Nursing Care of the Child With Alteration in Mobility/Musculoskeletal Disorder PDF

Summary

This document outlines nursing care for children with musculoskeletal disorders. It covers learning objectives, clinical scenarios, pediatric musculoskeletal differences, and more. It also includes various management strategies for injuries, fractures, and related conditions.

Full Transcript

Nursing Care of
the Child With an
Alteration in
Mobility/
Musculoskeletal
Disorder
NURS 328
Kristen McLaughlin
PhD, RN, CRNP
 Learning Objectives
Compare differences between the anatomy and
physiology of the musculoskeletal systems in children
versus adults.
Describe the psychosocial impact of chronic
musculoskeletal disorders on the growth and
development of children.
Distinguish various musculoskeletal disorders
occurring in childhood.
Identify nursing interventions related to common
musculoskeletal conditions.
Devise an individualized nursing care plan for the child
with a cast or in traction.
 4-year-old male. The parent reports
he seems to be falling often and has
started to have difficulty climbing the
stairs on his own. His mother states,
“Recently he hasn’t been able to keep
up with his 6-year-old sister when
Clinical we’re playing at the park. He usually
ends up sitting on the bench with
Scenario me.” She is concerned about the
changes she has seen in her son.

What additional history is
important to ask?
 Pediatric Musculoskeletal
Differences
Children’s bones
Less dense & more porous than adult bones
Not as strong & fracture more easily
The growth plate /epiphyseal plate
Common place for injury
Can lead to improper growth if not treated correctly
The periosteum of the child’s bone
Thicker with an abundant blood supply
Aids in rapid healing
Adolescents that limit their intake of calories & calcium/Vit D
Risk for stress fractures
MSK Differences
Growth palate=ossified into mature bone periosteum=more blood supply
Growth plate weakest point in child’s bone Malnutrition & obesity= detrimental to health
Fracture before sprain obesity=excess stress on joints,
If growth plate damaged w/ injury infection immobility,decreased movement
Teenagers have all bone stores of calcium by 21
Physiologic Effects
of Immobilization
 Psychologic Effects of Immobilization

Diminished environmental
stimuli Developmental regression
Altered perception of self and
environment Disrupts family function
Increased feelings of
frustration, anxiety Extended periods of immobilization
Depression, anger, aggressive -Logistical management for sick child
behavior -Need for family support and home care assistance
Best goal is to maximize
movement abilities
 Key Nursing
Consideration

Focusing on a
child’s abilities
may enhance his or
her strength to
overcome
anything.
*Maximize
physical abilities*
 Associated Nursing Diagnoses

Imbalanced Urinary retention
Impaired nutrition: less (* with sensory Risk for Self-care deficit
Pain
physical mobility than body motor constipation (specify)
requirements impairment)

Deficient Family
Risk for impaired Risk for delayed
Chronic sorrow Risk for injury knowledge processes,
skin integrity development
(specify) interrupted
 Therapeutic Management of
Injuries
RICE(S)
Rest the injured part
Ice immediately (max 20 min on at a time)
Compression with elastic bandage
Elevation of the extremity
Support (casts or splints as appropriate to injury)

Therapeutic Management of Injuries
Managing swelling=managing pain

Elevate above level of the heart, Picture A
 Fracture
Common injury in children
Methods of treatment are different in children than in adults
Warrants investigation in children under 2 yrs of age (also consider
osteogenic imperfecta)
Distal forearm: the most frequently broken bone in childhood
*Suspicion of fracture in a young child who refuses to walk or bear weight
and xray negative

Fracture
All children under age 2 sent in for skeletal survey
Assessing for signs of bone formations
Investigate reasons why child is falling down stairs
 Diagnostic evaluation
History
Radiographs
Goals of fracture
Diagnosis management
and Reduction and immobilization
Management Restoring function
of Fractures Preventing deformity
Cast/Traction/Brace
Osteogenesis imperfecta
brittle bone disease
Not calcium,phosphorus storage
Abnormal pre-collagen type 1
 Neurovascular Assessment
Pain and point of tenderness
Pallor
Pulse
Paresthesia: sensation distal to the fracture site
Paralysis: movement distal to the fracture site
AND
Increasing Pressure Neurovascular
Assessment
5 P’s Key to assessment
Is pain localized or diffuse?
Pallor: blanch skin at nail bed
Pulse: assess pulses distally to injury
Paresthesia: sensation distal to injury
Paralysis: movement distal to injury
Compartment syndrome
too much blood, muscles can’t expand
Increased pressure
*If patient takes albuterol treatment, they are 1st priority*
 Cast Care
Home
Instructions
 Traction for Fracture
In children, most balanced skeletal traction
is applied to
Allow physiologic stability
Align bone fragments
Enable closer evaluation of the injured site
Newer technology: orthopedic external
fixation devices allow for mobility
 Immobilized Child-Traction

Immobilized Child-
Traction External Fixation
Position change 2 hours
Mark where buttocks
were

Assess respiratory
(incentive spirometer)
Pressure reduction mattresses, Assess ROM
position changes, ROM exercises Assess GI
Braden Q scale Assess according to
bodily system, body
function
 Infections of Bones

Osteomyelitis
Infectious process in the bone
Staphylococcus aureus: the most
common causative organism
Signs/symptoms begin abruptly,
resemble symptoms of arthritis and Infections of Bones
leukemia Localized pain,swelling
Marked leukocytosis Measure circumference of redness, swelling
Bone cultures are obtained from
biopsy or aspirate. Need sensitivity for Markers of inflammation
pharmacologic management ESR (Erythrocyte sedimentation rate)
Radiographs: may appear normal at
first
Care Management of Osteomyelitis

Long-term
Complete bed rest intravenous access
Incision and
and immobility of Pain management if IV antibiotic
drainage
limb- initial period administration; PO
antibiotics

Potential longer-
term
Labs Wound care Psychosocial needs
hospitalization/thera
py
 Developmental Dysplasia of the
Hip (DDH)
DDH
Occurs b/c hip doesn’t fully form and doesn’t push into spine (in utero)
Check neonates with:
Hx breech
Girls Formerly called “congenital hip dysplasia” or “congenital
First-born dislocation of the hip”
Incidence: 1.5 per 1000 live births
DDH Treatment
Girls: more commonly affected
Pavlik harness
Worn for 24 hours a day for 2 months Strong family history
Breech presentation-high risk
DDH Teaching-Pavlik Harness
Check under straps

Bryant’s Traction
For DDH
 Clinical Manifestations
of DDH
Infant
Hip joint laxity
Shortened limb on the affected side (C)
Restricted abduction of hip on affected side
(B)
Unequal thigh folds when infant prone (A)
Positive Ortolani test result (clunk felt)
Positive Barlow test result (clunk felt)
Therapeutic Management of DDH
Pavlik harness: worn 24 hours/day
 Bryant’s Traction
Modified extension traction with the body
as a counterweight
Skin traction: 75- 90 degrees hip
flexion
Risk of circulatory insufficiency
Nursing care
Hips suspended
Neurovascular assessment
Safety (ex. eating) Bryant’s Traction
For DDH

Nursing Considerations-Bryant’s Traction
Be mindful of eating while supine
Clubfoot (Talipes equinovarus)
Clubfoot
Abnormal development of bones, muscles, tendons
Genetic relation
 Therapeutic Management of
Clubfoot
Three stages
Correction of the deformity
Maintenance of the correction until normal muscle balance is
regained
Follow-up to avert possible recurrence
Ponseti method (serial casting)
Serial Casting
Weekly casting with position changes to stretch shortened muscles
Patient comes in frequently
Begins the first week of life (dx’ed in utero or at birth)
 Scoliosis

Most common spinal deformity
Complex spinal deformity in three planes
Lateral curvature
Spinal rotation, causing rib asymmetry

May be congenital or develop during childhood

Scoliosis
Assessed using Adam’s bend forward test
Maintain eye level when assessing
For nurse description, say “ prominent right asymmetrical scapula

Patient maintains 6 hours out of brace
 Diagnostic Evaluation of
Spinal Curvatures
Standing radiographs to determine degree
of curvature
Asymmetry of shoulder height, scapular or
flank shape, or hip height
In addition to the primary curve, a
Adam’s forward bend test compensatory curve is often present to
align the head with the gluteal cleft
What is wrong in this picture?
 Therapeutic Management of Spinal Curvatures

Team approach to treatment (orthotist, PT)
Bracing (xray 25-50 degrees) until growth cessation
How do you know when this occurs?

Surgical intervention for severe curvature (50 degrees)
Instrumentation and fusion of vertebrae

Care Management of Spinal Curvatures
Monitor hemoglobins b/c bleeding risk (CBC)
Monitor CNS/Neurological effects
Monitor I & O
Care Management
of Spinal
Curvatures
Psychosocial
Preoperative care
Postoperative care
Blood loss (?labs)
Neuro assessment
Log rolling
Family issues
 Duchenne Muscular
Dystrophy

The most severe and most common
of muscular dystrophy in childhood
X-linked inheritance pattern; one-
third of cases result from fresh
mutations
Incidence: 1 per 3500-5000 male
births
Duchenne Muscular Dystrophy No higher risk for any ethnic group
Affects males
Waddling gait
Muscles replaced w/ fat
Progressive condition
Cognitive impairment
Gower’s sign
Life expectancy in 20’s age group
 Clinical Manifestations of
Duchenne Muscular Dystrophy
Waddling gait, frequent falls, Gower sign
Lordosis
Enlarged muscles, especially in the thighs
and upper arms
Profound muscular atrophy in later stages
Mild to moderate cognitive impairment
Obesity-related to immobility
Gower’s
Sign
Therapeutic Management of Duchenne Muscular Dystrophy

No effective treatment established
Primary goal: maintain function in unaffected muscles as long as possible
Keep child as active as possible
Range-of-motion exercises, bracing, performance of activities of daily living, surgical release of
contractures as needed
Genetic counseling for family
Multidisciplinary team helps child and family cope with chronic, progressive,
debilitating disease
Design program to foster independence and activity as long as possible
 Cerebral Palsy
(CP)
Nonprogressive disorder of motor function
Classifications
Spastic: muscle hypertonicity,
postural difficulty, impaired gross &
fine motor skills. Drooling and
dysarthria present.
Dyskinetic: abnormal involuntary
motion, athetosis
Ataxic: poor coordination, balance,
control of upper extremities, wide
gait.
Mixed types
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 Delayed gross motor development
Abnormal motor skills
– Asymmetry
– Early handedness
– Feeding/swallowing problems
– Persistent toe-walking
Clinical Altered muscle tone
Manifestations: – Hypotonia, hypertonia
Cerebral Palsy – Scissoring
Persistence of primitive reflexes
Associated abnormalities of
cognition, seizures, hearing &
vision
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Hemipleg
ia, Toe
Walking

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Nursing Implications:
Cerebral Palsy
Coordinate multiple therapies
Gentle handling & positioning;
braces
Nutrition (increased caloric need)
Self-care skills *goal is
independence
Educational & social opportunities
Family support
United Cerebral Palsy Association:
www.ucpa.org
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