L30. Cellular adaptations, myocardial hypertrophy and introduction to pathology of the cardiac valves

Question 1

What happens to a normal cell if it is put under some kind of physiological stress? What happens if this fails?

Answer 1

The cell undergoes ADAPTATION

If this fails, the cell is injured

Question 2

How does the cell decide its response to stress/injurious stimuli?

Answer 2

The cell cycle it has: Labile (has stem cell populations), stable (able to enter if required) or permanent (change or die)
The type of stimulus: growth factor or hormonal, pH changes or mechanical stress

Question 3

What is a major reaction of cardiac and skeletal muscle to increased work loads or stress?

Answer 3

Hypertrophy

• Increased synthesis of contractile proteins
• increased production of growth factors
• induction of embroynic genes

Question 4

Define Hypertrophy

What cell types go through this

Answer 4

An increase in the SIZE of cells (no increase in number)

• increased production of intracellular structures
• increased nucleus size (and shape)
• done mainly by permanent cells

Question 5

Define Hyperplasia: is it always pathological?

What cell types go through this?

Answer 5

An increase in the NUMBER of cells
- when STEM CELLS are stimulated to divide by either hormonal or growth factor
- can be physiological or pathological
- done by labile cells (active stem cell population) or stable cells
Often occurs at the same time as hypertrophy

Question 6

What is an example of hyperplasia being a physiological process?

Answer 6

Cyclical Hormonal: the endometrium gets bigger and stretches out with more glands in the tissue during menstruation.

Question 7

Give an example of a pathological hyperplasia

Answer 7

Parathyroid hyperplasia eg. High calcium concentrations stimulate the excessive release of parathyroid hormone leading to the parathyroid to increase cellular concentrations

Question 8

Give an example where hypertrophy and hyperplasia occer together

Answer 8

Graves Disease where a rogue antibody stimulates the thyroid leading to lost colloid, far more cells which are much bigger in size

Question 9

Define Metaplasia

Answer 9

A REVERSIBLE change in which one adult cell type is replaced by another adult cell type

Question 10

Where does metaplasia occur frequently and to what stimulus?

Answer 10

At junctions between different epithelial types (eg. cervix) and the stimulus is usually an altered environment

Question 11

Why does metaplasia occur?

Answer 11

The new phenotype is often protective against injury in the new environment or have no benefit at all and hence metaplasia can be both pathological or physiological

Question 12

What is a physiological example of metaplasia?

Answer 12

The onset of menarche for women means the swelling of tissues which exposes the endocervical mucosa to the acidic vagina: this changes the glandular, columnar epithelium into a stratified, squamous epithelium

Question 13

What is an example of pathological metaplasia?

Answer 13

Gastro-oesophageal reflux disease (Barrett-oesophagus) where bile acids are brought up into the oesophagus the stratified squamous epithelium of the oesophagus changes to an intestinal type with the mucous secreting goblet cells in it.
This actually shows no benefit to the disease and may be a pathway to cancer.

Question 14

What is the difference between hyperplasia + metaplasia and Neoplasia?

Answer 14

Hyperplasia + Metaplasia is CONTROLLED and REVERSIBLE (with removal of the stimulus) with a CHANGE in gene expression and is often BENIGN (may be a risk factor for neoplasia due to the frequency of divisions)

Neoplasia is DYSREGULATED and occurs in the ABSENCE of a stimulus. It occurs due to a genetic MUTATION and can be either benign or malignant.

Question 15

Define Atrophy. Is it reversible?

Answer 15

A decrease in the cell or organ size (opposite of hypertrophy)
It is reversible if it is not accompanied by cell death and fibrosis

Question 16

When does atrophy occur?

Answer 16

When there is a loss or decrease of normal growth stimulus.

• diminished workload, blood supply, innervation or hormonal stimulation
• can occur simply due to ageing

Question 17

What is the difference between physiological and pathological myocardial hypertrophy?

Answer 17

Physiological = Developmental Hypertrophy due to growth in childhood or can be in response to exercise. Characterised by growth of the ventricles in proportion to the chamber, increased capillaries, REVERSIBLE and no loss of function

Pathological: hypertension, valvular disease
Characterised by growth with reduced or enlarged cavity, REDUCED FUNCTION and deposition of matrix (fibrosis) and IRREVERSIBLE

Question 18

What is the difference between concentric and eccentric hypertrophy?

Answer 18

Concentric due to increased pressure leads to fatter cells with increased diameter in parallel. Increased wall thickness with smaller cavity

Eccentric due to volume overloads with the elongation of the myocytes in series. Leads to a bigger cavity and normal (or occasionally thinned) walls

Question 19

What are the ways to diagnose hypertrophy?

Answer 19

ECG

Heaving and/or displaced apex beat

Question 20

What are the normal wall thicknesses of the Left and Right Ventricles?

Answer 20

LV < 15 mm
RV < 5mm

Wall thickness measurement (not inclusive of the papillary muscle taken from a transverse section through the middle of the heart)

Question 21

Eccentric hearts are compared by the weight of the heart. What is the normal heart weight dependent on? What are the normal values?

Answer 21

Depends on the body mass/height

Women usually have 400g and men 500g

Question 22

What are the microscopic features of myocardial hypertrophy?

Answer 22

Enlarged, rectangular (box shaped) nuclei
Bi-nucleated
Increased amount of connective tissues

Question 23

What are some complications of myocardial hypertrophy?

Answer 23

Impaired perfusion and increased demand leading to ischaemia

Increased LV stiffness and impaired diastolic filling

Question 24

What are other causes of myocardial hypertrophy?

Answer 24

Iscahemic heart disease
Genetic Causes
Infiltrative Diseases

Question 25

What are some consequences of cardiac failure?

Answer 25

Cardiomegaly
Pulmonary oedema
Nutmeg liver congestion
Peripheral Oedema

Question 26

What are the three different ways to classify valvular disease?

Answer 26

1. By the pathological process (Eg. degenerative or infectious etc)
2. By the result (Eg. stenosis or regurgitation)
3. By the affected valve (Eg. Aortic, Mitral)

Question 27

What are complications of valvular disease?

Answer 27

Altered cardiac blood flow: angina, syncope, myocardial hypertrophy, cardiac failure, arrhythmia
Thrombosis
Infective Endocarditis

Question 28

How does rheumatic heart disease cause valve problems?

Answer 28

By an aberrant immune response to Streptococcus produces molecular mimicry so antibodies attack the valves leading to chronic inflammation and fibrosis causing stenosis or regurgitation.

Question 29

What are the symptoms of infective endocarditis?

Answer 29

Fever, worsening or new onsets of murmurs, symptoms of embolism

Question 30

How do bacteria get into the blood stream to cause infective endocarditis?

Answer 30

Dental work, invasive procedures/surgery, IV drug use

Question 31

What is myxomatous mitral valve disease?

Answer 31

Usually due to ageing or congenital disease (collagen diseases) that leads to mitral valve prolapse - the valve leafs sit up away from the valve opening.

Question 32

What is denerative bicuspid valves

Answer 32

Predisposition to degenerative calcification of the valves leading to regurgitation or stenosis depending on the damage caused