Difference between revisions of "Venous Congestion"
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[[Category:Circulatory Disorders - Pathology]] | [[Category:Circulatory Disorders - Pathology]] | ||
+ | [[Category:Cardiology Section]] |
Latest revision as of 17:48, 17 October 2013
Generalised (Systemic) Venous Congestion
- Usually associated with increased in circulation time due to cardiac pumping inefficiency.
- The cardiac inefficiency is usually the result of:
- Cardiac disease, e.g.
- Valvular disease
- Myocardial degeneration
- Cardiac malformation
- Increased pulmonary vascular resistance
- Due to fibrosis or emphysema.
- Cardiac disease, e.g.
- Reduced cardiac output gives an increased circulation time and a larger venous volume.
- The relative quantity of deoxygenated blood in tissues rises.
- The cardiac inefficiency is usually the result of:
- Some organs are more susceptible to venous congestion than others.
Pathology
- Severe congestion results in increased size and weight of organs.
- Ultimately, oedema occurs.
- Encapsulated organs (e.g. spleen, liver):
- Become swollen.
- Turgid on palpation.
- Have rounded free borders.
- Are frequently darker red or purple.
- Ooze dark (deoxygenated) blood on cut surface.
- Become swollen.
- Oedema fluid may be seen (e.g. lung) if the condition is prolonged.
- E.g. in the lung.
- Accumulation of deoxygenated blood often results in cyanosis of tissues.
- Where the condition persists, hypoxia induces degenerative changes and fibrosis.
- Replacement of degenerate tissue by more compact fibrous tissue often leads to irregular surface depressions known as induration.
- Where changes are more insidious, cellular and organoid atrophy may occur with diminution in size.
Sequelae
- Severe congestion can induce:
- Oedema formation
- E.g. in the lung, associated with cardiac mitral valvular disease.
- Stagnation hypoxia and capillary damage
- Minor capillary haemorrhage is induced by hypoxia.
- Is often followed by haemosiderin deposition.
- Fatty change
- Degenerative change, characterised by fatty change, occurs when whole parenchymatous organs are affected.
- E.g. the liver and kidneys.
- Degenerative change, characterised by fatty change, occurs when whole parenchymatous organs are affected.
- Oedema formation
Localised Venous Congestion
- Affects individual organs or tissues.
- May be
- Acute
- E.g. due to sudden blockage of drainage.
- More chronic.
- A slower but progressive blockage to venous drainage.
- May result in tissue atrophy.
- Acute
Causes
- Extra-vascular pressure, for example
- Ligatures or bandages.
- Adjacent masses
- Organ displacements or torsions.
- Intra-vascular obstruction
- Thrombosis or embolism.
- Vasculitis
- Inflammation in and around the vessel wall (phlebitis).
- May be iatrogenic.
Gross
- The affected organs or tissues show similar changes to venous congestion of systemic origin.
- Here, the changes are confined to one organ or tissue area.
- Organ displacements, e.g. intussusception, often show venous congestion followed by hypoxic degeneration and sloughing of tissue.
Histological
- Affected tissues are seen to be congested .
- Red blood cell stasis in venules and capillaries.
- Degeneration of tissue cells in the area affected.
- Varying numbers of inflammatory cells around these degenerate foci.
- Oedema and leaked plasma protein deposits.
- Varying numbers of inflammatory cells around these degenerate foci.
Sequelae
- Sequelae depend on:
- Severity
- Speed of onset of hypoxia
- Presence of alternative routes of venous drainage.
- The usual effect is hypoxic localised degeneration.
- Insidious, long-standing congestion tends to result in a combination of fibrosis and atrophy.
Hypostatic Congestion
- Seen in long-term recumbent, chronically ill animals, or those dying slowly.
- The term refers to congestion of the dependant parts of an organ in a failing circulation.
- In cases of paired organs, it applies to the dependant organ .
- Particularly affects the lungs and kidneys.