Pathology of Blood Vessels PDF

Summary

This document provides a detailed overview of the pathology of blood vessels. It covers various topics, including clotting mechanisms, different types of blood vessel disorders, and related conditions like atherosclerosis and thrombosis. Clinical aspects and pathological features are explored extensively.

Full Transcript

Pathology of Blood Vessels

Dr Derek TW Yau
Email: [email protected]
 Overview of artery system
Nutrient, O2

Immune cells,
etc

Elastic fibers: ↓energy
loss during flow

Muscular: control
vascular resistance
R is inversely
proportional to d4

Arteriole: fine tune
flow to capillaries
Waste,
CO2
Acid, etc
 Thrombosis
Pathologic
– Vs physiologic hemostasis
– Due to disturbed balance between antithrombotic and
prothrombotic processes
– Thrombosis involves
Activation of platelets
Activation of coagulation pathways
Endothelial cells
Vascular stasis
 Virchow triad
Turbulence
(bifurcation,
aneurysm) Endothelial
Hypertension injury
Cytokine/Infection

AGE products

Cigarette/ toxin/
foreign body

Immobilization Clotting factors
Hyper-
Stasis abnormalities (FV
Leiden, lack
coagulability protein C)
Dilated lumen
(e.g. aneurysm,
heart chamber Oral
dilation) Contraceptive

Trauma

Atrial fibrillation
Cancer
 Clotting: Fibrin formation
Cascade of processes
– End product of fibrin polymer by thrombin
Intrinsic vs extrinsic pathway
– Contact activation vs tissue factor activation
Collagen
exposure
 Role of platelets
Injury
– platelet adhesion (facilitated by vWF):
degranulation and platelet thrombus + initiate
clotting cascade (complex thrombus)
Promoters of platelet aggregation
– thrombin, collagen, ADP, thromboxane A2,
platelet-activating factor (PAF), epinephrine,
and vasopressin
 Important Role of Endothelium
Procoagulant Anti-coagulant
TFI
Platelet
Protein C

Inhibit Thrombom
Lyse clot odulin
Clotting cascade Plasmin

PGI2/NO
Injury Tissue
factor ADP
Plasminogen

vWF metabolize

Collagen
 Fate of a clot
Propagation
– Increase in size
Lysis
– Dissolves (thrombolytic activity of the blood)
Organization
– Recanalization
Embolization
– Becomes dislodged and travels to other sites
 Diseases of blood vessels
Arteriosclerosis/ Arteriolosclerosis
– “Hardening” of the arteries/ arterioles
– Former caused by atherosclerosis
Mönckeberg medial sclerosis
– Calcifications of the medial layers (no clinical
effect)
Fibromuscular intimal hyperplasia
– In muscular arteries, represent healing
response
Vasculitis
 Blood vessel functions fail
Fail to contain blood
– Hemorrhage
Fail to maintain vascular tone/ blood flow
– HT/ hypotension (can lead to shock)
– Ischemia/ infarct
 Types of infarcts
Pale infarct
– Heart, kidney, spleen
Red infarcts
– in organs with a dual blood supply (e.g. lung),
or with extensive collaterals (e.g., small
intestine, brain)
Cystic infarct
– E.g. brain
Septic infarct
– Superimposed bacterial infection
 Atherosclerosis

– Classic atherosclerotic lesion
fibroinflammatory lipid plaque at luminal surface
(atheroma)
– Develop over decades
multiple gene polymorphisms interact with one
another and environment
– Genetic (hereditary)
familial hypercholesterolemia
 Risk Factors for Atherosclerosis

Elderly/ Male
Physical inactivity/stress/smoking
Hypertension/Diabetes
Blood cholesterol level
– Bad cholesterol: atherogenic (LDL, VLDL)
Vs Good cholesterol: antiatherogenic lipoproteins
(HDL)
– HDL carry cholesterol (including from vessel) to liver for
elimination
 Risk Factors for Atherosclerosis
Familial hypercholesterolemia (LDLR)
Apolipoprotein E
Lipoprotein a
Homocystinuria
Infection
 Precursor Lesions of
Atherosclerosis
– Fatty streak (yellow)
Subendothelial lipid accumulation
Starts in childhood
– Intimal cell mass (white)
At branch points in the arterial tree
Smooth muscle cells + connective tissue; no lipid
 Established Lesions of
Atherosclerosis
Fibroinflammatory lipid plaque
– Elevated/flat, pale yellow, smooth-surfaced
lesions

Over many years
Precursor
Established
Fatty Streaks

atherosclerosis
Intimal cell mass

(plaques)
 Structure of an atheroma
Endothelium - fibrous cap – necrotic core
– Fibrous cap: smooth muscle cells, matrix,
lymphocytes, foamy histiocytes
– Cholesterol crystals/ foreign-body giant cells
– Neovascularization contribute to plaque
growth and complications
 Composition of atheroma

Mesenchymal
/SMC
 Pathogenesis of Atherosclerosis
Flow turbulence
– shear stress: endothelial dysfunction, lipid
accumulation
Oxidized LDL
– Recruits/activates macrophages
– Lipid accumulation, release growth factors (↑
smooth muscle cells)
Highly dynamic/ complex process
Not always “stable”!!
 Plaque with complication
A complicated plaque
– Erosion/ulceration/fissure/intralesional
hemorrhage  potentiate stenosis
– Mural thrombosis +/- embolization/ aneurysm
formation
– In coronary system: Clinical manifest as
“Acute coronary syndrome”
 Complicated plaque
Hemorrhage
Clotting Cascade
-Thrombosis
-Emboli
 Complications of Atherosclerosis

Effects:
– Luminal stenosis  compromise flow
ischemia
Heart
– Ischemic heart disease/ myocardial infarction
Brain
– Stroke
Others
– gangrene of the extremities (peripheral vascular disease)
or viscera
Chronic effect: atrophy of end tissue
– Thromboembolism/ Aneurysm
 Arterial Aneurysms
Localized (congenital or acquired) dilations
of blood vessels due to weakness of the
media
Cause: atherosclerosis, traumatic,
mycotic, syphilis Fusiform
Different forms
– Fusiform
– Saccular (e.g. berry aneurysm of cerebral
arteries) Saccular
 Arterial Aneurysms

– (Pseudo aneurysms – injured vessel with
hematoma)
Complications
– Rupture, dissection, thrombosis +/- emboli
 Aortic Dissection
Intimal tear
– Blood tracks, create a
false lumen (inner 2/3
and outer 1/3 media)
– re-enter the lumen or
perforate with massive
bleed
– Obstruction
HT, Marfan/ Loeys-
Dietz/ Turner’s,
inflammation
 Hypertension (Systemic arterial
hypertension)
Blood pressure = cardiac output x
systemic vascular resistance
– Influenced by renal function, sodium
homeostasis, renin-angiotensin system
(sympathetic output/ vasoconstriction,
mineralocorticoid)
Primary hypertension (95%)
Secondary hypertension
 Acquired Causes of Hypertension
(Secondary HT)
Renal artery stenosis, coarctation of the
aorta
Renal disease, hyperendocrine
(aldosterone, Cushing syndrome,
pheochromocytoma, hyperthyroidism)
Tumor (with renin secretion)
 Pathology of hypertension
Hyaline arteriolosclerosis
– Arterioles with homogeneous, pink hyaline
thickening and luminal narrowing
Hyperplastic arteriolosclerosis
– In malignant hypertension: concentric,
laminated (“onion-skin”); fibrinoid necrosis
(usu. in kidney)
Emergency: markedly ↑BP, rapid organ damage
Atherosclerosis
Malignant Hypertension
 Pathology of hypertension
In the end…
–Damaging effect on blood vessels
ultimately cause ischemia and organ damage
E.g. Benign nephrosclerosis: arteriolar narrowing
causes glomerular scarring; Cardiovascular
disease; Cerebrovascular disease
– Aortic dissection/ rupture aneurysm
 Pulmonary hypertension
Pulmonary arterial system
– Normally a low pressure system
Pulmonary HT caused by
– left heart failure, congenital heart disease,
valve disorders, obstructive or interstitial lung
disease, recurrent thromboemboli to lung
Pathology
– Fibrointimal hyperplasia of pulmonary arteries
 Disorders of venous system
Varicose Veins
Esophageal varices
Superficial thrombophebitis
Deep venous thrombosis
 Deep venous thrombosis
Thrombosis affects leg/ pelvic veins
– Fate same as before (Lysis, Organization,
propagation and embolization)
Pulmonary embolization
Effect of pulmonary embolism depends on
– Size and distribution of emboli; Acute or
chronic
 Deep venous thrombosis
Smaller pulmonary emboli
– Pulmonary Infarction
settle in peripheral pulmonary arteries
Pathology: hemorrhagic and pyramidal with base
on pleural surface
– Chronic small emboli
Chronic pulmonary hypertension
 Deep venous thrombosis
Large pulmonary emboli
– block main pulmonary arteries or their first
branches (e.g. saddle embolus at the
bifurcation of the main pulmonary artery)
– Hemodynamically important: shock
– Embolization to smaller pulmonary branches
can occur
 Deep venous thrombosis
Paradoxical Embolism
– emboli from venous circulation to organs
other than the lungs;
– direct access of systemic circulation through
right-to-left shunt (e.g. patent foramen ovale)
 Other forms of embolism
Air Embolism
– Air enter the venous circulation
– 100 ml can result in sudden death
– Decompression sickness in scuba divers:
nitrogen bubbling from blood with rapid ascent
Amniotic Fluid Embolism
– Complication of childbirth
– Amniotic fluid enter maternal circulation
through open uterine and cervical veins 
fatal consumptive coagulopathy
 Other forms of embolism
Fat and marrow embolism
– following severe trauma, particularly
accompanying bone fractures
 Vaculitis
Vasculitis:
– Inflammation + damage of blood vessels
– May affect arteries, veins, and capillaries, or
combination thereof
– Etiology: autoimmune, infectious agents,
mechanical trauma, radiation, toxins,
idiopathic
– Classified by size and distribution of vessels
involved, etiology and clinical
Vasculitis

(Churg –Strauss)
 Takayasu Arteritis

Young woman 60 yr old
Aortic aneurysms and dissection occur
 Giant cell (temporal) arteritis
Gross Pathology: cord-like, nodular
thickening of temporal artery
Microscopic: Mixed inflammation (+
granuloma and giant cells), giant cells tend
to be at internal elastic lamina, vessel
damage with necrosis/ fragmented internal
elastic lamina, stenotic lumen
 Polyarteritis Nodosa
– medium-sized/ smaller muscular arteries
– occasionally larger arteries
– Causes: viral infections such as HBV/HCV
and HIV
– Pathology: segmental (predilection at branch
point), mixed transmural inflammatory
infiltrate, fibrinoid necrosis
 Polyarteritis Nodosa
Healing phase (after tx) fibrosis and gaps
of the media
Complication: thrombosis, infarct,
aneurysm

Gap in
vessel
 Microscopic Polyangiitis

Reaction to foreign materials (e.g.,
bacterial products or drugs)
If mostly skin
– leukocytoclastic vasculitis (nuclear debris
from disintegrating neutrophils)
Affects smallest arterioles
Strongly associated with p-ANCA.
 Wegener granulomatosis
Aka Granulomatosis with polyangiitis
(GPA)
Over 90% of patients positive for ANCA
(mostly c-ANCA)
Pathology (triad):
– Acute necrotizing granulomas of the
respiratory tract (upper and/or lung)
 Wegener granulomatosis
Pathology (triad):
– Necrotizing or granulomatous
vasculitis affecting small- to medium-sized
vessels (often lungs and upper airways)
– Focal necrotizing, often crescentic,
glomerulonephritis
 Irregular
geographic “dirty”
with neutrophils

Vasculitis: fibrinoid
necrosis of media
 Churg–Strauss Syndrome
Allergic Angiitis and Granulomas
– Preceded by severe asthma/ tissue
eosinophilia
– >60% p-ANCA (antineutrophil cytoplasmic Ab)
– Necrotizing eosinophilic vasculitis (small to
medium sized vessels) involving all major
organ systems
– Microscopy: granulomas + abundant
eosinophilic infiltrates + fibrinoid necrosis in
blood vessel/ adjacent soft tissue
Churg–Strauss Syndrome
 Kawasaki Disease

Aka mucocutaneous lymph node
syndrome
– an acute necrotizing vasculitis of infancy and
early childhood
– high fever, skin rash, conjunctival and oral
lesions, and lymphadenitis
– 70% vasculitis of the coronary arteries 
coronary artery aneurysms
 Buerger Disease

Aka thromboangiitis obliterans
– occlusive inflammatory disease of medium-
/small-sized arteries in the distal arms and
legs, “corkscrew” arteries ankle/wrist
– mostly in young to middle-aged men who
smoked heavily
– Microscopic: Neutrophilic vasculitis, extension
to adjacent veins and nerves
Microabscesses of the vessel wall
Thrombosis and lumen obliteration
 Behçet Disease

A systemic vasculitis characterized by oral
aphthous ulcers, genital ulcers, and ocular
inflammation
Occasionally, there are lesions in the CNS,
gastrointestinal tract, and cardiovascular
system
Large and small vessels show vasculitis
 Infectious vasculitis
Caused by bacteria or fungi (Aspergillus
and Mucor, so-called invasive fungal
infection)
Secondary involvement next to localized
tissue infection (e.g., bacterial pneumonia
or adjacent to abscesses) or
hematogenous spread from focus of
infection e.g. bacterial endocarditis
 Vascular tumours
Classification: benign, borderline and
malignant
– Hemangioma, hemangioendothelioma,
angiosarcoma
“Intravascular tumors”
– Not vascular tumours per se: Other lineage of
tumours but prominent intravascular growth
e.g. IV leiomyomatosis, nodular fasciitis;
intravenous growth of malignancy e.g. HCC
 Summary
Clotting
– Pathologic mechanism
– Fate
Blood vessel
– Atherosclerosis
Mechanism, Plaque complication
– Arterial system and venous system disease
– Inflammation of vessels
Clinicopathologic features of various forms
– Tumours
Dr Derek, Tsz Wai Yau

[email protected]