Pathology of Hypertension Lecture Notes PDF

Summary

These are lecture notes on the pathology of hypertension, covering definitions, types, causes and target organ damage. The notes cover essential and secondary hypertension, including renal, endocrine and cardiovascular causes. The document also discusses pathological features and complications.

Full Transcript

Pathology of Hypertension
Dr Adam Botha
Division of Anatomical Pathology
University of the Witwatersrand / National Health Laboratory Service
Learning objectives
By the end of the session, the student will be able to define
hypertension
By the end of the session, the student will be able to list the
different types and causes of hypertension
By the end of the session, the student will be able to describe the
pathogenesis of different types of hypertension
By the end of the session, the student will be able to recognise
and describe the pathological features, complications and target
organ damage associated with hypertension
Hypertension
Defined as having a systolic blood pressure ≥140mmHg or
diastolic blood pressure ≥90mmHg
Importance of hypertension
Common disease – approximately 29% of general population
hypertensive based on the above criteria
Largely clinically silent (until late stages of the disease)
Causes complications in multiple end organs
If left untreated- half of patients will die of heart complications
(ischaemic heart disease or congestive heart failure), and another
third of stroke
Treatment with blood pressure-lowering drugs dramatically
reduces incidence and death rates attributable to hypertension-
related pathology
Types of hypertension
Essential hypertension

Secondary hypertension
Essential hypertension
90-95% of cases of hypertension
“Idiopathic”
Essential hypertension – “Idiopathic”
Does not mean that there is no cause / underlying risk factors
Cumulative effect of:
Multiple non-genetic factors (e.g. stress, salt intake, obesity, smoking)
Multiple (individually minor) genetic polymorphisms controlling:
Vasomotor tone and blood volume regulation
Sodium homeostasis e.g. enzymes that influence aldosterone synthesis, renal
epithelial sodium channel proteins
Secondary hypertension
Attributable to a single or well-defined group of identifiable
underlying causes / diseases
May divide into categories depending on system involved:
Renal
Endocrine
Cardiovascular
Neurologic
Secondary hypertension- Renal causes
Renovascular hypertension
As a result of renal artery stenosis or fibromuscular dysplasia
Decreased glomerular flow and decreased pressure in afferent arteriole
of glomerulus → renin secretion → ↑ vascular tone and blood volume
Younger than other causes of hypertension (3rd to 4th decade), >
Renal artery stenosis:
Responsible for 2-5% of hypertension cases
Curable by surgery
70% caused by narrowing at origin by atheromatous plaque (older, diabetes)
Fibromuscular dysplasia:
Heterogenous entity characterised by thickening of intima, media or adventitia
Robbins and Cotran Pathologic Basis of Disease, 9th Ed. Mitchell RN, Kumar, V et al. Eds. Elsevier Saunders, Philadelphia, 2017
Secondary hypertension - Renal causes
Acute glomerulonephritis
Chronic renal disease
Polycystic disease
Renal vasculitis
Renin-producing tumours (e.g. reninomas - benign tumors
originating from the cells of the juxtaglomerular apparatus)
Secondary hypertension – Endocrine causes
Adrenocortical hyperfunction
Exogenous hormones
Pheochromocytoma
Acromegaly
Hypothyroidism
Hyperthyroidism
Pregnancy-induced
Secondary hypertension – Endocrine causes
Adrenocortical hyperfunction
Cushing syndrome
Primary aldosteronism
Congenital adrenal hyperplasia
Licorice ingestion
Secondary hypertension – Endocrine causes
Exogenous (iatrogenic) hormones:
Glucocorticoids
Oestrogen
Sympathomimetics
Tyramine-containing foods
Monoamine oxidase inhibitors
 Secondary hypertension – Endocrine causes
Phaeochromocytoma
Neoplasm of the adrenal medulla
90% present with hypertension (particularly paroxysmal episodes with
palpitations)
Important treatable secondary causes of hypertension in younger
individuals

Robbins and Cotran
Pathologic Basis of
Disease, 9th Ed. Mitchell
RN, Kumar, V et al. Eds.
Elsevier Saunders,
Philadelphia, 2017
Secondary hypertension – Cardiovascular
causes
Aortic disease
Coarctation
Rigidity
Vasculitis
Increased intravascular volume or increased cardiac output
Secondary hypertension – Neurologic causes
Psychogenic
Increased intracranial pressure
Sleep apnea
Pathological features
Target organ damage predominantly as a result of vascular
pathology:
Large vessels (as well as medium and small vessels)
Accelerates atherosclerosis
Degenerative changes in walls (↑risk aortic dissection, cerebrovascular
haemorrhage)
Small arterioles – arteriolosclerosis = general term denoting
arterial wall thickening and loss of elasticity
 Pathological features
Arteriolosclerosis in hypertension – two forms:
1. Hyaline arteriolosclerosis:
Endothelial cell injury → plasma leakage into arteriole wall → ↑smooth
muscle cell matrix
Microscopically: diffuse pink hyaline arteriolar wall thickening with
luminal stenosis

Robbins and Cotran Pathologic Basis of Disease, 9th Ed. Mitchell
RN, Kumar, V et al. Eds. Elsevier Saunders, Philadelphia, 2017
 Pathological features
Arteriolosclerosis in hypertension – two forms:
2. Hyperplastic arteriolosclerosis
Occurs in severe hypertension
Reduplication of basement membrane and smooth muscle cell
proliferation
Microscopically: concentric laminated (“onion-skin”) thickening of walls
with luminal narrowing

Robbins and Cotran Pathologic Basis of Disease, 9th Ed. Mitchell RN,
Kumar, V et al. Eds. Elsevier Saunders, Philadelphia, 2017
“Malignant” hypertension
Small percentage of hypertensive persons (up to 5%)
Show rapidly rising blood pressure – if untreated leads to death
within 1-2 years
Characterised by severe hypertension – often systolic blood
pressure > 120mmHg and diastolic blood pressure >120mmHg
Other features: encephalopathy, renal failure, retinal haemorrhage
and exudates (with or without papilledema)
Microscopically: hyperplastic arteriolosclerosis + fibrinoid
deposits and vessel wall necrosis = necrotising arteriolitis
 Complications / target organ damage
Kidney:
Long-standing blood pressure:
Nephrosclerosis: A term used for the renal pathology
associated with sclerosis of small renal arteries and
arterioles
Macroscopy: Fine, granular cortical surface
Microscopy
Tubular atrophy, interstitial fibrosis and glomerular sclerosis due
to ischaemia
Hyaline arteriosclerosis

Robbins and Cotran Pathologic Basis of Disease, 9th Ed. Mitchell RN, Kumar, V et al. Eds.
Elsevier Saunders, Philadelphia, 2017
 Complications / target organ damage
Kidney:
Malignant hypertension results in:
Malignant nephrosclerosis:
Macroscopy: Small, pinpoint petechial haemorrhages on the cortical surface of the
kidney – imparting a ‘flea bitten’ appearance
Microscopy: Fibrinoid necrosis of arterioles, necrotic glomeruli infiltrated by
neutrophils, thrombosed glomerular capillaries, necrotising arteriolitis

Robbins and Cotran Pathologic Basis of Disease, 9th Ed. Mitchell RN, Kumar, V et al. Eds. Elsevier Saunders, Philadelphia, 2017
Complications / target organ damage
Heart:
Hypertensive heart disease (HHD) is a consequence of increased demand
placed on the heart by hypertension, causing pressure overload and ventricular
hypertrophy
Pathologic criteria for diagnosis:
Concentric left ventricular hypertrophy in the absence of other cardiovascular pathology
Clinical history or pathologic evidence of hypertension in other organs
Macroscopy:
Hypertrophy often >2cm in thickness, total heart weight >500g, hypertrophy leads to
stiffness that impairs diastolic filling, inducing left atrial enlargement
Microscopy:
Increased diameter of cardiac myocytes with variable degrees of cellular and nuclear
enlargement
Interstitial fibrosis
Complications / target organ damage
Central nervous system (CNS):
Lacunar infarcts
Slit haemorrhages
Hypertensive intraparenchymal haemorrhage
Hypertensive encephalopathy
Complications / target organ damage - CNS
Lacunar infarcts
Pathogenesis:
Deep penetrating arteries and arterioles that supply the basal ganglia and
hemispheric white matter as well as the brainstem develop arteriolar sclerosis and
may become occluded
Macroscopy:
Single or multiple, small cavitary infarcts - lake-like spaces,