L47 Vasculitis

Question 1

What is vaculitis?

Answer 1

Inflammation involving blood vessels, typically arteries

Question 2

When should vasculitis be on the differential?

Answer 2

1. Presence of constitutional symptoms

2. Symptoms suggestive of specific organ involvement

Question 3

Generally, what happens in vasculitis?

Answer 3

Inflammation in the vessels leads to thickening, infiltration of immune cells, giant cell formation, thrombosis formation, and narrowing of the lumen. This leads to occlusion and ischemia.

Question 4

What types of vasculitis affect large vessels?

Answer 4

1. Giant cell arteritis

2. Takayasu arteritis

Question 5

What types of vasculitis affect medium vessels?

Answer 5

1. Polyarteritis nodosa

2. Kawasaki disease

Question 6

What types of vasculitis affect small vessels - ANCA associated?

Answer 6

1. Granulomatosis with polyangitis
2. Eosinophilic granulomatosis with polyangitis
3. Microscopic polyangitis

Question 7

What types of vasculitis affect small vessels - immune complex associated?

Answer 7

1. IgA vasculitis

2. Cryoglobulinemic vasculitis

Question 8

What is another name for giant cell arteritis?

Answer 8

Temporal arteritis

Question 9

Discuss the epidemiology of giant cell arteritis.

Answer 9

1. Typically affects people >50 (mean: 70-75 years)
2. 2/3 female
3. Most common primary vasculitis
4. Highest incidence in Scandinavian populations

Question 10

Of the four general presentations, what is the common presentation of giant cell arteritis?

Answer 10

Polymyalgia Rheumatica (PMR)

Question 11

What are the symptoms of PMR?

Answer 11

1. Significant stiffness in the proximal joints (shoulders, hips)
2. Pain in the proximal joints and muscles
3. Prolonged morning stiffness

Question 12

What are the 4 presentations of giant cell arteritis?

Answer 12

1. Cranial arteritis
2. Polymyalgia rheumatica
3. Nonspecific inflammatory disease (constitutional symptoms)
4. Large vessel vasculitis

Question 13

What are the symptoms seen in cranial arteritis?

Answer 13

Headache, visual loss (up to 20%), scalp/temporal tenderness, claudication of jaw and tongue muscles

Question 14

What are the nonspecific inflammatory disease symptoms?

Answer 14

Fever, night sweats, malaise, weight loss, anemia, leukocytosis, thrombocytosis (ESR and CRP usually high)

Question 15

What are the large vessel vasculitis symptoms?

Answer 15

Asymptomatic, signs of ischemia may be absent

Question 16

Where does giant cell arteritis occur?

Answer 16

Aorta, femoral, iliac, subclavian, temporal

Question 17

What causes giant cell arteritis?

Answer 17

Cause is unknown, but it involves chronic, usually granulomatous inflammation of large and medium arteries. It involves the innate and adapative immune systems, and TNF-alpha, IL-6, and IFN-gamma are involved.

Question 18

Describe the morphology of giant cell arteritis.

Answer 18

1. Patchy/skip lesions
2. Lumen occlusion, sometimes thromboses
3. Granulomatous inflammation

Question 19

Describe the granulomatous inflammation seen in giant cell arteritis.

Answer 19

1. Found within the inner media centered on the internal elastic membrane
2. Infiltrate of lymphocytes, macrophages, and giant cells
3. Fragmentation and destruction of internal elastic lamina

Question 20

What is a granuloma?

Answer 20

Collection of localized inflammatory cells

Question 21

What is a giant cell?

Answer 21

Union of multiple macrophages

Question 22

How is giant cell arteritis diagnosed?

Answer 22

1. History and physical
2. Biopsy temporal arteries
3. No specific markers or serolies
4. Elevated ESR and CRP indicate inflammation
5. Angiogram if large vessels involved

Question 23

Temporal artery biopsy carries risk of ___.

Answer 23

False negatives

Question 24

Giant cell arteritis can cause ___.

Answer 24

Aneurysms

Question 25

What is another name for Takayasu arteritis?

Answer 25

Pulseless disease

Question 26

What vessels are affected in Takayasu arteritis?

Answer 26

Large and medium vessels

Question 27

Discuss the epidemiology of Takayasu arteritis.

Answer 27

1. Patients are younger than 50 years of age

2. Very rare

Question 28

What vessels are affected in Takayasu arteritis?

Answer 28

Classically affects the aortic arch and arch vessels, including the subclavian artery; 1/3 also involve remainder of aorta and its branches, pulmonary, renal, and coronary arteries

Question 29

What are the symptoms of Takayasu arteritis?

Answer 29

Pulselessness and ischemia

Question 30

How is Takayasu arteritis diagnosed?

Answer 30

1. Clinical
2. Elevated ESR/CRP (not always elevated)
3. CT or MR angiogram

Question 31

Discuss the pathogenesis of Takayasu arteritis.

Answer 31

It is poorly understood; it involves the major cytokines (IL-6, IL-8, IL-18)

Question 32

Describe the histology and morphology of Takayasu arteritis.

Answer 32

1. Granuloma formation
2. Transmural scarring and vessel thickening
3. Adventitial and transmural mononuclear infiltrates
4. Giant cells
5. Patchy medial necrosis
6. Irregular thickening of the vessel wall, intimal hyperplasia, adventitial fibrosis

Question 33

___ is more common in Takayasu arteritis than Giant Cell arteritis.

Answer 33

Collateral vessel formation

Question 34

Discuss the epidemiology of polyarteritis nodosa.

Answer 34

1. Very rare

2. High incidence in Hepatitis B

Question 35

Discuss the pathogenesis of polyarteritis nodosa.

Answer 35

Little known

Question 36

What arteries are affected in polyarteritis nodosa?

Answer 36

Medium and sometimes small arteris

Question 37

What are the symptoms of polyarteritis nodosa?

Answer 37

1. Thrombosis, aneurysms, ischemia
2. Constitutional symptoms
3. Hypertension (kidney involvement)
4. Bloody stools from mesenteric ischemia (GI involvement)
5. Muscle pain
6. Mononeuritis multiplex
7. Orchitis
8. Ulcers/infarcts/livedo reticularis (skin)

Question 38

Describe the histology and morphology of polyarteritis nodosa.

Answer 38

1. Focal, segmental skip lesions
2. Transmural necrotizing inflammation
3. Neutrophils and mononuclear cells
4. Fibrinoid necrosis
5. Luminal thrombosis

Question 39

How is polyarteritis nodosa diagnosed?

Answer 39

1. ESR and CRP
2. Muscle/nerve biopsy
3. Abdominal angiography if GI symptoms
4. Test for Hep B

Question 40

Discuss the epidemiology of Kawasaki disease.

Answer 40

1. Seen in infants and young children (<5 years)

2. Rare, but the most common vasculitis in children

Question 41

What vessels are affected in Kawasaki disease?

Answer 41

Medium vessels, especially coronary arteries

Question 42

If not treated appropriately, what happens in Kawasaki disease?

Answer 42

1/5 children develop coronary artery aneurysms

Question 43

How is Kawasaki disease diagnosed?

Answer 43

1. Diagnostic criteria
2. Lab testing for inflammation
3. Echocardiogram to evaluate the heart/coronary arteries

Question 44

What are the diagnostic criteria for Kawasaki disease?

Answer 44

1. Persistant fever (>5 days) +
2. Nonpurulent bilateral conjunctivitis
3. Oral mucosal involvement (erythematous pharynx, red/fissured lips, strawberry tongue)
4. Soft tissue abnormalities of hands and feaet
5. Polymorphous nonvesicular rash
6. Cervical adenopathy

Question 45

Discuss the pathogenesis of Kawasaki disease.

Answer 45

1. Microbial agent (mostly viral) triggers

2. Possible delayed type hypersensitivity response directed against cross-reactive or newly uncovered vascular Ag

Question 46

Discuss the histology/morphology of Kawasaki disease.

Answer 46

1. Transmural inflammatory infiltrate
2. Destruction of elastin and collagen fibers
3. Fibrinoid necrosis (less severe than PAN)

Question 47

What is ANCA?

Answer 47

Anti-neutrophil cytoplasmic antibody - directed against components of neutrophil granules

Question 48

What are the two types of ANCA?

Answer 48

1. Anti-myeloperoxidase (anti-MPO, p-ANCA)

2. Anti-proteinase 3 (anti-PR3, c-ANCA)

Question 49

What is myeloperoxidase?

Answer 49

Lysosomal granule involved in oxygen free radical generation

Question 50

What is proteinase 3?

Answer 50

Serine protease in the azurophilic granule that shares homology with several microbial peptides

Question 51

What diseases involve p-ANCA?

Answer 51

1. MPA

2. EGPA

Question 52

What diseases involve c-ANCA?

Answer 52

1. Granulomatosis with polyangitis (aka Wegener granulomatosis)

Question 53

How does ANCA work?

Answer 53

1. ANCA formation induced by drug or cross reactive microbial antigen
2. During subsequent infection or stimulus, inflammatory cytokines like TNF increase neutrophil surface expression or release of PR3 and MPO.
3. ANCAs bind these cells, further activating neutrophils
4. ANCA activated neutrophils release granule contents and reactive oxygen species leading to vascular damage.

Question 54

Describe the difference between c-ANCA and p-ANCA on immunofluorescence.

Answer 54

c-ANCA: diffuse granular centrally accentuated staining

p-ANCA: ribbon-like perinuclear staining

Question 55

Discuss the presentation of ANCA vasculitis in general.

Answer 55

1. Affects small vessels
2. Classic triad of inflammatory manifestation: lungs, kidneys, skin
3. ANCA usually positive

Question 56

Discuss the pathogenesis of Granulomatosis with Polyangitis (GPA).

Answer 56

1. Cell-mediated hypersensitivity response to an environmental trigger
2. PR3 antibodies present in 95%
3. T cell activation

Question 57

What upper airway disease is seen in GPA?

Answer 57

Recurrent sinusitis, recurrent nasopharyngeal ulcers, septal perforations, saddle nose deformities

Question 58

What lower respiratory disease is seen in GPA?

Answer 58

Nodules

Question 59

What kidney disease is seen in GPA?

Answer 59

Glomerulonephritis, may lead to end stage renal disease, proteinuria, hematuria

Question 60

What other presentations are seen in GPA?

Answer 60

Arthritis, mononeuritis multiplex, conjunctivitis, uveitis, scleritis, palpable purpura, ulcers

Question 61

What is mononeuritis multiplex?

Answer 61

Loss of sensory and motor function due to inflammation of involved nerves

Question 62

What is palpable purpura?

Answer 62

Non-itchy, palpable rash on the dorsal aspects of the feet and ankles. It is non-blanching, dark, and erythematous.

Question 63

Discuss the respiratory morphology of GPA.

Answer 63

1. Granulomatous sinusitis
2. Necrotizing granulomatous vasculitis in the lungs
3. Vascular destruction leads to hemorrhage and hemoptysis

Question 64

Discuss the skin morphology of GPA.

Answer 64

1. Leukocytoclastic vasculitis - neutrophilic infiltrates surrounding and disrupting small vessels, fibrin desposits and nuclear debris, extravasated red blood cells in the adjecent dermis

Question 65

Discuss the renal morphology of GPA.

Answer 65

1. Glomerulonephritis - glomerular necrosis, thrombosis of isolated glomerular capillary loops
2. Crescentic glomerulonephritis in advanced disease - diffuse necrosis, parietal cell proliferation forming epithelial crescents
3. Pauci-immune on immunofluorescence - lacking deposits

Question 66

Eosinophilic granulomatosis with polyangitis (EGPA) was formerly known as ___.

Answer 66

Churg Strauss Syndrome

Question 67

What are the three phases of EGPA?

Answer 67

1. Atopic phase, allergic rhinitis, and asthma
2. Eosinophilia
3. Systemic vasculitis

Question 68

Discuss the presentation of EGPA.

Answer 68

1. Pulmonary infiltrates
2. Mononeuritis multiplex
3. Ocular inflammation
4. Glomerulonephritis
5. Palpable purpura
6. Asthma
7. Cardiomyopathy
8. Cronary arteritis
9. Eosinophilic gastroenteritis

Question 69

MPA and GPA are similar - how are they different?

Answer 69

MPA is less likely to involve upper respiratory tract

Question 70

What are the symptoms of MPA?

Answer 70

Glomerulonephritis, alveolar hemorrhage, polyneuropathy, palpable purpura

Question 71

Describe the morphology of MPA.

Answer 71

1. Segmental fibrinoid necrosis of media
2. Focal transmural necrotizing lesions
3. Granulomatous inflammation absent
4. Similar to PAN, but spares medium/large vessels
5. Leukocytoclastic vasculitis