week 12 musculoskeletal function

Question 1

what is a fracture

Answer 1

-occurs when force applied exceeding tensile or compressive strength of bone

Question 2

fracture incidence

Answer 2

• varies depending on bone involved, age, gender
• highest incidence of fractures occurs in young males age 15-24 and in adults 65 yrs and older
• rates of hip and wrist fractures tend to be higher in women

Question 3

what is a complete fracture?

Answer 3

bone broken all the way through

Question 4

what is an incomplete fracture

Answer 4

bone damaged but still in one piece

Question 5

what is a closed or simple (complete or incomplete) fracture

Answer 5

-skin is intact

Question 6

what is a open or compound (complete or incomplete)

Answer 6

-skin broken

Question 7

what is a comminuted fracture

Answer 7

-bone breaks into more than two fragments

Question 8

what is a linear fracture

Answer 8

-fracture runs parallel to long axis of bone

Question 9

what is an oblique fracture

Answer 9

-fracture of shaft of bone is slanted

hidden fracture- we can’t see it

Question 10

risk factors for fractures- paediatric population

Answer 10

-bone mineral content, bone size, bone accrual all lower low bone mineral density (BMD)
-genetic factors
-poor nutrition
inadequate intake of dietary calcium, milk avoidance, excessive consumption of carbonated beverages
-lack of weight-bearing physical activity
-obesity
-play and sport (exposure to trauma)

Question 11

risk factors or fractures -older adults

Answer 11

• age
• gender
• osteoporosis (fragility fracture)
• smoking
• alcohol
• steroids
• diabetes
• previous fracture

Question 12

what is the etiology of fractures?

Answer 12

are most commonly caused by falls, car accidents, and athletic injuries

Question 13

pathophysiology of fractures

Answer 13

-When bone broken
disrupts periosteum and blood vessels in cortex, marrow, surrounding soft tissues
-Bleeding occurs from damaged ends of bone and from neighboring soft tissue
-Hematoma forms within medullary canal, between fractured ends of bone, and beneath periosteum
-Bone tissue immediately adjacent to fracture dies
-Necrotic tissue and any debris in fracture area stimulate intense inflammatory response
characterized by vasodilation, exudation of plasma and leukocytes, and infiltration by inflammatory leukocytes and mast cells
-Cytokines, including transforming growth factor-beta (TGF-_), platelet-derived growth factor (PDGF), prostaglandins, and other factors are released
promote healing
-Within 48 hours after injury
vascular tissue invades fracture area from surrounding soft tissue and marrow cavity
blood flow to entire bone is increased
-Osteoblasts and osteoclasts in periosteum, endosteum, and marrow are activated
produce subperiosteal procallus along outer surface of shaft and over broken ends of bone

Question 14

true or false- after a fracture it will heal with normal tissue and no scar tissue?

Answer 14

true

Question 15

inflammatory phase with healing in a fracture

Answer 15

• last 3-4 days
• bone tissue destruction triggers inflammatory response
• hematoma formation

Question 16

repair phase with healing in a fracture

Answer 16

• last several days
• capillary ingrowth, monocular cells, and fibroblasts transform hematoma into granulation tissue
• osteoblast w/in pro callus synthesize collagen and matrix to form callus

Question 17

remodelling phase in a fracture

Answer 17

• last months to years
• unnecessary callus
• is resorbed and trabecular formed
• at the end, bone can w/stand normal stress
• some people like diabetics never get to this stage =amputation or we put a rod in the bone to secure it for weight baring

Question 18

what are the manifestations of fractures?

Answer 18

• vary according to type and site of fracture, soft tissue injury
• impaired function
• unnatural alignment
• swelling
• muscle spams
• tenderness
• impaired sensation (numbness)
• pain
• fractures usually caused by trauma
• immediate, often severe pain at site of injury occurs
• subsequent pain produced by muscle spasm, overriding of fracture segments, damage to adjacent soft tissues

Question 19

what are the complications of fractures?

Answer 19

improper reduction or immobilization of fractured bone may result in nonunion, delayed union, or malunion
-Broken bone can damage surrounding tissue, periosteum, and blood vessels in cortex and marrow
-Dislocation and subluxation are most common in persons younger than 20 years
usually associated with fractures

Question 20

what is nonunion?

Answer 20

failure of bone ends to grow together -this is our biggest fear- not as common in peds but common in diabetics
-gap between broken ends of bone fills with dense fibrous and fibrocartilaginous tissue instead of new bone

Question 21

what is delayed union?

Answer 21

union that does not occur until approximately 8-9 months after a fracture

Question 22

what is malunion?

Answer 22

healing of bone in nonanatomic position

Question 23

age-related complications -paediatrics

Answer 23

-growth plates vulnerable to fracture
-can result in shorter or crooked limb
-we worry about this age group the most bc they are still growing
-growth plates- open space bone on top of bone-hard to see a fracture in this area
we treat peds clinically- we don’t need an x-ray bc this age group between 0-6 don’t know how to lie about pain

Question 24

age-related complications- older adults

Answer 24

• increased morality, pain, disability, depression and loss of independence
• high risk of morbidity and mortality after osteoporotic fracture

Question 25

treatment for fractures

Answer 25

• closed manipulation, traction (skeletal or skin), open reduction, internal fixation, external fixation
• Splints, casts
• treatment of delayed union and nonunion fractures
• use of various methods designed to stimulate new bone formation

Question 26

what is osteoporosis?

Answer 26

-complex, multifactorial chronic disease than often progresses silently for decades until fractures occur
-low bone mineral density (BMD), impaired structural integrity of bone, decreased bone strength, risk of fracture
-those w/ lowest BMD are most at risk for fractures
-old bone reabsorbed faster than new bone being made
-bones loss density–> become thinner and more porous
-may continue until skeleton no longer strong enough to support itself
-bones fracture spontaneously or fracture from falls or bums that would have not previously have caused fracture
the bone is breaking down but it is not building more

Question 27

statistics with osteoporosis

Answer 27

-at approx age 30
-bone resorption slowly exceeds bone formation
-osteoporosis is most common in women at a rate of 1 in 2 women
-bone loss beings before menopause
-most rapid in 1st years after menopause
-persist throughout postmenopausal years
-bc estrogen breaks down bone- after menopause –> inhibits osteoclast
-men are also at risk -1 in 4 men experience osteoporosis-related fractures
-adults older than 50 years
-prevalence in spine or femoral neck
3% to 10% in men
7% to 35% in women

Question 28

what are the risk factors for osteoporosis?

Answer 28

• Post menopause
• Family hx of osteoporosis and age over 60 years
• Caucasian or Asian descent
• Testosterone deficiency
• Inadequate intake of vitamin D or calcium
• Tobacco use
• High alcohol or caffeine consumption
• Anorexia nervosa
• Physical inactivity
• Drugs that lower serum calcium levels

Question 29

what is the etiology of osteoporosis? primary/idiopathic (most common)

Answer 29

-age-associated
aging skeleton and calcium deficiency
-postmenopausal
estrogen deficiency

Question 30

etiology of osteoporosis- secondary osteoporosis

Answer 30

-endocrine diseases
hormone imbalances, diabetes, -hyperparathyroidism, hyperthyroidism
drugs
heparin, corticosteroids - glucocorticoids, phenytoin, -barbiturates, lithium
-other substances
tobacco
alcohol

Question 31

Calcium Metabolism in Osteoporosis

Answer 31

• Osteoporosis develops when remodeling cycle—the process of bone resorption and bone formation—is disrupted
• Bone demineralization leads to decreased bone density (porous bones)

Question 32

pathophysiology of osteoporosis

Answer 32

-Role of oxidative stress
when excess ROSs accumulate
oxidative stress occurs
results in loss of bone mass and bone strength
-Osteoclast differentiation pathway
directed by series of processes
proliferation, differentiation, fusion, activation
processes controlled by hormones, cytokines, and paracrine stromal-cell microenvironment interactions
-OPG/RANKL/RANK System
IL-1, IL-4, IL-6, IL-7, IL-11, IL-17, tumor necrosis factor-alpha (TNF-_), transforming growth factor-beta (TGF-_), prostaglandin E2, and hormones interact to control osteoclasts
normal bone homeostasis is dependent on balance between the cytokine receptor activator of RANKL, its receptor RANK, and its decoy receptor osteoprotegerin (OPG)

Question 33

OPG/RANKL/RANK System

Answer 33

-RANKL
cytokine that activates receptor RANK, which is expressed on osteoclasts and their precursors
suppresses apoptosis, which leads to activation and prolongation of osteoclast survival
so…RANKL promotes antiapoptotic effects on osteoclasts → increases life span

-RANKL is blocked by OPG
OPG is a glycoprotein acting as an antagonist (decoy receptor) for RANKL
prevents RANKL from binding and activating RANK receptor on osteoclasts and their precursors

-Some examples
estrogen stimulates OPG secretion and down-regulates RANKL
RANKL expression increased when estrogen levels are decreased (menopause)
increased formation of osteoclasts while reducing osteoclast apoptosis
glucocorticoid induced osteoporosis
glucocorticoids increase RANKL expression and inhibit OPG production by osteoblasts
use of immunosuppressive drugs to reduce rejection of transplanted organs
alters OPG/RANKL/RANK system and can lead to post transplantation osteoporosis

Question 34

OPG/RANKL/RANK System (pt 2)

Alterations of OPG/RANKL/RANK system can lead to osteoporosis

Answer 34

A: SKELETAL SYSTEM - promotes osteoclast differentiation and activation and cytoskeletal reorganization and survival that increase resorption and bone loss

B: IMMUNE SYSTEM - enhances bone loss that occurs in inflammatory bone diseases

C: VASCULAR SYSTEM - physiologic significance of the OPG/RANKL/RANK system in endothelial and smooth muscle cells being studied

Question 35

what are the manifestations of osteoporosis?

Answer 35

-Depend on bones involved

-Fractures
-trabeculae of spongy bone become thin and sparse
-compact bone becomes porous
-fractures of long bones (femur, humerus), distal radius, ribs, vertebrae most common
-most serious are hip fractures
because of resultant chronic pain, disability, diminished quality of life, premature death

-Pain
with fragility fracture

• As bones lose volume, become brittle and weak, may collapse or become misshapen (bone deformity)
• vertebral collapse causes kyphosis (hunchback), reduced pulmonary function, diminished height

Question 36

what are the complications of osteoporosis?

Answer 36

fatal complications of osteoporotic fractures include: fat or pulmonary embolism, hemorrhage, shock
aprox 20% of person w/ hip fracture die from surgical complications

Question 37

Evaluation and Diagnostics for Osteoporosis

Answer 37

-Osteoporosis is asymptomatic unless fracture occurs
so, diagnosis often delayed
by time abnormalities detected by x-ray
25% to 30% of bone may be gone

Question 38

Dual x-ray absorptiometry (DXA) estimates bone density

Answer 38

but, DXA does not provide info about bone strength or fracture risk
online tool called Fracture Risk Assessment (FRAX)
predicts 10-year probability of fracture

Question 39

other evaluation procedures

Answer 39

-Computed Tomography (CT) scans
-serum calcium, phosphorus, alkaline phosphatase, protein electrophoresis
-body calcium levels also measured by neuron activation analysis
use of radioactive calcium-49, whose gamma activity can be measured with whole-body counter

Question 40

prevention and treatment of osteoporosis

Answer 40

-Prevention of osteoporosis vital
But tx more common and focused on preventing fractures and maintaining optimal bone function

-Prevention
regular moderate weightbearing exercises
calcium intake sufficient to maintain normal calcium balance during adolescence
sufficient intake of magnesium

-Treatment
bisphosphonates
estrogen
diet

Question 41

dietary requirements for osteoporosis

Answer 41

• Role of calcium intake to prevent and treat osteoporosis is controversial
• Diets higher in fruit and vegetable → higher BMD

-Other nutrients have positive impact on bone health
vitamin K2, docosahexaenoic acid or DHA (from purified fish oil)
magnesium
-required for normal calcium absorption as severe magnesium deficiency results in hypocalcemia
-helps prevent brittle bones

Question 42

Bisphosphonates: Alendronate

Answer 42

MOA-Natural substance that inhibits bone resorption
improves osteoblast and osteocyte survival while suppressing osteoclast activity
-inhibits osteoclast acitivy
-shifts balance towards bone deposition

-Increases bone density thus reducing incidence of fractures by approx. 50%
highly effective in reducing vertebral and nonvertebral osteoporotic fractures

-most common drug class

Question 43

Bisphosphonates: Alendronate -therapeutic effects

Answer 43

• decreases rate of bone resorption

- strengthens bone by slowing bone resorption

Question 44

Bisphosphonates: Alendronate -Adverse effects

Answer 44

N/V, diarrhea, esophageal ulceration, acid reflux, esophageal perforation, esophageal cancer
osteonecrosis of jaw
risk of atypical femoral fractures

Question 45

what is Osteoarthritis?

Answer 45

-Wear and tear of the cartilage of weight-bearing joints, including knees, hips, and spine and frequently used joints like the hands
-Degenerative, age-onset disease characterized by destruction of cartilage at articular joint surfaces
AKA degenerative joint disease
-Common age-related disorder of synovial joints
weight-bearing joints i.e. knee, vertebral column, hip
hands because they are frequently used
-Second most common cause of disability in Canada
affects between 3 to 4 million persons

Question 46

what are the risk factors for OA?

Answer 46

• Age
• More common in women than men older than 50

-Drugs can stimulate collagen-digesting enzyme activity in synovial membrane
colchicine, indomethacin, steroids

-Abnormal knee alignment
varus or valgus disorders of knee more than 5 degrees assoc. with increased risk

Question 47

Etiology of OA- primary- idiopathic

Answer 47

• most common type

- no known cause (but is associated with increasing age)

Question 48

Etiology of OA- secondary

Answer 48

• trauma
• mechanical stress
• inflammation of joint structures
• neurological disorders
• certain drugs
• joint instability
• excessive weight
• decreased estrogen in menopausal women
• excessive growth hormone
• increased PTH

Question 49

Is OA a Noninflammatory Joint Disease?

Answer 49

• Commonly classified as noninflammatory joint disease
• BUT…numerous cytokines, chemokines, prostaglandins, apoptotic molecules identified

-Low-grade inflammation, calcification of articular cartilage, interaction between transcription factors, cytokines, growth factors, matrix molecules, enzymes affect development and progression of OA
process of cartilaginous destruction begins long before osteoarthritic changes can be detected through use of MRI, arthroscopy, or x-ray

Question 50

what is the Pathophysiology of OA

Answer 50

-Articular cartilage damaged/lost through cascade of cytokine, genetic/epigenetic, biochemical, growth factor pathways

-Proteoglycans, glycosaminoglycans, collagen fibres degraded by collagenase
loss of proteoglycans from articular cartilage is hallmark of osteoarthritic process

-Inflammatory cytokines (IL-1β, IL-6, and TNF-α), apoptotic molecules (COX-2, nitric oxide [NO], prostaglandin E2 [PGE2]), prostaglandins play major role in cartilage degradation
release and activate proteolytic and collagenolytic enzymes (chemokines & metalloproteinases)

-Articular cartilage loses glistening appearance, becomes yellow-gray or brownish gray

-Surface areas of articular cartilage flake off and deeper layers develop longitudinal fissures
fibrillations

-Cartilage becomes thin and may be absent
unprotected subchondral bone thickens (sclerotic bone)

-Changes lead to increased remodeling of articular cartilage and loss of smooth, frictionless joint

-Cysts can develop within subchondral bone and communicate with longitudinal fissures in cartilage
pressure builds in cysts until cystic contents forced into synovial cavity, breaking through articular cartilage

-As articular cartilage erodes, cartilage-coated osteophytes (bone spurs) grow outward from underlying bone and alter bone contours and joint anatomy

-Spurlike bony projections enlarge until small pieces (joint mice), break off into synovial cavity
joint mice can irritate synovial membrane → synovitis and joint effusion

-Joint capsule thickens and may adhere to deformed underlying bone
can contribute to limitation of movement

-Cartilage destruction initiates the IL-1β and TNF-α pathways of inflammation

-Affected joint becomes unstable and more susceptible to injury
partial joint dislocations and other deformities common in advanced disease

Question 51

osteoarthritis causes- progressing stage

Answer 51

the cartilage to begin breaking down, first making it thinner and then creating cracks in its surface

Question 52

what is a normal joint

Answer 52

heathy cartilage lubricated by synovial fluid, cushions the bones and allows them to move easily

Question 53

what happens in advancing OA

Answer 53

• gaps in the cartilage can expand until they reach the bone itself
• pain starts
• synovial fluid leaks into cracks which can form in the bone’s surface when this replacement cartilage wears away. this causes further damage and in some cases can lead to cysts in the bone or other deformities

Question 54

end stage OA

Answer 54

no cartilage present

-if not treated, damage can progress to the joint where the bones in the joint become seriously and permanently deformed

Question 55

Genes in Pathophysiology of OA

Answer 55

• Effects of risk factors
• –>chondrocytes experience epigenetic events that occur in nucleus and microRNAs in cytoplasm
• Results in altered expression of transcription factors, cytokines, collagen, aggrecan, and matrix proteinases
• –>may disrupt fine balance of anabolic and catabolic activity and affect cartilage homeostasis
• –>articular cartilage degradation and development of OA

-MicroRNAs provide inhibitor effect on cartilage-degrading enzymes
-When deficits of microRNA exist
destruction of fibrils that give articular cartilage its tensile strength accelerates
exposes chondrocytes to continued mechanical stress and enzymatic attack
-
Genetic deficiencies of inhibitors of calcification may contribute to a proliferative calcification cascade of articular cartilage

Question 56

what are the manifestations of OA

Answer 56

-Onset is gradual and typically appears later in life
-Tends to be non-symmetrical in presentation (meaning it starts on one knee first)
-Pain, tenderness, stiffness in one or more joints
1st manifestations
-Deep, aching, localized pain
aggravated by movement, relieved by rest
often accompanied by reports of progressive pain
nocturnal pain may be accompanied by paresthesias
-As disease advances
ROM of joint decreases
-Enlargement of joint from swelling
-Flexion contractures contribute to joint instability

Question 57

what are the big 3 of OA?

Answer 57

1. pain
2. limited motion
3. stiffness
   =joint damage

Question 58

OA is the leading cause of

Answer 58

disability in middle-age and older populations

Question 59

evaluation and diagnostics for OA

Answer 59

Individual subjective reports
Clinical assessment
	detailed history and physical examination
Studies
	CT scan
	arthroscopy
	MRI
	X-rays

Question 60

treatment of OA

Answer 60

-Determined by severity of pain and immobility
-Rest joint until inflammation subsides
-Low impact exercise, especially when large joints affected
—>nonimpact aerobic exercise
—>passive range-of-motion exercises
—>walking
-Physical therapy
-Cane, braces, walker
-Weight loss, if overweight
-Balanced diet
-Analgesic and antiinflammatory drugs
-Topical drugs (capsaicin cream and balms)
-Magnetic bracelets and acupuncture
-Intraarticular injection of viscosupplements
hyaluronic acid
-Surgery: Joint replacement
arthroscopic surgery no longer recommended as no better than exercise (Evidence Based!)

Question 61

what are the dietary requirements for OA?

Answer 61

-Dietary recommendations include
–>increase intake of Omega-3 fatty acids
—> eat oily fish 2x per week
safe level of sun exposure
-eat rich vitamin D dietary sources or take vitamin D supplements
-increase vitamin K intake
–>eat green, leafy vegetables

Question 62

pharmacotherapy- pain general principles

Answer 62

Pain: General principles
immediate goal
reduce pain to level that allows client to perform ADLs without pain or discomfort
anticipate adverse effects and manage as they appear
easier to maintain pain-free status than eliminate painful sensations

Question 63

Pharmacotherapy- inflammation general principles

Answer 63

Inflammation: General principles
inflammation is symptom
ideal to treat underlying cause
inflammation is usually self-limiting
non-pharmacologic approaches are better than pharmacologic approaches
prevent or decrease intensity of inflammatory response

Question 64

Non-Opioid Analgesic: Acetaminophen

Answer 64

Indications
	mild to moderate pain
	osteoarthritis of hip or knee
	fever
Mechanisms of Action 
	inhibits COX activity and inhibits synthesis of prostaglandins in CNS 
	antipyretic action may be due to action at hypothalamus
Desired effects
	reduces pain 
	reduces fever
Adverse effects (at recommended doses, adverse effects are uncommon)
	hepatotoxicity, acute liver failure
	renal failure

Question 65

NSAID (selective inhibitor): Celecoxib

Answer 65

Indications for use
mild to moderate pain and inflammation assoc. with rheumatoid arthritis, OA, dysmenorrhea, dental procedures, headache
prophylaxis of adenomas or colorectal polyps
limited due to an increased risk of MI and stroke
Mechanisms of action
blocks COX-2 without inhibiting COX-1 _ analgesic, anti-inflammatory, and antipyretic effects
but prostacyclin may also be suppressed allowing platelet aggregation and blood vessels to constrict
Desired effects
reduction of pain, fever and inflammation
Adverse effects
may increase risk of serious and potentially fatal cardiovascular thrombotic events, MI, and stroke
GI adverse effects including bleeding, ulcer, and stomach or intestine perforation
chronic kidney disease (CKD) and hepatic impairment

Question 66

NSAID (non-selective inhibitor):Ibuprofen

Answer 66

-Indications for use
relieve mild to moderate pain, fever, inflammation
management of pain in inflammatory conditions i.e. OA

-Mechanisms of action
block action of COX-1 and COX-2
reduces prostaglandin production

-Desired effects
reduction of pain, fever, inflammation

-Adverse effects
nausea, heartburn, GI irritation & ulceration
can decrease platelet function
bleeding
-Acute Kidney Injury (AKI) 
azotemia, increased BUN and creatinine

Question 67

Proton Pump Inhibitors (PPIs): Pantoprazole

Answer 67

-Indications
	tx & prevent NSAID-induced ulcers
	take about 30 minutes before meals
		increases effectiveness
-Mechanism of action
	inhibits action of H+/K+ pump on parietal cells
		reduces acid secretion
-Desired effects
	achlorhydric: >90% gastric acid secretion is temporarily blocked
-Adverse effects
	well tolerated with some exceptions
		action limited to effects on gastric acid secretion