Disturbances in circulation

Question 1

Describe some aspects of haemorrhage…

Answer 1

Bleeding from a damaged vessel

• Often caused by trauma
• Vascular disease may predispose to
• Local high blood pressure may predispose to
• A diffuse haemorrhage may occur in coagulation disorders

Question 2

What is diapedesis?

Answer 2

Loss of individual RBCs between endothelial cells

Question 3

What is a haematoma?

Answer 3

A local accumulation of blood that is usually clotted

Question 4

What is petechiae?

Answer 4

Pin-point haemorrhages

- usually capillary bleeds

Question 5

What is ecchymoses?

Answer 5

Paint brush “splashed” haemorrhages over skin or mucous membranes

Question 6

What are some local effects of haemorrhage?

Answer 6

The effect depends on location

• Space-occupying lesions
• Small haemorrhages
• Larger haematomas

Question 7

What are the systemic affects of haemorrhage?

Answer 7

Depends on the severity and speed of onset

• Repeated minor blood loss may lead to iron deficiency
  e. g. GIT ulcers

Question 8

When is hypovolaemic shock likely?

Answer 8

When there is acute blood less of 30% or more

Question 9

What happens if there is slower loss of 30% of total blood volume?

Answer 9

Compensation may be enough

- The body has its own compensatory mechanisms that come into play

Question 10

Describe the three compensatory mechanisms…

Answer 10

Redistribution is a Rapid Response occurs within minutes

Restoring blood fluid volume is a medium term mechanism that occurs within hours

Replacing RBCs is a longer term mechanism that occurs within 5-14 days

Question 11

Describe the Blood redistribution compensatory mechanism…

Answer 11

Some arterioles constrict to divert blood to vital organs

- Spleen contracts at the same time

Question 12

Describe the Restoration of blood volume compensatory mechanism…

Answer 12

Extravascular fluid moves into the vascular system

• this helps to maintain blood pressure
• Causes Haemodilution

Takes 48 hours
- then you can estimate the blood loss by PCV

Question 13

What level of PCV would you expect in a dog that has just lost 20% of its circulating blood volume?

Answer 13

Normal

- it has lost RBCs and fluid in the same ratio

Question 14

What level of PCV would you expect in a dog that has lost 20% of its circulating blood volume 24 hours ago?

Answer 14

Low

• due to haemodilution
• the extravascular fluid has moved into the vascular system and diluted the blood

Question 15

Describe the replacement of lost erythrocytes compensatory mechanism…

Answer 15

This is a bone marrow response

• Makes as many RBCs as it can
• Indicated by reticulocytes which are immature form of RBCs

Question 16

What are haemorrhagic diatheses?

Answer 16

Haemorrhagic tendencies associated with:

• disorders of the blood clotting mechanism
• Vascular disease

Question 17

What is purpura haemorrhagica? Describe it…

Answer 17

Horse vascular disease

• Haemorrhage and oedema
• Due to allergic reactions causing damage to arteriole epithelium
• Often due to previous strangles infection

Question 18

Describe Vitamin C deficiency…

Answer 18

Vitamin C is a cofactor in collagen

• Results in weakness of connective tissues
• Haemorrhage from multiple vessels
• Delayed wound healing
• Tends to only be seen in species that can’t synthesise their own vitamin C e.g. guinea pigs

Question 19

What is shock?

Answer 19

Failure of the circulatory system to adequately perfuse vital organs
- disparity between circulating blood volume and the size of the vascular space

Question 20

What are the three categories of shock?

Answer 20

• Hypovolaemic
• Cardiogenic
• Vasculogenic (septic)

Question 21

What is hypovolaemic shock…

Answer 21

• Decreased blood volume
• Loss of fluid by vascular compartment
  e. g. sweating, diuresis

Question 22

What is vasculogenic/ septic shock?

Answer 22

Septicaemia with gram -ve bacteria (endotoxaemia)
- Systemic vasodilation

Widespread endothelial cell damage

Question 23

What is cardiogenic shock?

Answer 23

Decreased cardiac output

• acute severe myocardial failure
• improper diastolic filling
• improper systolic emptying

Blood sits stagnant and doesn’t circulate properly

Question 24

What is irreversible shock?

Answer 24

When the body’s compensatory mechanisms are insufficient to sustain the patient

• inadequate tissue perfusion
• causes ischaemic injury to cells

Question 25

What are the consequences of inadequate tissue perfusion?

Answer 25

Endothelial cells cause leaky vessels

• Vascular fluid lost
• RBCs sludge due to lack of vascular fluid
• Kidney and liver cell necrosis
• Heart arrythmias
• Brain damage/ loss of consciousness

Question 26

What are the consequences of inadequate tissue perfusion?

Answer 26

Anaerobic metabolism
- build up of metabolites
- these metabolites exacerbate perpetuating failing C.O and worsen perfusion
= irreversible shock

Question 27

What is Oedema?

Answer 27

Excessive accumulation of tissue fluid

Question 28

How does oedema form?

Answer 28

When too much fluid forms

• Increased hydrostatic pressure
• Decreased colloid osmotic pressure
• Increased vascular permeability

OR

Not enough fluid is removed
- Impaired lymphatic drainage

Question 29

What normally occurs in a blood vessel in terms of fluid regulation?

Answer 29

It is a balance between hydrostatic and osmotic pressures in blood vessels (starling’s law)
- some fluid moves out of vessels at the arterial end but is balanced by lymphatic drainage plus resorption (COP) of fluid at the venous end

Question 30

Describe increased hydrostatic pressure…

Answer 30

Increased pressure in the capillaries
- determined by venous pressure

Local i.e. finger obstruction

OR

Systemic i.e. heart failure

Question 31

Decreased COP…

Answer 31

Due to decreased production of albumin
- decreased AA supply 
- severe chronic liver disease
OR
Increased loss of albumin
- haemorrhage
- inflammation
- kidney
- burns

Albumin in the most important osmotically active substance in the blood
- Little protein but there is plenty of it

ALWAYS SYSTEMIC

Question 32

Impaired lymphatic drainage…

Answer 32

Causes LOCALISED oedema
- a.k.a lymphoedema

Can be external or internal obstruction

Question 33

Increased vascular permeability…

Answer 33

Usually local
Most often results from inflammation
Increased endothelial leakiness
Loss of fluid, cells, protein into the tissues
- this results in a high protein fluid called exudate

Question 34

What is transudate?

Answer 34

Fluid

• Low protein
• Doesn’t clot
• Few cells present
• Low specific gravity
• Clear/ straw coloured

Question 35

What is exudate?

Answer 35

Fluid

• High total protein
• Clots
• High cellularity
• High specific gravity
• Turbid

Question 36

Describe the gross appearance of oedema in an animal

Answer 36

• Body cavities contain free fluid
• Solid tissues are wet, heavy and enlarged
• Sub cut tissues
• • distension
• • swelling
• • gravity dependent
• • incised tissue may pour fluid