Cardio L14 Hypertension Flashcards

1
Q

Hypertension: Definition

A

Diastolic (and systolic) blood pressures vary widely in the population and show a normal distribution.

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2
Q

Hypertension: Prevalence

A

20% of adults

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3
Q

Isolated Systolic Hypertension

A

Isolated elevation in systolic pressure alone with normal diastolic pressures. Common in the elderly and is predominantly due to increased stiffness/reduced compliance of the large blood vessels including the aorta.

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4
Q

White Coat Hypertension

A

Rise in Blood pressure while being examined by a physician e.g. fight or flight response.

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5
Q

Primary (essential) Hypertension

A

95% of cases, no cause identified.

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6
Q

Secondary Hypertension

A

2-5% of cases with a defined underlying cause.

Uncommon but important because it may be curable.

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7
Q

Hypertension Symptoms

A
  1. The majority of hypertensive patients are asymptomatic and it is discovered during a routine physical examination.
  2. The “classic” symptoms of headache and nosebleeds do not appear to occur more frequently than in the general population, except in very severe hypertension.
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8
Q

Signs of hypertension

A
  1. High BP
  2. Signs due to organ damage
  3. There may be signs due to the underlying cause in secondary hypertension.
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9
Q

Organ damage: from hypertension Brain Symptoms:

A
  1. Longstanding hypertension leads to microaneurysms that may rupture to cause haemorrhagic strokes (CVE, CVA)
  2. Atherosclerotic plaques may embolise or cause thrombosis resulting in a cerebral infarct.
  3. Occlusion of small penetrating branches may result in multiple tiny infarcts resulting in cavities known as lacunae.
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10
Q

Heart effects froms hypertension

A
  1. Left ventricular hypertrophy in responding to chronic elevation of afterload that may lead to congestive cardiac failure.
  2. Accelerated coronary atherosclerosis predisposing to ischemia and infarction.
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11
Q

Aorta and peripheral vasculature damage from hypertension

A
  1. Peripheral vascular disease
  2. Abdominal aortic aneurysm “tripe A” >6cm
  3. Aortic dissection
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12
Q

Kidney symptoms from hypertension

A

Produces nephrosclerosis, which in severe hypertension may lead to a leak of protein into urine (proteinuria) and chronic renal failure.

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13
Q

Retina damage form hypertension

A
  1. Only location where arteries can be directly visualised using an opthalmoscope.
  2. The changes depend upon the severity and duration of the elevated blood pressure (grades I-IV)
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14
Q

Suspicion of Secondary Hypertension:

A
  1. Young age onset (180/110)
  2. Signs of underlying pathology
  3. Sporadic (i.e. no history in history degree relatives)
  4. Refractory to drug treatment.
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15
Q

Causes of secondary hypertension

A
  • Renal (Chronic Failure, Renal Artery stenosis)
  • Mechanical (coarctation of the aorta)
  • Endocrine (Conn’s Sundrome, Cushing’s syndrome, Phaeochromocytoma, Acromegaly, thyroxtoxicosis)
  • Drugs (e.g. oral contraceptive)
  • Pre-eclamptic toxaemia
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16
Q

Renal artery stenosis

A
  • Atherosclerosis in elderly man
  • Fibromuscular dysplasia in young woman
  • Abdominal bruit
  • Activation of RAA system results in hypokalaemia
  • Goldblatts experiment
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17
Q

Coarctation of the Aorta

A
    1. Congenital narrowing often distal to origin of left subclavian
  • BP in arms > legs
  • Weak or absent femoral pulses
  • Midsystolic murmur between scapulae
  • Notched appearance of ribs on CXR due to shunting of blood through enlarged arteries
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18
Q

Conn’s Syndrome

A
  • Adrenal tumour (adenoma
  • Often asymptomatic
  • Produces Hypokalaemia
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19
Q

Cushing’s Syndrome

A
  • Excess Glucocorticoids

* Cushinggoid appearance including moon face, hisutism, acne, central obesity and proximal muscle wasting

20
Q

Phaeochromocytoma

A
  • Catecholamine secretin gtumour (often of the adrenal medulla)
  • Oaroxysms of aniexty, sweating, palpitation snad hypertension
  • Rare
21
Q

Pre-eclampsia toxaemia

A
  • Placental ischaemia leads to release of agents causing endothelila dysfunction, vasoconstriction and reduced pressure matriuresis resulting in hypertension
  • Occurs in 7-10% of pregnancies
  • Can lead to fits (eclampsia) and maternal death
  • Important to monitor BP throughout pregnancy
22
Q

Acromegaly

A
  • Excessive production of growth hormones e.g. pituitary tumour
  • Occurs after fusion of epiphyseal plates
23
Q

Hyperthyroidism

A

• Example → Grave’s disease (autoimmune)
• Excessive secretion of thyroid hormones
Produces hypertension through an increase in blood volume and cardiac output

24
Q

What is the pathophysiology of essential hypertension:

Determinants of mean arterial pressure:

A

Cardiac output

Total peripheral resistance

25
Q

Cardiac output determined by

A

Stroke volume → Preload (CVP), afterload, contractility

Heart rate → Para/Symp

26
Q

Total peripheral resistance determined by

A

Sympathetic tone

Hormones

27
Q

Pathophysiology of Hypertension:

A
  1. An imbalance between CO and TPR
  2. In early stages CO seems to ne increased and TPR is normal
  3. Disease progression leads to LVH that compromises diastolic filing and reduced CO
  4. Change sin blood vessels leads to increased TPR
28
Q

What causes elevated TPR:

A
  1. Narrowing of the small arteries due to hypertrophy of the tunica media
  2. Rarefaction, a reduction in the number of vessels per unit volume of tissue
  3. Barareceptor reflex becomes reset at a higher set point. This is believed to be a consequence and not causes of hypertension.
29
Q

What happens to the large elastic arteries?

A
  1. Accelerated ageing results in elastic fragmentation and increased wall stiffness.
  2. The reduced compliance results in a larger pulse pressure for a given stroke volume.
30
Q

What happens to the pulse wave:

A
  1. Steeper upslope due to reduced compliance
  2. Augmentation die to bigger reflected pressure wave
  3. Increased pressure wave velocity
31
Q

What causes the medial hypertrophy?

A
  1. Unknown
  2. Familial and racial tendencies indicating a genetic component.
  3. Epi association with salt intake and alcohol intake indicating an environmental component
32
Q

Causative theories of essential hypertension?

examples

A
  1. Neurogenic or stress
  2. Salt imbalance/renal hypothesis
  3. Depression of sodium pump in cell membranes
  4. Endothelial dysfunction
  5. Metabolic Syndrome (Reaven’s syndrome)
  6. Cushing reflex
33
Q

Neurogenic or stress

A
  1. Excessive sympathetic response to emotional stress produces bouts of reversible hypertension
  2. Repeated episodes induce hypertrophy of the tunica media
  3. Some experimental evidence e.g. in laboratory animals psychogenic stress has been shown to cause hypertension.
34
Q

Salt imbalance/renal hypothesis

A
  1. An increase in arterial pressure tends to cause the kidneys to increase excretion of salt and water (pressure diuresis) until arterial pressure returns to normal
  2. An imbalance between salt intake and excretion could increase ECF volume, CVP, Co and hence MAP resulting in medial hypertrophy
35
Q

Depression of sodium pump in cell membranes

A
  • There is reduced activity of the sodium pump of the red blood cell membrane in hypertensive patients
  • Theory suggests there may be an increase in an endogenous digoxin-like factor that results in abnormal sodium handling and increased smooth muscle tone via knock-on effects upon calcium handling.
36
Q

Endothelial Dysfunction

A
    1. Vascular endothelial cells produce a number of potent local vasoactive agents
  • In hypertension there is impaired production of nitric oxides and increased production of the vasoconstrictor endothelin
37
Q

Metabolic Syndrome (Reaven’s Syndrome)

A
  • Epi several cardiovascular risk factors appear to cluster together (obesity, hypertension, glucose intolerance and hyperlipedeamia)
  • Proposed (and contested) that these represent a single syndrome
  • Suggested final common pathway of vascular damage and hypertension
  • Hyperinsulineamia can alter calcium handling in cells, produce Smooth muscle hypertrophy and increase sympathetic nervous activity
38
Q

Cushing response

A
  • Raised ICP reduces cerebral blood flow resulting in ischaemia of brainstem
  • Icreased sympathetic tone raises TPR and in attempt to increase MAP and cerebral blood flow
  • Barareceptor response to increased MAP results in increased parasympathetic tone and bradycardia
  • Preterminal phase of traumatic head injury
  • Could brainstem atherosclerosis result in hypertension by this mechanism
39
Q

Non-pharmacological treatments:

A
  1. Weight reduction
  2. Reduction in alcohol intake
  3. Reduction in salt intake
  4. Regular physical exercise
  5. Meditation, yoga
40
Q

Pharmacological treatments first time drugs

A
  1. thiazide diuretics
  2. Beta-blockers
  3. Ca channel blockers
  4. ACE inhibitors
  5. All receptor blockers
41
Q

Second time drugs

A
  • Alpha blockers
  • Spironolacetone
  • Direct vasodilators – hydralazine
  • Centrally acting alpha agonists – alphamethyldopa
42
Q

Malignant Hypertension: a medical emergency: epi

A
  1. Sudden and marked rise in BP often to levels aboce 200/120
  2. If untreated majority of patients will die within 6-12 months
43
Q

Pathologically of malignant hypertension

A

there is fibrinoid necrosis of the arterioles

44
Q

Malignant hypertension Characterised by

A
Headaches
Blurred vision
Altered consciousness
Fits
Focal neurological deficits (hypertensive encephalopathy)
Acute pulmonary oedema
Acute renal failure
Papilloedema
45
Q

Malignant Hypertension Requires

A

Immediate admission and treatment in severe cases IV nitroprusside or IV glyceryl trinitrate is administered.