Difference between revisions of "Regenerative and Non-Regenerative Anaemias"

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*Exposure to '''toxins''' including rape and kale (which contain SMCO radicals) in cattle, onions and garlic in dogs and paracetamol in cats.
 
*Exposure to '''toxins''' including rape and kale (which contain SMCO radicals) in cattle, onions and garlic in dogs and paracetamol in cats.
 
*'''Microangiopathic anaemia''' which occurs when red blood cells are forced through small meshworks of fibrin as with [[Haemangiosarcoma|haemangiosarcomas]], [[Disseminated Intravascular Coagulation|disseminated intravascular coagulation]] (DIC) or bacterial endocarditis.
 
*'''Microangiopathic anaemia''' which occurs when red blood cells are forced through small meshworks of fibrin as with [[Haemangiosarcoma|haemangiosarcomas]], [[Disseminated Intravascular Coagulation|disseminated intravascular coagulation]] (DIC) or bacterial endocarditis.
Haemolysis usually results in a more strongly regenerative response than haemorrhage and it can be differentiated from the latter process by the fact that the plasma protein concentration does not fall.
+
Haemolysis usually results in a more strongly regenerative response than haemorrhage and can be differentiated by plasma protein concentrations; these will fall with haemorrhage, but not with haemolysis.
  
 
==Non-regenerative Anaemia==
 
==Non-regenerative Anaemia==

Revision as of 15:58, 29 October 2010


Introduction

Anaemia refers to a reduction in packed cell volume (PCV), haemoglobin concentration or the level of total red blood cells. In the clinical approach to the anaemic patient, the initial step is to determine whether the anaemia is regenerative or non-regenerative. Regeneration refers to the production of new erythrocytes from the bone marrow and their subsequent release into the circulation. In dogs, there is a lag period of 48-72 hours before immature red blood cells (reticulocytes and nucleated red blood cells ) begin to appear in the circulation and the extent of the regenerative response is usually in proportion to the severity of the anaemic insult.

Causes of Anaemia

The major causes of anaemia are:

  1. Immune-mediated disease including immune-mediated haemolytic anaemia, a disease caused by an autoimmune response directed against endogenous erythrocytes, and neonatal isoerythrolysis, the result of a maternal immune response directed against foetal antigens inherited from the sire.
  2. Haemorrhage
  3. Haemolysis
  4. Anaemia of Chronic Disease
  5. Infectious Diseases, notably:

Regenerative or Non Regenerative?

The following features may be used to determine whether anaemia is regenerative or non-regenerative:

Feature Regenerative Non-regenerative Image
Mean Corpuscular Volume (MCV) Increased as reticulocytes are larger than mature erythrocytes Normal
Reticulocyte
Copyright Arcadian 2006 Wikimedia Commons
Mean Corpuscular Haemoglobin Concentration (MCHC) Increased as reticulocytes contain the remnant of the ribosomal RNA that is lost with progressive development of the cell Normal
Erythrocyte
Copyright Arcadian 2006 Wikimedia Commons
Blood Smear Howell-Jolly bodies may be present as small basophilic spots within red blood cells. These represent the remnant of the endoplasmic reticulum of the erythrocyte.

Large polychromatic red blood cells may be evident when the smear is stained with a Romanowsky stain. These cells probably represent reticulocytes but this cannot be confirmed unless a smear is also stained with a supra-vital stain such as new methylene blue. This latter procedure can be used to estimate the degree of reticulocytosis and to determine if this is appropriate to the severity of the anaemia.

The red blood cells are usually normochromic and normocytic but poikilocytosis may be apparent in cases of maturation defect anaemia.
Image of a Howell Jolly body (B)within a red blood cell
Copyright Jarkeld 2009 Wikimedia Commons

Regenerative Anaemia

The major causes of regenerative anaemia are haemolysis and haemorrhage.

Haemorrhage may occur from any site and it may be external (often due to trauma) or internal. Any form of spontaneous haemorrhage with no apparent cause may suggest the presence of an underlying coagulopathy. The most common haemorrhagic presentations are:

  • Epistaxis due to disruption or erosion of blood vessels of the nasal cavity by trauma, neoplasia, fungal infection or a foreign body.
  • Haematuria which may arise due to haemorrhage from any part of the urinary tract, especially the kidney (due to trauma, neoplasia or idiopathic haematuria) and bladder (due to trauma, cystitis, urolithiasis and neoplasia).
  • Melaena, haematochezia or haematemesis due to gastro-intestinal haemorrhage. Meleana refers to the production of black tarry faeces with digested blood whereas haematochezia refers to the production of fresh blood with the faeces. Classically, haematemesis is described as resembling 'coffee grounds' as blood is denatured by a low gastric pH but, as the gastric pH of the dog may vary widely between 2 and 6, vomited blood may also appear as fresh red blood.
  • Haemoptysis refers to the production of blood from the respiratory tract. It may occur with severe forms of pneumonia and with pulmonary haemorrhage.
  • Haemoabdomen, haemothorax and haemopericardium are all forms of haemorrhagic effusion that occur in body cavities.

Haemolysis may occur in the following processes:

Haemolysis usually results in a more strongly regenerative response than haemorrhage and can be differentiated by plasma protein concentrations; these will fall with haemorrhage, but not with haemolysis.

Non-regenerative Anaemia

The failure to regenerate indicates that there must be some failure to produce red blood cells in the bone marrow. Erythrocytes are produced from stem cells in the bone marrow and they then undergo sequential stages of maturation before and after they are released into the circulation.

  • Failure of the bone marrow stem cells to produce cells of the erythroid lineage
  • Failure of maturation
    • Iron deficiency
    • Vitamin B12/folate deficiency