiopathic • Lordosis is a normal observation in toddlers • In older children is often seen in association with flexion contractures of the hip, obesity, congenital dislocated hip and slipped femoral capital epiphysis.

23. Scoliosis • Is a spinal deformity which may involve lateral curvature, spinal rotation causing rib asymmetry, and thoracic hypokyphosis. • It is the most common spinal deformity. • It can be congenital, or it can develop during infancy or childhood, but it is most common during adolescence (peaks between 8-15 years) • It may be genetic and transmitted as an autosomal dominant trait • It may be multifactorial

24. Scoliosis: Types • Functional scoliosis • caused by a secondary problem such as unequal leg length. • The curve tends to be a C-shaped curve • can be treated by treating the primary cause first • Structural scoliosis • the cause is idiopathic with a positive family history in some cases • It involves a permanent curvature of spine accompanied by damage to the vertebral. • The curve tends to be S-shaped curve.

25. Scoliosis: Clinical Manifestation • From standing position ( feet together and arms at sided) • Unequal shoulders level • Curved spinal column • Uneven level of the elbows • From bending position ( child bends and touch his toes): • Rotation of the spine becomes more prominent. • Hump(bulge) in the back • One shoulder blade is more prominent than other is • In some cases there are back pain, fatigue and dyspnea

26. Scoliosis: Management • Non-surgical management aimed to : • promoting self-esteem and positive body image • maintain spinal stability • prevent further progression of deformity until bone growth is complete and surgical repair can be performed • mild cases (less than 20%), observation and exercises- swimming is advised & Long-term monitoring. • Moderate (20-40%), exercises, traction, bracing. Bracing (Milwaukee brace) is successful in halting or slowing the progression of curvatures • Severe (more than 40%), bracing until the skeletal system mature and then surgical intervention • Surgery includes realignment and straightening of the spine with internal fixation

27. Developmental/congenital hip dysplasia/dislocation (DDH/CHD) • Improper formation and function of the hip socket. • Cause of DDH is unknown, but there are predisposing factors such as: • Genetic factors & birth order • Physiologic factors: maternal hormone • Mechanical factors: intrauterine position (breech), oligohydraminos, twining and fetus size, delivery type, postnatal positioning • DDH occurs more commonly in females.

28. DDH/CHD: Degrees • Acetabular dysplasia (or preluxation) • Subluxation • Dislocation

29. DDH/CHD: Degrees • Acetabular dysplasia (or preluxation) • The mildest form • The femoral head remains in the acetabulum

30. DDH/CHD: Degrees • Subluxation • Accounts for the largest percentage of DDH. • It implies incomplete dislocation • The femoral head remains in contact with the acetabulum, but a stretched capsule and ligamentum tears cause the head of the femur to be partially displaced. • Dislocation • Femoral head loses contact with the acetabulum and is displaced posteriorly and superiorly over the fibrocartilaginous rim

31. DDH/CHD: diagnosis • Ortolani test • Abduction of the thighs with external rotation. • If the femoral head can be felt to slip forward into the acetabulum on pressure from behind, it is dislocated (positive Ortolani sign) • Sometimes an audible “clunk” can be heard. • Barlow test • Pressure from the front • If the femoral head is felt to slip out over the posterior lip of the acetabulum and immediately slips back in place when pressure is released, there is dislocation or “unstable” (positive Barlow sign)

32. DDH/CHD: diagnosis • Other signs of DDH are: • Shortening of the limb on the affected side (limping and toe walking • Positive Trendelenburg sign or gait) • Asymmetric thigh and gluteal folds • Broadening of the perineum(in bilateral dislocation) • Ultrasounds

33. DDH/CHD: Management • Newborn to six months • Pavlik harness • The harness is used to maintain the infant’s hips in flexion and abduction and external rotation • Pavlik harness device is to be worn continuously. • The child in a Pavlik harness needs special attention to skin care because the infant’s skin is sensitive and the harness may cause irritation. • 6-8 months: • Gradual reduction by traction is used for approximately 3 weeks. • If the hip is not reducible, an open operative reduction is performed. Following reduction the child is placed in a hip spica cast for 2-4 months

34. DDH/CHD: Management • Older child: • Operative reduction • After cast removal and before weight bearing is permitted, range-of-motion exercises & rehabilitative measures • The former practice of double-or triple-diaper for DDH is not recommended because it promotes hip extension, thus worsening proper hip development

35. DDH/CHD: Nursing Diagnosis & Management • Knowledge deficit regarding care of harness or cast • Impaired physical mobility • Risk for impaired skin integrity related to pressure from casts or braces • Risk for altered skin perfusion due to casts or braces • Risk for altered growth and development due to limited mobility • Nursing Management • Compliance with corrective devices by parents • Not removed for bathing • Prevent skin irritation • Cast care & Diaper area • Because DDH may reoccur it is important to follow-up until the child reaches skeletal maturity

36. Congenital clubfoot (Talipes) • Deformity of the ankle and foot • Categories of Talipes • Positional clubfoot (transitional, mild or postural), • may occur from intrauterine crowding • responds to simple stretching and casting. • Syndromic (tetralogic ) clubfoot • associated with other congenital abnormalities such as myelomeningocele, • more severe form of clubfoot that is often resistant to treatment. • Congenital clubfoot (idiopathic ) • has a wide range of rigidity and prognosis

37. Congenital clubfoot: Management • goal of management: is Correction of the deformity & Maintenance of the correction until normal muscle is gained • Management • Casts • begin immediately or shortly after birth and continue until marked overcorrection is reached. • Weekly manipulation and cast changes proceed for the first 6 to 12 weeks of life. • Surgery • If casting and manipulation are not successful • Followed by brace and cast

38. Congenital clubfoot: Management • Nursing Care • Observation of skin and circulation (particularly important in young infants because of their normally rapid growth rate): swelling in the toes, foot temperature • Parents need to understand the diagnosis, the overall treatment program, the importance of regular cast changes

39. Juvenile Rheumatoid Arthritis (JRA) • Is an inflammatory disease of the body joints and sometimes affects blood vessels and connective tissue • Unknown cause but a slight tendency to occur in families • Peak ages : 2 – 5 years and between 9 - 12 years of age • JRA is similar to the adult disease with some distinguishing features • onset before puberty • a negative rheumatoid factor (RF).

40. Juvenile Rheumatoid Arthritis (JRA): Courses • Pauciarticular • Polyarticular • Systemic

41. Juvenile Rheumatoid Arthritis (JRA): Pauciarticular • 4 or fewer joints are affected • The most common form of JRA; about half of all children with JRA have this type • Affects large joints, such as the knees • Girls under age 8 are most likely to develop this type of JRA. • Some children have special kinds of antibodies in the blood. • Antinuclear antibody (ANA) • Rheumatoid factor

42. Juvenile Rheumatoid Arthritis (JRA): Pauciarticular • Eye disease • affects about 20 to 30% of children with pauciarticular JRA • Up to 80% of those with eye disease also test positive for ANA • The disease tends to develop at a particularly early age in these children • Regular examinations by an ophthalmologist are necessary to prevent serious eye problems such as iritis or uveitis • Some children with pauciarticular disease outgrow arthritis by adulthood, although eye problems can continue and joint symptoms may recur in some people

43. Juvenile Rheumatoid Arthritis (JRA): Polyarticular • 30% of all children with JRA have polyarticular disease • 5 or more joints are affected. The small joints (hands and feet) are most commonly involved, though large joints may be affected • symmetrical; that is, it affects the same joint on both sides of the body • Some children have an antibody in their blood called IgM rheumatoid factor (RF) • These children often have a more severe form of the disease

44. Juvenile Rheumatoid Arthritis (JRA): Systemic (Still’s disease) • Joint swelling, & fever and a light skin rash • May also affect internal organs such as the heart, liver, spleen, and lymph nodes • Almost all children with this type of JRA test negative for both RF and ANA • Affects 20% of all children with JRA. A small percentage of these children develop arthritis in many joints and can have severe arthritis that continues into adulthood.

45. Juvenile Rheumatoid Arthritis (JRA): Clinical Manifestations • Joint swelling • Stiffness that typically is worse in the morning or after a nap • Pain may limit/loss movement of the affected joint • Commonly affects the knees and joints in the hands and feet • One of the earliest signs of JRA may be limping in the morning because of an affected knee. • Besides joint symptoms, children with systemic JRA have • A high fever and a light skin rash. The rash and fever may appear and disappear very quickly. • Swelling in the lymph nodes located in the neck and other parts of the body • In some cases (< 50%), internal organs (heart and, very rarely, the lungs) may be involved.

46. Juvenile Rheumatoid Arthritis (JRA): Clinical Manifestations • Eye inflammation • Sometimes occurs in children with pauciarticular JRA. • Not present until some time after a child first develops JRA • Typically, there are periods when the symptoms of JRA are better or disappear (remissions) and times when symptoms are worse (flare-ups). • Growth problems • Depending on the severity of the disease and the joints involved it may cause joints to grow unevenly or to one side. causing one leg or arm to be longer than the other. • Overall growth may also be slowed.

47. Juvenile Rheumatoid Arthritis (JRA): Diagnosis • Diagnosis of JRA is based on: • Age of onset • Arthritis in one or more joints for 6 weeks or longer • Exclusion of other etiologies. • Laboratory tests-- Blood may be taken to test for RF and ANA, and to determine the Erythrocyte Sedimentation Rate (ESR). • positive RF is detected in just 10% of the cases. The RF test helps the doctor tell the difference among the three types of JRA. • ANA is found in the blood more often than RF, and both (ANA & RF) are found in only a small portion of JRA patients. • ESR indicates inflammation in the body. Not all children with active joint inflammation have an elevated ESR. • Lab. tests may include elevated WBCs

48. Juvenile Rheumatoid Arthritis (JRA): Therapeutic Management

49. Juvenile Rheumatoid Arthritis (JRA): Treatment

50. Juvenile Rheumatoid Arthritis (JRA): Side effect of Aspirin