Oedema
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Introduction
Oedema is NOT a disease; it is the sign of a disease state.
- Oedema is defined as :"The swelling of tissues resulting from accumulation of excess fluid in the intercellular tissue spaces and serous cavities."
- Small amounts of fluid are normally present to lubricate cavities and viscera - this is not oedema.
- Excess fluid may accumulate in:
- Subcutaneous tissue and between muscle.
- Serous cavities.
- Depending on the cavity, this has different terms.
- Thorax - hydrothorax.
- Pericardium - hydropericardium
- Abdomen - hydroperitoneum (ascites).
- Anasarca is when there is generalised body cavity accumulation plus subcutaneous involvement.
- Depending on the cavity, this has different terms.
- Lungs.
Local oedema
- Local oedema is the local accumulation of excess interstitial fluid.
- Caused by disturbance of the balance betwen fluid extravasation and resorption at the level of the capillaries.
- Outwards Forces - arteriolar
- Vasuclar hydrostatic pressure - 35 mmHg
- Interstitial osmotic pressure - 3 mmHg
- Inwards forces - venular
- Plasma protein osmotic pressure - 25 mmHg
- Interstitial hydrostatic pressure - 4 mmHg
- Outwards Forces - arteriolar
- May be of inflammatory or non-inflammatory origin.
Types of Local Oedema
Inflammatory oedema
- Generated by one or more of the following:
- Increased vascular permeability
- Increased arteriolar blood pressure
- Breakdown of tissue protein or transfer of plasma proteins into ECF.
- Results in raised osmotic pressure of tissue fluid.
- Obstruction to lymphatic drainage.
- Usually by fibrin.
Lymphatic oedema
- Results in accumulation of high protein fluid.
- May provoke a granulation or fibrous tissue response.
- Due to:
- Lymphangitis/ lymphadenitis
- Acute inflammation of lymphatics/ lymph nodes. R
- Caused by stasis in lymphatics and/or bacterial infection.
- E.g. “Monday Morning leg” in horses.
- Chronic inflammation caused by persistent or granuloma-producing bacterial infection.
- E.g. Johne's disease, actinobacillosis.
- Tumour spread.
- Metastasis of tumour cell plugs lymphatics and nodes
- e.g. mammary carcinoma.
- Parasitic migration
- Larvae may be following their normal pathway (e.g. Schistosomiasis), or may be aberrant.
- Lymphangitis/ lymphadenitis
Local venous obstruction
- Obstruction to venous drainage may be mechanical or inflammatory-mediated.
- Causes raised hydrostatic pressure.
- Endothelial permeability increases due to hypoxia.
- There may be inflammatory damage.
- Mechanical obstruction, e.g.
- Torsions of bowel
- Misplaced organs.
- Pressure from outside vein from adjacent structures.
- Venous inflammation (phlebitis)
- May be associated with thrombosis (thrombophlebitis).
"Allergic" oedema
- Results from immediate (Type I ) or delayed (Type IV) hypersensitivity.
- Vasular permeability is increased due to release of histamine and vaso-dilating substances.
- E.g.
- Insect stings (immmediate).
- Vaccination (delayed).
- Food reaction (delayed).
Pulmonary oedema
- In the normal state, pulmonary alveoli are kept dry by three mechanisms:
- Normal "push-pull" mechanism at capillary level.
- Efficient lymphatic drainage by rhythmic pumping action near airways.
- Integrity of the alveolar epithelial basement membrane is relatively impermeable.
- Unlike the capillary basement membrane, which is relatively permeable.
Pathogenesis
- The pumping efficiency of the lymphatics is exceeded.
- Fluid accumulates in connective tissue adjacent to airways.
- The alveolar walls fill with fluid.
- The alveoli abruptly and severely fill with fluid.
- Associated with the disintegration of alveolar epithelial junctional complexes.
Haemodynamic type
- Fluid leaks into alveoli via junctional complexes BUT the alveolar basement membrane remains intact.
- I.e. is due to elevated pulmonary venous pressure.
- Potentially reversible.
- Causes:
- Cardiogenic
- Usually left ventricular failure.
- Also occurs with cardiac overload due to valvular disease.
- Mechanical
- Large primary pulmonary tumours.
- Severe metastatic disease.
- Granulomatous infections may raise pulmonary venous pressure.
- Neurogenic
- Seizures or CNS disorder.
- Rare in domestic species.
- Cardiogenic
Permeability type
- Fluid fills the alveoli following damage to cells or junctional complexes, or permanent ionic alteration of the alveolar basement membrane.
- Irreversible.
- Causes:
- Toxins
- Bacterial
- Chemical
- Paraquat.
- Aspiration/inhalation
- Gastric contents (low pH)
- Smoke.
- Excess ozone.
- Oxygen.
- Toxins
- There may be a combination of haemodynamic and permeability types in electrocution syndromes and "shock" lung.
- E.g. in Adult Respiratory Distress Syndrome (ARDS).
General oedema
Composition of oedema fluid
- Inflammatory oedema which produces an exudate.
- This is a protein rich fluid containing many inflammatory cells.
- Non inflammatory oedema which produces a transudate.
- This fluid is low in protein and cells.
- Transudates and exudates are distinguished by the following criteria:
Criteria | Transudate | Exudate |
---|---|---|
Appearance | Clear/ pale yellow ("straw coloured") | Dark yellow, red or brown. Often cloudy or opaque. |
Consistency | Thin, serous | Viscous |
Protein content | 0.05 - 0.5%, mainly albumin | Usually 2 - 4% |
Coagulability | No fibrinogen, no coagulation | Contains fibrinogen, coagulates |
Specific gravity | Low (< 1.012) | High (1.012 - 1.020) + |
Cell content | Very low. mesothelial cells, some macropahges and lymphocytes/Monocytes. | High. Often macrophages, neutrophils, lymphocyes etc. Depends on cause and chronicity |
- Examples of transudates:
- Ascites
- Excessive fluid in abdominal cavity.
- Hydrothorax
- Excessive fluid in the thorax.
- Hydropericardium
- Excessive fluid in the pericardium.
- Anasarca
- Generalised tissue oedema most noticeable in subcutaneous tissues.
- Ventral subcutaneous oedema
- Ascites
- Seen in heart failure in horses and cattle.