BL 02-18-14 8-9AM RHEUM COURSE OVERVIEW-Janson_Hirsh

Question 1

Arthritis

Answer 1

= inflammation in joints
= pain, swelling, redness, or heat
- Over time, inflammation can lead to deformity

Question 2

Arthralgia

Answer 2

= joint hurts but no evidence of inflammation

= may represent early forms of arthritis not yet detectable by exam or may be due to a viral syndrome or other causes

Question 3

Periarticular pain

Answer 3

= When pain actually NOT due to pain in a joint
= Instead, pain arises from structures around the joint such as tendons or bursae

Distinguished from true arthritis by:

• lack of effusion
• often point tenderness over immediate area of inflammation
• pain worse w/ active compared to passive motion

Question 4

Soft Tissue pain

Answer 4

= Pain which may be perceived as arising from the joint, but which actually arises elsewhere (in muscle, adjacent nerves, or referred)

Question 5

ARTHRITIS - joint swelling, signs of inflammation, & ROM

Answer 5

Joint swelling can be esp. helpful in determining if pt has arthritis:

• Joint = potential space
• S, swelling can present as a joint effusion (important objective finding)
• Cool swelling in non-inflammatory disease (OA)
• Joints are usually not red, unless infected or involving crystals
• B/c problem is in joint itself, both passive & active motion causes pain

Question 6

Monoarticular Arthritis

Answer 6

= involvies only one joint

a. Infections, crystal-induced arthritis, or trauma.
b. –> aspirate to rule out infection
c. Untreated septic joint can destroy joint in 6 days

Question 7

Oligoarticular Arthritis

Answer 7

= in several joints (2-4)

a. Axial arthropathies (ankylosing spondylitis, psoriatic arthritis, or reactive arthritis)
b. Often asymmetrical
c. Often involves large joints (but not invariably)

Question 8

Polyarticular Arthritis

Answer 8

= Involves multiple joints, often symmetrically

a. Usually affects both small & large joints
b. RA, SLE, certain viral syndromes

Question 9

Types of Joints:

Answer 9

A. Synarthrosis = interlocked bones (skull)
B. Amphiarthrosis = bones joined by fibrocartilage (rib cage w/costal cartilage)
C. Diarthrosis = synovial joint

Question 10

Types of Diarthosis joints (based on movement / axes)

Answer 10

(1) Uniaxial or hinge joints (one plane of movement)
- – EX: elbow, knee
(2) Polyaxial joints (multiple axes of movement)
- – EX: ball & socket joint of shoulder

Question 11

Ligaments

Answer 11

= bundles of parallel Type I collagen connecting bone to bone
—> prevent inappropriate motion (passive restraints)

*Hinge joints are commonly bordered by collateral ligaments to limit flexion & extension of the joint

Question 12

Tendons

Answer 12

= resemble ligaments but connect muscle to bone

–> active drivers of joint motion (while ligaments are passive restraints)

Question 13

Entheses

Answer 13

= where ligaments & tendons insert into bone
- Metabolically active (different from tendon or bone)

Important in seronegative spondyloarthropathies

• – can inflame, erode, & eventually calcify
• –> “enthesopathic type” arthritis

Question 14

Bursae

Answer 14

= synovial lined sacs w/ dense regular CT support

a. Designed to slide & cushion tissues that are less forgiving during movement
b. Contains lubricating film of synovial fluid
c. Btwn tendon & bone, ligament, or tendon

Question 15

Diarthrosis

Answer 15

= aka synovial joint
The bone...
- articulartes
- is cushioned by hyaline cartilage
- is stabilized by ligaments
- is actively moved by muscles & tendons
- is nourished & lubricated by synovial tissues

Question 16

Ankylosis

Answer 16

Disease process causes fibrous or bony union across joint leading to fixation of joint

Question 17

Axial Arthropathy

Answer 17

Arthritis involving the spine.

Question 18

Sacroiliitis

Answer 18

Inflammation of sacroiliac joint

Question 19

Syndesmophyte

Answer 19

Calcification of ligament/tendon at site of bony insertion

Question 20

Synchondrosis

Answer 20

= Union btwn 2 bones formed by cartilage
Examples:  
- Pubic symphysis
- Manubriosternal joints
- Costosternal joints

Question 21

Internal Structure of a Diarthrodial Joint

Answer 21

• Bone’s articular surface covered by hyaline cartilage
• Synovium
• Subchondral bone

Question 22

Hyaline cartilage - overview

Answer 22

• covers articular structures of bone in diarthrodial joints
• firm & resilient & dynamic
• turgid gel (water + collagen + proteoglycans)
• Contains no vessels or nerves
• Gets nutrients from synovium via synovial fluid

Question 23

Composition of Hyaline cartilage

Answer 23

Water (major component of cartilage)

Collagen (esp. Type II), an extremely strong protein

Proteoglycans (esp. chondroitin sulfate & keratin sulfate)

• – hooked by link proteins to hyaluronic acid
• – high density of fixed negative charge —> coiled spring —> gives cartilage its elastic properties

Question 24

Embedded in the hyaline cartilage are…

Answer 24

Chondrocytes
–> produce both collagen & proteoglycans

Enzymes —> can digest these structures

Question 25

Synovium

Answer 25

= thin layer of cells + capsule that covers all intra-articular surfaces other than articular areas of cartilage

Question 26

Spondylitis

Answer 26

Inflammation of one or more vertebrae of the spine

Question 27

Synovium - 2 cell types

Answer 27

Synovial cells are divided morphologically into 2 types:

• Type A cells = macrophage-like (w/HLA-DR) & derived from bone marrow
• Type B cells = fibroblast-like

Question 28

Osteophyte

Answer 28

A bony outgrowth of bone

Question 29

Pannus (and RA)

Answer 29

• When synovium becomes diffusely inflamed & thickened, as in RA
• Early erosions in RA occur where synovium inserts into bone b/c pannus slowly destroys bone

Question 30

Subchondral bone (and arthritis: osteo- vs inflammatory)

Answer 30

= Area under cartilage

In OA, commonly dense or sclerotic

In inflammatory arthritis, inflammation/increased blood flow to this area
—> periarticular bone becomes less dense (osteopenic)

Question 31

Synovium composition

Answer 31

Well-ordered matrix of microfibrils & proteoglycan aggregates with synovial cells

Question 32

Arthritis: Diseases which characteristically present as Polyarticular Diseases

Answer 32

• rheumatoid arthritis
• systemic lupus erythematosus (SLE)
• Psoriatic arthritis
• reactive arthritis
• hepatitis B

Question 33

Synovitis

Answer 33

= Inflammation of synovium

—> can lead to pannus

Question 34

Symmetric Joint Distribution - Diseases

Answer 34

• rheumatoid arthritis

- systemic lupus erythematosus

Question 35

Asymmetric Joint Distribution - Diseases

Answer 35

• osteoarthritis
• gout
• spondyloarthropathies

Question 36

Arthritis: Diseases which characteristically present as Monoarticular Diseases

Answer 36

• septic arthritis
• gout
• pseudogout
• traumatic arthritis
• mechanical derangement of joint
• osteochondritis dissecans

Question 37

Small Joint Distribution - Diseases

Answer 37

• rheumatoid arthritis

- systemic lupus erythematosus

Question 38

Joints involved in Osteoarthritis

Answer 38

• Distal interphalangeal joints (DIP)
• Proximal interphalangeal joints (PIP)
• 1st carpometacarpal joint (CMC)
• Cervical & Lumbosacral spine
• Hips
• Knees
• 1st metatarsophalangeal joint (MTP)

Question 39

Migratory Joint Distribution - Diseases

Answer 39

• rheumatic fever

- disseminated gonococcemia

Question 40

Arthritis: Polyarticular Diseases which characteristically present as Monoarticular Diseases

Answer 40

• Juvenile rheumatoid arthritis
• Reactive arthritis
• Sarcoid arthritis
• Psoriatic arthritis
• Pseudogout

Question 41

Large Joint Distribution - Diseases

Answer 41

axial arthropathies

Question 42

Additive Joint Distribution - Diseases

Answer 42

• rheumatoid arthritis

- axial arthropathies

Question 43

Arthritis - Rapidity of Onset

Answer 43

• Hours - septic joints & crystal diseases (gout & pseudogout)
• Days - most chronic inflammatory diseases

Question 44

Response to rest and activity in Arthritis

Answer 44

Worse with rest or in the morning:

• rheumatoid arthritis
• axial arthropathies.

Worse with use:
- osteoarthritis

Question 45

Arthritis: Presentation at a young age

Answer 45

• Rheumatoid arthritis
• Axial arthropathies
• SLE

Question 46

Family Hx & Rheumatoid Arthritis

Answer 46

HLAS-DR4

Question 47

Family Hx & Axial Arthropathies

Answer 47

HLA-B27

Question 48

Family Hx & Systemic Lupus Erythematosus

Answer 48

HLA-DR2
HLA-DR3
C4A null allele

Question 49

Degenerative Joint Disease (Osteoarthritis, OA)

Answer 49

= cartilage-based process (primary abnormality)
- Mostly affects big weight bearing joints, mostly

Articular cartilage loses its homogeneous nature

• –> disrupted / fragmented with pitting, clefts, & ulcerations
• -> uneven histochemical stain for proteoglycans in cartilage
• -> w/ advanced disease, no cartilage remains & bare areas seen of exposed underlying bone

Question 50

Biochemical changes in Osteoarthritis

Answer 50

• ↑ Water content of articular cartilage
• Smaller than normal small Type II collagen fibers
• Normally tight weave of collagen in mid-zone is slackened & distorted
• Sharply diminished [Proteoglycan] - 50% or less
• Less & less aggrecans present
• Shorter & shorter glycosaminoglycan chains
• Increased Type I collagen in cartilage covering osteophytes

Question 51

Metabolic changes in Osteoarthritis

Answer 51

Great increase of synthesis & secretion of matrix-degrading enzymes by the chondrocyte
= mainly acid & neutral proteases, esp. neutral metalloproteinases
—> Able to degrade all components of ECM

Question 52

Arthritis: Presentation in elderly

Answer 52

• gout
• polymyalgia rheumatica
• pseudogout

Question 53

Etiologic factors in Osteoarthritis

Answer 53

• greatly increases w/age

May be caused by

• significant trauma in which joint is excessively incongruent (ex: hip disolcation)
• unstable joint
• impulsive loading over a lifetime
• inflammatory arthritis (its end stage)
• obesity
• hereditary forms

Question 54

Clinically in OA…

Answer 54

NO systemic symptoms like morning stiffness, easy gelling (stiff w/sitting), unusual evening fatigue

Asymmetric joint involvement & cartilage loss

• ex: hip loses cartilage more superiorly than medially
• ex: knee more medially than laterally
• Mild inflammation may occur, but secondary to loss of cartilage & typically later in disease course

Question 55

Non-inflammatory diseases causing secondary OA

Answer 55

• Avascular necrosis

- Fibromyalgia

Question 56

Arthritis: Presentation in Males

Answer 56

• gout
• axial arthropathies
• hemochromatosis

Question 57

Arthritis: Presentation in Females

Answer 57

• rheumatoid arthritis
• scleroderma
• systemic lupus erythematosus

Question 58

Metalloproteinases

Answer 58

1. Collagenase
2. Stromelysin
3. Gelatinase

Question 59

Theories for why Inflammation occurs in Joints in RA

Answer 59

1. Abundant blood supply & rich capillary network
   - – Immune complexes might concentrate in synovium based on physical properties of vessels
2. Joint has no epithelial tissue (different than other body spaces)
3. Synovial lining is discontinuous w/occasional gaps & lacks formal basement membrane
4. Joint contains some unique cell types such as synoviocytes & chondrocytes that could be targeted as privileged antigens

Question 60

Gross pathology of synovium in RA

Answer 60

• Proliferation in pattern of villus fronds (proliferate like fern branches from common stalk to maintain contact w/synovial fluid)
• Rheumatoid knee may have synovium that weighs 10x a normal synovium

Question 61

Synovium in RA

Answer 61

• absolute ↑ in both Type A & Type B synovial cells
• diverse lymphocytes (B & T), NK cells, & mast cells —> cytokines, serine proteases, histamine, rheumatoid factors
• PGs, metalloproteases, oxygen radicals (superoxide), activated complement in synovial fluid
• pannus —> invades & destroys adjacent cartilages / bone

Question 62

Inflammatory joint diseases - symptoms / distribution

Answer 62

Systemic symptoms such as

• morning stiffness > 1 hr
• easy gelling
• unusual fatigue in afternoon & evening

Joint involvement can be

• symmetric (RA)
• asymmetric (axial arthropathies, septic joints)

Cartilage lost in symmetric pattern

Typically has one or more signs of inflammation

Question 63

Metabolic joint disease - Types

Answer 63

• gout (monosodium urate disease)
• pseudogout (calcium pyrophosphate dihydrate disease)
• hydroxyapatite deposition disease (basic calcium phosphate deposition disease)

Question 64

Metabolic joint disease - process

Answer 64

• Metabolic process causes crystals to form & deposit in joints
• –> intermittent signs of inflammation
• –> systemic symptoms
• –> bone erosions w/out cartilage loss

Question 65

Gout

Answer 65

• occurs after prolonged period of supersaturation of monosodium urate in serum & synovial fluid
• Complex mechanism whereby crystals ppt in joints & induce inflammation
• Episodic & very painful arthritis w/ swelling, redness, warmth
• Often in lower extremities
• May form tophi (crystalline deposits of uric acid in cartilage, joints, skin)

Question 66

Regulation of urate crystal formation in Gout

Answer 66

i. lower intraarticular temp
ii. presence of proteoglycans
iii. changes in pH
iv. reduced binding of urate to plasma protein
v. trauma
vi. aging
vii. connective tissue turnover

Question 67

Acute inflammatory response to crystals in Gout

Answer 67

• Not fully understood
• High level of uric acid, supersaturation & inflammatory response to crystals
• Neutrophils appear necessary to invoke response

Question 68

Synovium in acute gout

Answer 68

• can have clumps of crystals (tophus-like deposits) in synovium, neutrophil infiltration & some lymphocytes
• In chronic disease, large number of lymphocytes & plasma cells are seen

Question 69

Inflammatory Joint Diseases

Answer 69

Rheumatoid Arthritis
Axial Arthropathies
Septic Joints

Question 70

Site of Inflammation in Inflammatory Joint Diseases

Answer 70

Inflammation primarily in synovium —> secondary destruction of cartilage & bone

Question 71

Rheumatoid arthritis (RA)

Answer 71

= classic example of an inflammatory arthritis

• Can involve variety of major organ systems, but primarily a disease of the joints
• Primarily small joints

Question 72

Acute-phase response (APR)

Answer 72

• a large number of systemic & metabolic changes that occur with inflammation
• may represent early defensive mechanisms or adaptations to stress of inflammatory stimulus
• participants in innate immune response
• can measure via ESR or CRP

Cytokines stimulate liver to produce acute phase proteins (w/ consequence of decreased albumin production)

Question 73

Spondyloarthropathies - types

Answer 73

Ankylosing spondylitis
Reactive arthritis
Psoriatic arthritis
Inflammatory bowel disease arthropathy

Question 74

C-Reactive Protein (CRP)

Answer 74

= pentameric protein that behaves as primitive Ig

• -> can activate classic complement pathway & bind to Fcγ receptor
• Rapidly rises 2-3 days after acute inflammatory stimulus

Question 75

Antinuclear Antibodies (ANA)

Answer 75

• AutoAbs against cell nuclear antigens (commonly against DNA & small nuclear ribonucleoproteins - snRNPs)
• Associated w/ SLE & others like it

Question 76

Fluorescent antinuclear antibody tests

Answer 76

• to measure for antinuclear antibodies
• also pick up cytoplasmic antigens
• NONSPECIFIC - just tells pt is making autoAbs to nuclear components

Question 77

ANA profile (specific autoantigen tests)

Answer 77

Measures more specific cellular Abs

• Originally used immunodiffusion assay
• Includes Smith (Sm), nuclear ribonucleoprotein (snRNP), Ro/Sjogrens Syndrome Antigen (SS-A), La/SS-B, & anti-double stranded DNA (anti-ds-DNA)

More useful b/c can find specific antigens more characteristic of some diseases
EX: anti-Sm & anti-ds-DNA are relatively specific for SLE

Question 78

Organ specific autoimmunity

Answer 78

• Immune response directed against single autoantigen or restricted group of autoantigens
• –> destruction of specific organ or cell type
• EX: Thrombocytopenia <— autoAbs to platelets
• EXs: Myasthenia gravis, Type I diabetes, Pernicious anemia, Addison’s disease, & Autoimmune thyroid disease

Question 79

Spondyloarthropathies - manifestations

Answer 79

Spinal arthritis & enthesitis

Inflammatory low back pain

• insidious onset (months)
• prolonged morning stiffness
• pain improves w/ exercise
• no neurologic sequelae

Question 80

Organ damage in SLE

Answer 80

Organ damage can come about by both:
- Organ specific (type II)-mediated immunologic damage (direct Ab binding to specific cells /tissues)
OR
- Systemic autoimmunity (type III) - mediated immunologic damage (immune complexes)

Question 81

Systemic lupus erythematosus (SLE)

Answer 81

= classic autoimmune disease affecting multiple organ systems

Question 82

Categories of Vasculitis

Answer 82

• Large vessel vasculitis affecting aorta (giant cell (or temporal) arteritis & Takayasu’s arteritis)
• Medium vessel vasculitis (polyarteritis nodosa & Kawasaki’s disease)
• Small vessel vasculitis (granulomatosis w/ polyangiitis (GPA; formerly known as Wegener’s) & in leukocytoclastic vasculitis)

Question 83

Erythrocyte Sedimentation Rate (ESR)

Answer 83

= most widely used measure of an APR (acute phase rxn)
Process:
- Anticoagulated blood in vertical tube –> measure rate of fall of RBCs (usually over 1 hr)
- increased acute phase proteins —> increased aggregation of RBCs (rouleaux) —> fall more rapidly

Question 84

“Pauci-immune” mechanism for vasculitis

Answer 84

<–Abs to cytoplasmic Ags found in neutrophils (antineutrophil cytoplasmic antibodies (ANCA))
- ANCAs may be directly involved in pathogenesis of pauci-immune types of vasculitis

Defined by immunofluorescent staining of ANCAs

• Cytoplasmic staining (C-ANCA) binds to proteinase 3 (PR3) & is commonly seen in GPA
• Perinuclear staining (P-ANCA) binds to myeloperoxidase (MPO) & is seen in microscopic polyangiitis and other diseases

Question 85

Systemic autoimmunity

Answer 85

• Immune response against multiple autoantigens or antigens seen in most cells & not to a specific organ or cell type
• –> affects multiple organs due to circulating immune complexes or direct immune attack
• Seen classically in SLE

Question 86

Inheritance of MHC genes

Answer 86

Inherited co-dominantly:

• Receive 1 allele at each locus from each parent
• Located on short arm of chromosome 6

Question 87

Vasculitis

Answer 87

• Heterogenous group of diseases usually categorized by size of vessels involved

Question 88

2 most common immune mechanisms to explain cause of vasculitis

Answer 88

1. Immune complexes

2. “Pauci-immune” mechanism associated w/ antineutrophil cytoplasmic antibodies (ANCA)

Question 89

Class II region of MHC locus

Answer 89

Has HLA-DR, DP, & DQ gene loci
= only expressed in B-cells, DCs, macrophages, and thymic epithelium
= primarily involved in presentation of “exogenous” extracellular antigens (bacterial, fungi, other)

Question 90

Major Histocompatibility Complex (MHC) (Human Leukocyte Antigen [HLA] System)

Answer 90

= thought to be important hereditary component to predisposition of an autoimmune disease
= set of closely-linked genes whose products regulate recognition of foreign antigens by T cells

Question 91

Contents of MHC locus

Answer 91

Contains 3 major immunologically-important regions

• Class I region (~universal, endogenous Ags)
• Class II region (restricted to APC, exogenous Ags)
• Class III region (complement, TNF, etc.)

Many autoimmune diseases are associated w/a particular MHC Class I or II allele

Question 92

Class I region of MHC locus

Answer 92

Has HLA A, B, C, & other gene loci
= expressed on all nucleated cells
= thought to be involved in presentation of “endogenous” cytoplasmic antigens (viral, tumor, etc)

Question 93

Class III region of MHC locus

Answer 93

Has gene locus for…

• various components of complement (C4a, C4b, C2, Bf)
• tumor necrosis factor
• other proteins