KIN 429 Midterm 2

Question 1

Mechanism and outcomes of nitrogen containing bisphoshphonates

Answer 1

Inhibit pyrophosphate synthase which in involved in intracellular signaling. Leads to osteoclast inactivation and decreased bone turnover

Question 2

Mechanism and outcomes of Denosumab

Answer 2

RANKL inhibitor; inhibits OC formation, function and survival

Question 3

Mechanism and outcomes of selective estrogen receptor modulators

Answer 3

Binds to estrogen receptors with the same affinity as estradiol; estrogen agonists in some tissue (bone and lipids) and antogonistic in others (uterus and breast); leads to increased osteoblast and osteocyte survival and osteoclast apoptosis

Question 4

Mechanism and outcomes of teriparatide

Answer 4

Fragment of PTH molecule, so it acts like PTH. Continuous exposure to elevated PTH enhances osteoclast formation and bone loss, intermittent exposure to PTH will activate osteoblasts more than osteoclasts

Question 5

Mechanism and outcomes of hormone replacement therapy

Answer 5

Replacing estrogen, however, WHI suggested that risk outweighs benefits

Question 6

Names of nitrogen containing bisphosphonates

Answer 6

Fosamax, Actonel, Aclasta

Question 7

Names of Denosumab drug

Answer 7

Prolia

Question 8

Type of drug Evista is

Answer 8

Selective estrogen receptor modulator

Question 9

Name of teriparatide drug

Answer 9

Forteo

Question 10

Relation of PTHrP in cancer and bone health

Answer 10

Tumor produces PTHrP, leading to increased osteoclastic bone resoprtion, increased renal tubular resorption of calcium

Question 11

What ways does cancer treatment increase bone loss?

Answer 11

Aromatase inhibitors and other drugs; ovarian function (surgery, radiation, drugs), chemotherapy (toxic effect on osteoblasts, can affect gonadal steroid production)

Question 12

Symbiotic relationship between tumor growth and bone breakdown

Answer 12

Tumor secretes PTHrP, which increases RANKL, which activates osteoclasts, which secrete transforming growth factor beata, which stimulates tumor growth

Question 13

Some cancers related to bone

Answer 13

osteosarcoma, chondrosarcoma, Ewing sarcoma, giant cell myeloma, chordoma, fibrosarcoma, lymphoma, multiple myelmoa, bone metastases

Question 14

What is multiple myeloma?

Answer 14

A cancer of the plasma cells which reside in the bone marrow and can cause bone lesions and kidney dysfunction

Question 15

What is metastasis?

Answer 15

A process where tumor cells spread to other places in the body, transported by the lymphatic circulation or in the blood, implanted away from original site of tumor in other places/organs

Question 16

8-% of bone metastases occur from what 3 cancers?

Answer 16

prostate, breast, and lung

Question 17

Osteolytic bone metastases

Answer 17

Increased bone resorption with little bone formation; most common in lung, renal, and breast cancer patients; skeletal destruction mediated by osteoclasts rather than tumor cells

Question 18

Osteoblastic bone metastases

Answer 18

Increased bone formation, but poor quality. Most commonly seen in prostate cancer patients. Prostate tumor cells produce factors that stimulate osteoblast activity to produce abnormal bone; may be release of growth factors that may further stimulate tumor cell growth

Question 19

Consequences of bone metastases in cancer

Answer 19

pain, hypercalemia (increased bone resoprtion), fractures, cancer not curable, longer time living with cancer –> skeletal manifestations influence quality of life

Question 20

Cancer therapeutic strategies to treat bone metastases

Answer 20

radiation therapy, bisphosphonates, denosumab

Question 21

Potential adverse adverse effects of bisphosphonates

Answer 21

Osteonecrosis of the jaw

Question 22

Exercise considerations for indivduals with cancer

Answer 22

fall risk (neuropathy), fracture risk (secondary bone loss, metastases, post-menopausal), fatigue, immune suppression, pain, weakness

Question 23

Denosumab for bone metastases in cancer

Answer 23

Delays time to developing first skeletal-related event, and reduces risk of multiple events in those with malignancies involving bone. Comparable efficacy to bisphosphonates. Inhibits RANKL binding to RANK

Question 24

Bisphosphonates for bone metastases in cancer

Answer 24

Effective in controlling bone pain, hypercalemia and preventing skeletal-related events by 50%. Osteolytics lesions do not heal with bisphosphonates treatment. Osteonecorsis of the jaw a potential adverse effect.

Question 25

Synarthroses?

Answer 25

Fixed joints; adjoining cranial plates separated by fibrous tissue, provide for growth

Question 26

Amphiarthroses?

Answer 26

Bones bound by flexible fibrocartilage, permits modest motion (pubic symphysis and intervertebral discs)

Question 27

Diarthroses?

Answer 27

synocvial joints, moveable joints, surrounded by synovial membrane and fluid

Question 28

Classifications of joints according to shape

Answer 28

ball and socket (hip and shoulder), hinge (interphalangeal, knee), saddle (first carpometacarpal), plane (patellofemoral), pivot (proximal and distal radioulnar joints)

Question 29

Components of a synovial joint

Answer 29

muscles, articular cartilage, menisci, ligaments, joint capsule, synovial lining, synovial fluid, burase

Question 30

What is cartilage?

Answer 30

A dense connective tissue composed of solid phase (ECM), an electrolyte fluid, and relatively few cells.

Question 31

Major ECM constituents of cartilage

Answer 31

large proteoglycans, noncollagenous proteins, small proteoglycans, collagen

Question 32

What is 90% of the dry weight in cartilage?

Answer 32

Type II collagen and aggecran (large proteoglycans). Type II collagen forms a network that entraps proteoglyans.

Question 33

What are attached to proteoglycans in cartilage?

Answer 33

Glycosaminoglycan side chains (GAG) side chains that bind water (70% of water)

Question 34

What are the GAG sidechains made up of?

Answer 34

Chondroitin sulfate and keratin sulfate

Question 35

What is hyaluronic acid?

Answer 35

Matrix component that binds proteoglycans together

Question 36

What is aggrecan?

Answer 36

large keratin sulfate/chondroitin sulfate proteoglycan, provides a hydrated space filling gel contributes to cartilage strength

Question 37

Types of cartilage

Answer 37

hyaline, elastic, fibrocartilage

Question 38

Hyaline cartilage is found where

Answer 38

Synovial joints, fewer fibres

Question 39

Elastic cartilage is found where

Answer 39

Nose, external ear, more fibres (elastic), cells tightly packed

Question 40

Fibrocartilage is found where

Answer 40

menisci in the knee

Question 41

Characteristics of fibrocartilage

Answer 41

Transitional state between true cartilage and fibrous connective tissue; collagenous fibers, minimal matrix; cells are embedded in the matrix between the fibers, but still in lacunae.

Question 42

What does articular cartilage in synovial joints do?

Answer 42

Acts to reduce friction and abosrob shock; prevents bone on bone contact

Question 43

How is cartilage in synovial joints nourished?

Answer 43

Avascular, so it is nourished by diffusion from vasculature of bone and synovial fluid

Question 44

What surround articular cartilage?

Answer 44

Joint capsule

Question 45

What is the synovium, and what does it do?

Answer 45

A soft tissue that lines the non-cartlaginous surfaces within joint cavities; expands and contracts during movement; secretes synovial fluid and is supported by microvessels immediately below lining cells at joint space surface –> nutrients for synovium and avascular cartilage

Question 46

What are the components of synovial fluid?

Answer 46

Hyaluronan and lubricin

Question 47

What does synovial fluid do?

Answer 47

Reduces friction between cartilage and other tissues in joint, lubricates and cushion. Enables exchange of nutrients with articualr cartilage

Question 48

Where is synovial fluid found within a joint?

Answer 48

Fluid forms a thin layer at the surface of cartilage but also seeps into the cartilage

Question 49

What is hydrodynamic lubrication?

Answer 49

Load induced compression forces fluid out of cartilage laterally and to surface, creating a protective, aqueous layer

Question 50

What is boundary layer lubrication?

Answer 50

Lubricin binds to articular cartilage, retains a protective layer of water molecules, providing a slippery coating

Question 51

What is squeeze film lubrication?

Answer 51

load applied –> synovial fluid pressurized, moves out and possibly into cartilage –> ncreased viscosity in fluid –>trapped fluid supports load and reduces friction

Question 52

What is fibromyalgia?

Answer 52

A widespread, musculoskeletal pain accompanied by fatigue, sleep, memory, and mood issues. Chronic widespread pain disorder commonly associated with comorbid coiditions, including fatigue and nonrestorative sleep.

Question 53

Causes of fibromyalgia?

Answer 53

Cause is not clear–genetics and environment (stress) may contribute. Centralized pain–sentral nervous system origin. Disturbances in autonomic and stress response systems. Abnormal processing of pain by CNS –> volume control set to high (levels of NT that facilitate pain transmission). Psychiatric conditions can co-exist, may have some origin such as early life trauma/stress

Question 54

Manifestation of fibromyalgia

Answer 54

Diffuse, chronic pain throughout body, sensory, hyper-responsivenss. Migraine headache. Chronic fatigue, sleep disturbance. Irritable bowel syndrome. Depression. Restless leg syndrome. Temrpomandibular joint syndrome. Myofascial pain syndrome. Fibro “fog” – memory and mood difficulties

Question 55

Modifiable risk factors for fibromyalgia

Answer 55

poor sleep, obesity, physical inactivity, poor job or life satisfaction, catastrophizing

Question 56

Potential therapies for fibromyalgia

Answer 56

improve sleep patterns, weight loss, activity and exercise, stress reduction, cognitive behavioral therapy

Question 57

Considerations for exercise prescription in fibromyalgia

Answer 57

Limit overuse of small muscle groups (i.e. overhead exercises), minimize eccentric portion, Strategies to increase adherence: self-monitoring, group exercise, action planning/coping planning

Question 58

What is OA?

Answer 58

deterioration and loss of articular cartilage, thickening of the subchondral bone, bony outgrowths at joint margins, mild, chronic synovial inflammation

Question 59

Mechanical risk factors for OA

Answer 59

low quadriceps strength, increased body weight (due to inflammatory environment), occupation, injury (ACL rupture, especially with meniscus tear, other disorders), anatomic abnormalities (genum varum or valgus, congenital hip sublumxation, acetabular displasia)

Question 60

Metabolic risk factors for OA

Answer 60

obesity (adipokines —> proinflammatory), systemic inflammation may predispose people to OA, metabolic syndrome (advanced glycosylated end products (AGEs accumulation, oxidative stress. Hypertension (leads to subchondral ischaemia)

Question 61

Symptoms of OA

Answer 61

pain, stiffness around joint, limited function. pain typically worsens with activity, lessens at night. Pain at rest or at night a feature of severe disease. Duration of morning stiffness shorter (<30 min). Pain and stiffness worse in damp, cool, rainy weather

Question 62

Signs of OA

Answer 62

bony enlargement, tender at joint margins and at attachment of joint capsule and tendons, pain or limitation of motion related to osteophyte formation, joint surface incongruity, muscle spasm, and contracture. Joint instability: peri-articular muscle weakness or abnormal propriorecption. Joint locking out during ROM (loose bodies or fragments). Creptius. Local inflammation. Joint malalignment 50% of knee OA: varus common

Question 63

Heberden’s Nodes

Answer 63

Enlarged end joints of finger (distal interphlangeal joints)

Question 64

Bouchard’s nodes

Answer 64

Enlarged middle joints of finger (proximal interphalageal joints)

Question 65

Turnover in normal cartilage

Answer 65

Matrix undergoes turnover via chondrocyte activity: production of enzymes (matrix metallopeoteinases, others) to degrade catilage. Synthesis of new collagen and proteoglycans, growth factors and MMP inhibitors (tissue inhibitor of metalloproteinases). Normal cartilage = low levels of synthesis and degradation –> cartilage volume maintained

Question 66

What happens with aging in NORMAL cartilage?

Answer 66

Glycosaminoglycans become shorter. Changes in [keratin sulfates]. Decrease in chondrocytes and capacity of proteogylcans to retain water –> altered biomechanical properties. Stress fractures of collagen network –> fissurse

Question 67

What happens to cartilage in OA

Answer 67

Mediators of cartilage destruction in OA include MMPs and pro-inflammatory cytokines (e.g. IL-1) —> degrading enzymes over-expressed relative to capacity to repair = net degradation —> loss of collagen and proteoglycans, decreased number of chondrocytes, decreased cartilage volume, fibrillation, erosion and cracking in superficial cartilage layer —> progress to deeper layers —> eventually large erosions

Question 68

Characteristics of early osteoarthritis

Answer 68

Areas of chondrocyte loss and increased proliferation and synthesis of matrix. Increased cytokine synthesis, prostaglandins, free radicals —> activation of chondrocytes —> increased synthesis of MMP and decreased TIMP. Microcracks in cartilage —> deep fissures and pitting. Subchondral bone demineralization with microfractures. edema

Question 69

Characteristics of late osteoarthritis

Answer 69

Decreased chondrocyte proliferation. Chondrocyte apoptosis. Fissures cause fragments of cartilage to detach. Exposed subchondral bone. Osteophyte formation. Sclerosis of subchondral bone (bone thickening). Persistent synthesis of proteinases and cytokines.

Question 70

Are the changes in cartilage associated with aging the same as OA?

Answer 70

NO!!!

Question 71

What are the two main mechanisms of drug treatment for OA?

Answer 71

control symptoms and disease modifying/specific to the disease

Question 72

What are the three type of treatment for OA that control symptoms?

Answer 72

Analgesics, NSAIDs, glucocorticoids

Question 73

Are analgesics anti-inflammatory, and do they slow the disease progression for oA?

Answer 73

NO

Question 74

What do analgesics do, and what are some examples?

Answer 74

Medicines that relieve pain. Over the counter medicins like Aspirin and Tylenol (acteaminophen)

Question 75

What COX enzyme is responsible for prostaglandins expressed in inflamed tissues?

Answer 75

COX2

Question 76

What COX enzyme is responsible for prostaglandins expressed in GI mucosa, kidneys, platelets, and vascular endothlelium?

Answer 76

COX1

Question 77

How do NSAIDs work?

Answer 77

inhibit one or both of COX enzymes. Effective for treating swelling, pain, and stiffness –> symptom control. No effect on disease course or joint damage

Question 78

What are the problems associated with using NSAIDs?

Answer 78

GI toxicity an issue, especially in older patient

Question 79

What are the adverse effects of using COX-2 specific inhibitor?

Answer 79

May reduce GI toxcity, but there are other adverse reactions (allergy, renal failure, CV). Can use a proton pump inhibitor to reduce gastric acid secretion

Question 80

Why are corticosteroids used in arthritis?

Answer 80

Potent suppressor of inflammtion. Effective for managing pain and functional limitations in active inflammatory joint disease. Not adequate as sole therapy. Can be taken orally or injected into joint. Can’t be taken long term

Question 81

Conditional recommendations for NOT using in knee OA?

Answer 81

Chondroitin sulfate, glucosamine, topical capsaicin. No recommendations for hyaluronic acid

Question 82

No recommendations for knee OA?

Answer 82

Participation in balance exercises, either alone or in combinations with strengthening exercises, wearing laterally wedged insoles, receiving manual therapy alone, wearing knee braces, using laterally directed patellar taping

Question 83

Strong recommendations for non pharmacological treatment for hip OA

Answer 83

CV or RT land-based exercise, aquatic exercise, weight loss

Question 84

Intra-articular injections of GC are conditionally recommended for what types of OA

Answer 84

knee and hip

Question 85

Topical NSAIDs are conditionally recommended for what type of OA

Answer 85

knee and hand only

Question 86

topical capsaicin is a conditional recommendation for what type of OA

Answer 86

hand OA only

Question 87

Oral therapy (acetaminophen, NSAIds, Tramadol) is conditionally recommended for what type of OA

Answer 87

all of them

Question 88

Conditional recommendations for non-pharmacological treatment of hand OA

Answer 88

evaluating ADL performance, provide assistive devices as needed, provide instruction in joint protection, instruction in use of thermal modalities for relief of pain and stiffness, provide splints for patients with trapexiometacarpal joint OA

Question 89

Conditional recommendation for NOT using intrac-articular therapies for hand oA

Answer 89

k;f

Question 90

Strong recommendations for non-pharmacological treatment of knee OA

Answer 90

CV or RT land based exercise, aquatic exercise, weight loss

Question 91

Conditional recommendations for non-pharmacological treatment of knee OA

Answer 91

self management programs, manual therapy with supervised exercise, pyschosocial interventions, medially directed patellar taping, medial wedge insole (lateral compartment OA), laterally wedged insoles (medial OA), instructions in use of thermal agents, walking aids as needed, tai chi

Question 92

Conditional recommendations for non pharmacological treatment of hip OA

Answer 92

self management programs, manual therapy, thermal therapy in combo with supervised exercise, pyschosocial interventions, instruction in use of thermal agents, walking aids as needed.

Question 93

Summary of exercise in knee OA

Answer 93

decreased knee pain by 1 point on a scale of 0 to 20. Increased knee function by 3 points on a scale of 0 to 68

Question 94

Summary of exercise in hip OA

Answer 94

may reduce pain slightly, may not improve physical funtion

Question 95

Strong rationale that weight reduction may:

Answer 95

delay progression, reduce symptoms, improve function, lower impact of comorbidities and reduces incidence

Question 96

Who are surgical candidates for knee replacements?

Answer 96

usually those who “fail” other treatments (no relief from other therapies despite trials), pain progressed to unacceptable (at rest or night pain), joint is structurally unstable, not yet developed muscle weakness, deconditioning, can medically withstand stress of surgery

Question 97

What is arthroplasty?

Answer 97

Total joint replacement. Surgical replacement of a damaged/diseased joint or joint components with a prosthetic joint or joint components. LAST RESORT for patients with severe knee OA. Replacement usually lasts ~10 years

Question 98

What is a tibial osteotomy?

Answer 98

Removal of a wedge shaped portion of tibia or add material. Change alignment and redistribute body weight. Transfer stress to a less worn area of the knee, helping to relieve pain. Treat a varus (bowlegged), deformity ar the knee resulting from past trauma or srugery, congenital deformity and/or degenerative disease. Candidates for tibial osteotomies may eventually require a knee repalcement

Question 99

Risk associated with surgery

Answer 99

risk associated with anesthesia, infection developing in the artificial joint (requires removal of the artificial joint and treatment of the infection), development of blood clots, loosening of the joint, can damage meniscus, ligaments, and patellar ligament and nerves

Question 100

After a total hip arthroplasty, what are the movements to be avoided in the first 6-8 weeks?

Answer 100

extreme bending (flexion) of the hip beyond 90 degrees, corssing legs, turning the operated hip inward or outward (internal/external rotation)

Question 101

Most common form of crystal induced arthritis?

Answer 101

Gout (uric acid crystals)

Question 102

Calcium pyrophsophate dihydrate arthritis?

Answer 102

Chondrocalcinosis or pseudogout or pseudo-arthritis or pseudo0rheumatoid arthritis. CPPD crystals present in synovial fluid. Overproduction of extracellular pyrophsophate, treat with NSAIDs or glucocorticoid

Question 103

Why does lead cause gout?

Answer 103

Damages kidneys and you to retain uric acid –> carried by the bloodstream to big toe or foot were the uric acid turns into needle like crystals

Question 104

Gout risk factors

Answer 104

Males, postmenopausal women, overproduction of urate from inherited enzyme defects, obesity, purine rich foods, accelerated ATP degradation, underexcretion of uric acid

Question 105

How is alcohol related to gout?

Answer 105

Ethanol accelerates ATP bbreakdown, increases uric acid (ATP –> ADP + AMP, AMP –> uric acid), guanosine in beer is catabolized to uric acid.

Question 106

What can cause underexcretion of uric acid ?

Answer 106

Thiazide diuretics, exogenous insulin, beta blockers, cyclosporine, hypertension (reduced renal blood flow), metabolic syndrome, obesity, renal failure

Question 107

treatment of gout

Answer 107

NSAIDs of glucocorticoids in acute gout. Urate lowering therapy, cessation of alcohol use, weight loss, replace thiazide diuretics with another anti-hypertensice

Question 108

Progression of gout

Answer 108

asymptomatic hyerurinecmia –> acute intermittent gout –> advanced gout

Question 109

Most common spot of gout?

Answer 109

first metatarsophalangeal joint

Question 110

What is RA?

Answer 110

A chronic, systemic, inflammatory disease. Inflammation of the synovium of joints. Joint damage, pain, loss of function, disability.

Question 111

What is the pathogenesis of RA and what causes its progression?

Answer 111

Pathogenesis is progressive inflammation of the synovium and destruction of joint architecture. Persistence and progression regulated by immune mediators.

Question 112

When is peak incidence of RA?

Answer 112

Between 4th and 6th decades…affects all ages, though

Question 113

Percentage of RA patients that have a monocylic course that ablates within 2 years?

Answer 113

20%, the rest will have polycyclic or progressive course

Question 114

Is there a genetic predisposition for RA?

Answer 114

Yes, multiple genes involved (dizygotic twin 6 times more likey, monozygotic twin 30 times more likely). Genetic basis not sufficient to explain trigger for disease. Many different genes involved, and each make only small contribution to disease susceptibility

Question 115

Risk factors for RA

Answer 115

2.5x higher in women, smoking, age

Question 116

Most common joints affected by RA?

Answer 116

Hand and wrist. MCP, PIP often involved…the DIPs are usually spared

Question 117

Percentage of joints affected by RA in the first year?

Answer 117

90% of joints

Question 118

What triggers an immune response?

Answer 118

Antigen/foreign cell

Question 119

What can an antigen be?

Answer 119

a virus, cells from another person

Question 120

What is an autoimmune disease?

Answer 120

Immune system responds to body’s own cells or tissues

Question 121

Body cells have what attached to them?

Answer 121

MHC/HLA complexes (major histocompatability complex or human leuokocyte antigens)

Question 122

What do killer T cells do?

Answer 122

Attack cells that have an antigen on them

Question 123

What do natural killer cells do?

Answer 123

Recognize foreign cells with no self-MHC complex

Question 124

What do helper T cells do?

Answer 124

Help to coordinate the immune response by stimulating antibody production, calling in phagocytes, activate other T cells

Question 125

What is auto-immunity?

Answer 125

An antigen-specific immune response to an auto-antigen that leads to disease. Immune system is launching an attack on its own body –> antibodies are produces and react against a body constituent, failure to recognize constituent as “self”

Question 126

What is a consistent feature of RA?

Answer 126

T-cells infiltrating the synovium.

Question 127

What is the auto-antigen in RA?

Answer 127

Not defined

Question 128

What two types of cells comprise the lining layer in normal synovium?

Answer 128

Macrophage like synoviocytes (MLS)-phagocytic. Fibroblast like synoviocytes (FLS)-systhesize matrix proteins (collagen, hyaluronan)

Question 129

What happens to the synovium in RA?

Answer 129

Increased lining cells (MLS and FLS) cuasing increased dpeth of lining (tissue proliferates), acts as a source of inflammatory cytokines and proteases, proliferating tissue into joint cavity and cartilage = pannus. Sublining –> edema, blood vessel proliferation (because blood supply is needed for proliferating tissue), accumulation of T and B lymphocytes, plasma cells. natural killer cells

Question 130

What is pannus?

Answer 130

Proliferating tissue into joint cavity and cartilage in RA

Question 131

What are the key features of a joint in RA?

Answer 131

Hyperplastic synovial membrane, infiltration of lymphocytes and macrophages, pannus infiltrates the cartilage and surrounding bone

Question 132

What are the 3 stages of RA?

Answer 132

1) Swelling of the synovial lining –> pain, warmth, stiffness, redness and swelling around joint 2) Formation of pannus –> rapid division and growth of cells –> thickening of synovium, covers cartilage, destroys joint capsule and bone. 3) Destruction of bone and cartilage: synovial and immune cells release enzymes, destroying cartilage. Synovial and immune cells release cytokines, RANKL –> bone erosion. Bone and cartilage destruction can cause involved joint to lose its shape and alignment, more pain, and loss of movement

Question 133

Cytokines involved in RA?

Answer 133

MLS, FLS, T cells and synovial cells produce pro-inflammatory cytokines (TNF alpha, GM-CSF, interleukins) and inhibitory cytokines suppress inflammation in part, but theyaare overwhelmed by the pro-inflammatory cells

Question 134

What do cytokines do in RA?

Answer 134

ACtivate chondroblasts to releast proteinases, which destroy the cartilage. Cyokines also stimulate osteoclasts, RANKL production by fibroblasts and T cells

Question 135

What happens to synovial fluid in RA?

Answer 135

Increase synovial fluid volume –> manifests as swelling. Increased neutrophils which release proteinases and cytokines

Question 136

How is cartilage destroyed in RA?

Answer 136

Chondrocytes, synovial cells (MLS, FLS), neutrophils are activated by IL-1, TNF alpha, IL-17 and immune complexes. Chondrocytes release enzymes (MMPs, collageneases, proteinases) that destroy cartilage. Protease inhibitors are present, but overwhelmed by enzymes doing degradation

Question 137

Steps in cartilage destruction in RA

Answer 137

Inflammation of synovium (pannus), leads to increase in synovial fluid volume, neutrophils, and T and B cells to the joint —> Increased cytokine production by T cells, B cells, synovial cells (MLS, FLS) –> Neutrophils, synovial cells, chondrocytes release destructive enzymes in response to IL 1, TNF-a, IL17, immune cells —> cartilage destruction

Question 138

Mechanism of bone erosion in RA

Answer 138

RANKL expression by T cells and FLS –> activation of osteoclasts (leads to bone erosion). Cytokine activation by osteoclasts

Question 139

What are the radiological findings in RA that are different than OA?

Answer 139

Bony erosions at joint margins (don’t see in OA, osteophytes in OA). Joint space narrowing (also see in OA)

Question 140

Lab tests that can be used to help with diagnosis of RA, although no lab test, histological finding or radiographic feature confirms RA

Answer 140

Rheumatoid Factor, erythrocytes sedmenation rate and CRP

Question 141

2 categories of articular manifestations in RA

Answer 141

1) Reversible signs and symptoms related to inflammatory synovitis 2) Irreversible structural damage caused by synovitis–begins in 1st and 2nd year (caused by every cycle of synovitis)

Question 142

Synovitis symptoms tend to fluctuate, but structural damage progresses linearly as function of prior synovitis

Answer 142

Synovitis = inflammation of synovial membrane

Question 143

Morning stiffness associated with RA?

Answer 143

> 2 hours (OA is 5-10 min)

Question 144

Structural damage in RA to the joint

Answer 144

Cartilage loss, erosion of peri-articular bone, irreversible (symptoms that fail to respond to aggressive therapy (e.g. corticosteroid injection won’t make symptoms due to joint damage feel any better), radiographs show loss of joint space, bone on bone creptius—high pitches screehe detectable on palpation or auscultation

Question 145

Determinants of disease outcome in RA

Answer 145

RF or other antibodies, low SES or educational status, disability indicators, joint erosions, elevated CRP and ESR, family history of severe RA, female gender, genes

Question 146

Secondary complications of RA

Answer 146

Increased risk of CVD and death, disability, drug side effects, increased risk of fracture (independent of BMD)

Question 147

Two groups of drug therapy for RA

Answer 147

Control symptoms (NSAIDs and Analgesics), and those that limit joint damage (Disease Modifying Anti-Rheumatic Drug)

Question 148

2 types of DMARDs

Answer 148

Traditional DMARDS and biologic agents

Question 149

What do DMARDs do?

Answer 149

Prevent joint erosions and damage. Control active synovitis and other features of disease. No evidence that DMARDs can “heal” disease. Should be used when diagnosis is established. Vary greatly in mechanism of action. Can be used with NSAIDs or corticosteroids.

Question 150

What do traditional DMARDs?

Answer 150

Target cellular components (B and T cells) –> target cellular components of immune/inflammatory response (i.e. B cell and T cell for RNA/DNA production in immune cells),

Question 151

Side effects of traditional DMARDs

Answer 151

Can affect bone marrow and liver, therefore, requires regular WBC checks and liver function tests

Question 152

Most common DMARD

Answer 152

Methotrexate (well established long-term efficacy)

Question 153

What are biological agents for RA?

Answer 153

Derived from or resemble naturally-occurring molecules. Genetically engineered to target cytokines (anti TNF-alpha, antibody agents, IL-1 receptor anatagonists). Blocks message to increase inflammatory cells

Question 154

Side effects of biologic agents

Answer 154

Infection, reports of fatal infections and TB

Question 155

Why are biologic agents such as Inflixmab, Humira, and Enbrel used sparingly?

Answer 155

Very expensive, used when other treatments are not effective and often used in vombo with methotrexate

Question 156

Surgery in RA

Answer 156

Tendon repair and transfer, carpel tunnel release, total joint replacement, arthrodesis (fusion) of ankles, wrists, fingers, and toes. Stabilization of unstable cervical vertebrae

Question 157

When do you refer for surgery in RA

Answer 157

Refer for surgical opinion when, despite non-surgical management the following persist: persisent pain due to joint or soft tissue damage, decreasing joint function, joint in unstable, deformity progresses, persistent synovitis in joint, can withstand surgery, not deconditioned

Question 158

What are your therapeutic goals during an RA flare-up?

Answer 158

Pain reduction, modify activities/use, prevent atrophy

Question 159

What are your therapeutic goals be as an RA flare-up resolves?

Answer 159

Increase ROM, maintain strength, prevent arophy

Question 160

What are your therapeutic when RA is stable?

Answer 160

Maintain/increase CV fitness, maintain/increase muscle strength