MSK System,injuries,Arthritis and MSK Disorders S24 - STUDENT.pptx

Transcript

Musculoskeletal
System Review of
Relevant
Components and
Disorders
PHAR8000
Course Objectives
In this class, the following objectives will be
covered
2.0 – Musculoskeletal System Disorders
Musculo-skeletal system
The skeleton
Bones
Joints
Soft Tissues
Skeletal muscles
Tendons
Ligaments

(Zettel, 2023)
Elements of Bone Tissue
Bone cell types include:
◦Osteoblasts-the primary bone-producing cells; once this
job is complete, they become osteocytes, trapped in the
bone matrix
◦Osteoclasts- resorb (remove) bone during growth and / or
repair
◦Osteocytes- old osteoblasts that are trapped in matrix and
maintain bone homeostasis (balancing new bone growth
with destruction of old)

(Zettel, 2023)
Compact and Spongy Bone
Matrix

Made of extracellular elements of
bone tissue such as
Collagen fibres
Structural proteins
Carbohydrate protein complexes
Ground substances
Minerals
The basic unit in bone is the
Haversian system.
Components of Long
Bones
Epiphyseal disc- also called the ‘growth plate’, a band of hyaline
cartilage near both ends
Periosteum- covers the outside of the diaphysis for protection; also
contains blood vessels
Articular cartilage- outer surface of epiphysis; decreases friction in
joints

(Zettel, 2023)
Long bone
Diaphysis
Metaphysis
Epiphysis
-Epiphyseal plate
Medullary (marrow) cavity
Endosteum
Periosteum

(Zettel, 2023)
Synovial Cavity
and Fluid
Cavity: an enclosed, fluid-filled space
between articulating surfaces of two bones
o enables two surfaces to glide against one
another with little friction
o Fluid: filtered plasma fnourishes articular
cartilage
o covers ends of bones
o contains hyaluronic acid which offer
biomechanical properties (maintains fluid
viscosity and integrity of the joint)
o contains leukocytes rom blood vessels that
lubricates joint surfaces
o and phagocytes to manage debris

(Zettel, 2023)
Cartilage and Bursae
Articular cartilage covers the ends of each bone
oreduces friction in the joint and distributes weight-bearing forces
ocomposed of chondrocytes and intercellular matrix

Bursae are small sacs lined with synovial membrane and filled with
synovial fluid
olocated between bony prominences and soft tissues (tendons,
muscles and ligaments)
omay be natural (from birth) or ‘adventitious’ as a result of chronic
friction and degeneration of fibrous tissue between adjacent
structures) (Zettel, 2023)
oseparates, lubricates and cushions adjacent structures
Tendons and Ligaments
Tendons Ligaments
Strong bands of connective tissue Strong bands of tissue that attach
that attach muscle to bone bone to bone

(Zettel, 2023)
MSK System

(Tyerman et al., 2023, p.
Diagnostic Studies of the
MSK System
Radiography (X-ray, CT, MRI, arthrography, discography)
Bone mineral density studies (DEXA and ultrasound)
Bone scan using radioisotopes
Arthroscopy
Lab studies (calcium, phosphate, rheumatoid factor, ANA, C-
reactive protein, uric acid, HLA, enzymes)
Invasive procedures (arthrocentesis, EMG, somatosensory
evoked potentials)
(Zettel, 2023)
Musculoskeletal
Injuries
Tendon and Ligament
Review
Muscle is attached to bone by a tendon
Ligaments attach two bones together
Tendons and ligaments have limited perfusion and heal slowly

(Zettel, 2023)
Types of Injuries to MSK
System
Sprain
Strain
Dislocation
Subluxation
Fractures

(Zettel, 2023)
Sprains and Strains
Tear in ligament is a sprain
Tear in tendon is a strain
Damaged by trauma to a joint
If completely separated from the bone (avulsion)
Manifestations of inflammation appear

(Tyerman et al., 2023
Clinical Manifestations
Pain
Edema
Decrease in function
Bruising
Pain

(Tyerman et al., 2023
Healing of Sprains / Strains
Begins with inflammation
Granulation tissue develops at the site
Formation of collagen fibres link bone to
tendon/ligament
Fibrous tissue formation completes the
healing
Mild sprains and strains are usually self-
limiting, with full function returning within 3
to 6 weeks.
If severe, surgery may be required
(Tyerman et al., 2023
Nursing Management
Health Promotion
Warm up before exercise
Stretching
Balance exercises and strengthening exercises to prevent falls
Min 150 minutes of exercise a week
Acute
RICE (rest, ice, compression, elevation)
Home Care
Patient should use ice and elevate for 24-48-hrs after injury
Use mild analgetic
Elastic bandage to provide extra support
(Tyerman et al., 2023
Proper strengthening and condition to prevent re-injury
Dislocation
A severe injury of the ligaments that
results in the complete displacement
of the bone from its normal position
Causes tissue damage
Deformity is obvious
Manifestations include pain, decreased
movement, swelling
Should be realigned ASAP to avoid
avascular necrosis of the bone

(Tyerman et al., 2023
Subluxation
A partial or incomplete
displacement of the joint surface
Less severe than dislocation but
treated the same way
Realignment (open or closed),
followed by immobilization of
the joint through braces or
splints and physiotherapy

(Tyerman et al., 2023
Clinical Manifestations &
Nursing Interventions
CLINICAL MANIFESTATIONS NURSING INTERVENTIONS

Deformity Needs prompt attention to avoid
avascular necrosis (AVN) and
Local pain/tenderness
compartment syndrome
Loss of function to injured area The dislocated joint needs to be
Swelling of the soft tissue aligned (closed reduction) – by a
physician under anesthetic or
sedation
Nursing management is directed at
pain relief and support and protection
of the injured joint
(Tyerman et al., 2023
Repetitive Strain Injury
Affects muscles, tendons and nerves
Repetition decreases perfusion to the area and
damages soft tissue
Causes pain, weakness and numbness
e.g. tendinitis, carpal tunnel syndrome
Treated with cold or heat, NSAIDs and
physiotherapy and / or surgery

(Zettel, 2023)
Common Diagnostic Tests
X-ray, CT, MRI demonstrate images
Arthrogram uses radiopaque dye or air to view
joints
Arthroscopy allows internal viewing of a joint using
a scope

(Zettel, 2023)
Fractures
A break in the continuity of bone
Other structures often affected
Hemorrhage, edema, dislocations, ruptured tendons,
severed nerves, damaged blood vessels and organ injury

(Zettel, 2023)
 Classifications
Traumatic- majority
Pathological (e.g. osteoporosis, metastasis)
Further classified according to stability, completeness,
communicating or non-communicating with environment, number
and location

(Zettel, 2023)
Traumatic
Fracture
BOXER’S FRACTURE
Pathological Fractures
Osteoporosis- Carcinoma-
related related

(Zettel, 2023)
Fractures- Stable vs.
Unstable

Stable - some periosteum is Unstable - grossly
intact across the fracture but displaced and in poor
fragments are stationary fixation (Zettel, 2023)
Types of Fractures
Complete - entire cross-section of bone involved; two
pieces
Incomplete - a portion of the cross-section of bone is
involved.
Open - break in the skin and soft tissue leads to the
fracture; also called a ‘compound’ fracture
Closed- fracture doesn’t communicate with the
environment.
(Zettel, 2023)
Complete (Scaphoid Wrist) Fracture

Incomplete (Greenstick)
Fracture
Closed
Simple and Multiple
(Comminuted) Fractures

Simple fracture - a single
break in the bone

(Zettel, 2023)
Compound Comminuted
Fracture

Multiple or comminuted
fracture
multiple fractures and
fragments

(Zettel, 2023)
 Patterns of Fracture

Tranverse
Fracture occurs straight Fracture twists across the
Greenstick: across the bone shaft of the bone
Fracture occurs at an
One side of the bone is
broken, and the other angle across the bone.
side is bent (Zettel, 2023)
 Patterns of
Fracture

Displaced Fracture
Depressed Fracture
Fracture fragments are
in driven. Commonly Interarticular Fracture
seen with skull and facial Fracture extends to the
fractures articular surface of the bone

(Zettel, 2023)
 Patterns of
Fracture

Stress Facture
Occurs in normal or Pott’s Fracture
Colles’ Fracture
abnormal bone that is Fracture of the lower fibula
Also referred to as a ‘dinner
subject to repeated due to excessive stress on
fork’ fracture. Break in the
stress (often in runners) the ankle; sometimes occurs
distal radius at the wrist, when stepping off the curb
usually caused by trying to
break a fall
(Zettel, 2023)
Clinical Manifestations
Pain at site of injury (maybe from spasm)
Swelling (disruption of soft tissues)
Tenderness
Crepitus (bones grate together)
Deformity
Ecchymosis (bleeding into soft tissue)
Paresthesia (compression on nerves)

(Zettel, 2023)
Assessment
Inspection
Palpation
X-ray (will demonstrate fracture that is not obvious)
Lab values (note Hgb)
History of accident
Observe the region distal to the extremity

(Zettel, 2023)
Neurovascular Assessment
Neurovascular assessment (nerve or vessel damage can
occur)
Consider the five ‘P’s’:

1. Pain
2. Pulses
3. Pallor
4. Paresthesia
5. Paralysis
(Zettel, 2023)
Stages of
Bone Healing
A. Hematoma formation
B. Granulation tissue formation
C. Procallus
D. Bony callus
E. Remodelling

(Zettel, 2023, p.
967)
Time to Heal
Varies with age, displacement of fracture, site and perfusion
May have delayed union or nonunion of fragments
Healing is delayed if the area is not immobilized, there is
excess movement, infection and poor nutrition
Electric current sometimes used to stimulate cell activity to
speed healing in delayed union

(Zettel, 2023, p.
967)
Musculoskeletal
Disorders:
Osteoarthritis and
Rheumatoid
Arthritis
Types of musculoskeletal
disorders
DEGENERATIVE AUTOIMMUNE
‘Wear and tear’ Immune system fails to
Slow progression of distinguish between ‘self’ and
destructive changes ‘non-self’ antigens and
develops autoantibodies
e.g. osteoarthritis, TMJ
e.g. Systemic Lupus
disorder
Erythematosus, Rheumatic
Fever, Myaesthenia Gravis,
Scleroderma
(Zettel, 2023, p.
967)
 Osteoarthritis

◦

◦

(Zettel, 2023)
Pathophysiology
Wear and tear causes erosion of cartilage, with loss of elasticity
Cartilage is rough; less space between joints
Release of enzymes from cells accelerates degeneration
Bone growth increases at joint margins (bony spurs)
Bone and cartilage pieces break off into synovial cavity
Secondary inflammation and reduction in movement
Local effects

(Zettel, 2023)
Clinical Manifestations
Restricted to the joints; unilateral or bilateral
Aching pain with weight-bearing and movement
Later, pain at rest
Affected by weather
Limitation in movement with atrophy of muscles
Stiffness with immobility
Enlargement of joints with the development of osteophytes
Crepitus
Bow-legged appearance when knees involved (Zettel, 2023)
Heberden’s Nodules and
Bouchard’s Nodes

Bouchard’s
Node
Bouchard’s
Node
Heberde
n’s
Nodule
Hip Joint Osteoarthritis
OA of the Knee
Pharmacologic
Management of Pain
and Inflammation
Goals:
Manage pain and inflammation
Prevent disability
Maintain joint function

(Tyerman et al., 2023
Complete the Standard
Learning Outcome for the
following medications
Glucosamine
Chondroitin forms
Capsaicin cream
Sodium Hyaluronate
 Rheumatoid Arthritis

o

o

o

o

o

(Tyerman et al., 2023
Pathogene
sis of
Rheumatoi
d Arthritis
Autoimmunity
Antigen causes the formation of abnormal IgG
Autoantibodies (rheumatoid factors) combine with IgG
to form complexes that deposit in joints
Inflammation leads to swelling, redness and pain
(synovitis)
RF is found in most people with RA
Moves through stages, from early to terminal

(Zettel, 2023)
 Stages of Rheumatoid
Arthritis Development
1. Early- swelling of the synovial joint with the production of excess
synovial fluid

2. Moderate-inflammatory granulation tissue (pannus) forms at the
juncture of synovium and cartilage, releasing damaging enzymes and
invading the joint capsule and bone; cartilage is eroded
no joint deformity yet; some soft tissue lesions

3. Severe- tough fibrous tissue occludes joint space with loss of range
of motion; bones out of alignment
cartilage and bone destruction evident on x-ray, along with
osteoporosis, deformity, muscle atrophy, and tissue lesions
4. Terminal- fibrous tissue calcifies with joint immobilization (Zettel, 2023)
Synovial Changes in
Rheumatoid Arthritis
Clinical Manifestations
Usually insidious (although up to 15% of cases have
acute onset)
Systemic manifestation of inflammation (fever,
fatigue, weakness anorexia, weight loss)
Aching and tenderness of joints
Redness and swelling
Symmetrical pattern
Joint stiffness after immobility
Impairment of joint movement
Worsening of systemic signs during exacerbations (Zettel, 2023)
Swan Neck Deformity

RA of the
hand.
 Management of
Rheumatoid Arthritis
Early aggressive therapy

Control inflammation and pain
o balance of rest and activity
o physical and occupational therapy (splints and assistive devices)
o heat and cold application
o balanced nutrition
o surgery
o pharmacotherapy
(Tyerman et al., 2023
Complete the Standard
Learning Outcomes for the
following medications
Capsaicin topical cream
Disease-Modifying Antirheumatic Drugs (DMARDs)
Tramadol
Hyaluronate
Glucocorticoids (prednisone)
Osteoporosis
Osteoporosis
Loss of bone mass and density
Deterioration of bone matrix and
mineralization
Bones become susceptible to
fracture
“a systemic skeletal disease
characterized by low bone density
and microarchitectural
deterioration of bone tissue with a
consequent increase in bone
(Tyerman et al., 2023
fragility.”
Facts about osteoporosis
Common among the elderly, but is NOT a normal process of
aging
Bone density is maintained by plasma calcium and
phosphorus concentrations (a function of the endocrine
system) and peaks at age 30
Disease may be generalized, involving a major portion of the
axial skeleton or regional, involving one aspect of the
appendicular skeleton
Common among post-menopausal women
Costly to the health care system
(Tyerman et al., 2023
Risk Factors
Age- osteoblasts are less effective
Post menopause- estrogen deficiency
Decreased mobility- mechanical stress on bone is required
for osteoblastic activity
Genetics- vitamin D receptor gene is linked to bone
density
Calcium and vitamin D deficit
Smoking
Eating disorders
Small frame
Excessive caffeine intake (Tyerman et al., 2023
 Why are women more
susceptible?
Less intake of calcium
Smaller frame = less bone mass
Resorption of bone occurs earlier and faster than bone
deposition
Pregnancy and lactation depletes calcium stores
Women still live longer than men

(Tyerman et al., 2023
Pathophysiology of
osteoporosis
Peak bone mass is achieved by age 30
Bone mass is affected by genetics, diet, activity and hormones
Bone loss begins around the 4th decade
At menopause, the rate of loss increases
oestrogen is thought to limit the lifespan of osteoclasts
Pathophysiology
Recall that:
Osteoblasts deposit bone
Osteoclasts resorb bone
Balance is essential to prevent loss
When resorption exceeds deposition, bone loss occurs
Common in the cancellous bone of the spine, hips and wrists
Insidious onset
Glucocorticoids and
osteoporosis
Improve osteoclast survival
Inhibit osteoblast formation and function
Increase osteocyte apoptosis
Results in decreased thickness of bone and thinner and more
widely spaced trabeculae in the marrow

(Tyerman et al., 2023
Clinical manifestations
Asymptomatic in early stage; may not be evident till a fracture
occurs
Back pain
Change in posture (wedging and vertebral fractures cause a
decrease in height and a ‘humped back’ appearance)
Kyphosis and scoliosis
Spontaneous or minimal trauma fractures

(Tyerman et al., 2023
Spine
Curvatures in
Osteoporosis
Diagnostics
X-ray isn’t valuable until disease progresses
Bone mineral density test (BMD)
Dual energy x-ray absorptiometry (DEXA) helps with
diagnosis and serial monitoring
Information from DEXA is enhanced by trabecular bone
scoring, which evaluates variations in lumbar spine images
from DEXA scans

(Tyerman et al., 2023
Standard Learning
Outcomes
Complete the Standard Learning Outcomes for the following medications
Selective estrogen receptor modifiers (ie Raloxifene)
Calcitonin
Calcium
Vitamin D
Fluoride Supplements
Denosumab
Human parathyroid hormone
Biophosphates
◦ alendronate (Fosamax)
◦ etidronate (Didronel)
◦ risedronate (Actonel)
Non-Pharmacological
management of
osteoporosis
Weight-bearing exercise
Surgery- to reduce kyphosis and realign vertebral column

(Tyerman et al., 2023
Nursing Considerations
NURSING BIPHOSPHONATES
CONSIDERATIONS
establish baseline bone density data address any calcium or vit D
deficiency
periodic BMD testing
baseline bone density data
monitor for signs of thrombus
formation contraindicated in renal disease
supplement with calcium and vit D take on empty stomach, with water,
and sit up for 30 min for absorption
exercise
eat calcium-rich foods (except for
those on etidronate)
weight-bearing exercise
(Tyerman et al., 2023
References
Tyerman, J., Cobbett, S.L. & Harding, M.M. (2023). Lewis’s
Medical-Surgical Nursing in Canada: Assessment and
Management of Clinical Problems (5th Ed.). Toronto, Canada:
Elsevier.
VanMeter, K.C., & Hubert. R.J. (2014). Gould’s
Pathophysiology for the Health Professions, (5th ed). St. Louis,
United States of America: Elsevier.
Toufic El-Hussein, M., Power-Kean, K., Zettel, S. Understanding
Pathophysiology (2nd Cnd). Elsevier Canada. 2023