In 70-80% of cases the disease is acquired and unable to be related to identifiable causes or is caused by idiopathic reasons. Inherited aplastic anemia accounts for the other 15-20% of cases.
All bone marrow contains hematopoietic stem cells that divide, differentiate and become red blood cells, white blood cells, or platelets. Researchers think there is an autoimmune element where an initiating event triggers immune-mediated destruction of the hematopoietic stem cells by the T-lymphocytes. They target these primitive stem cells and prevent them developing into mature blood cells, and the bone marrow becomes replaced by fat. The affected person develops pancytopenia.
Aplastic anemia can be insidious, developing over weeks to months, or acute. The symptoms the patient presents with include:
Symptoms can be very similar to many other diseases so using the Isabel DDx Generator can help you formulate an accurate differential diagnosis to ensure you consider all possible diseases and make a correct diagnosis.
It is important to ask about any medications and recreational drug use, past medical and family history. Examine the patient for short stature and congenital anomalies. To make the diagnosis you need to distinguish between inherited and acquired aplastic anemia. The patient must have pancytopenia with involvement of 2 or more lineages in peripheral blood cells, and a hypocellular bone marrow without dysplasia or fibrosis. If the patient has idiopathic aplastic anemia then you need to exclude other causes of pancytopenia with hypocellular bone marrow and inherited bone marrow failure syndromes. A diagnosis can be confirmed through taking a bone marrow biopsy.
Symptoms of aplastic anemia are common with other disorders and so reviewing your differential diagnosis for these conditions, and ruling out other disorders in order to make an accurate diagnosis is important.
These are a rare group of blood disorders which result from the improper development of blood cells within the bone marrow. They enter the circulatory system and due to their improper development, the individuals affected have abnormally low blood counts. It can be difficult to distinguish between myelodysplastic syndromes and aplastic anemia.
This is caused by the hemolysis of red blood cells, which in turn causes repeated episodes of hemoglobinuria. Hemoglobin is the red iron-rich pigment in haemoglobin and as a result the patient will have dark-colored or bloody urine. This finding is most often seen in the morning as the urine is more concentrated when the patient has been asleep overnight. Patients with PNH can also develop life-threatening blood clots.
Aplastic anemia may occur as part of an inherited disorder. Some key genetic disorders to be aware of and investigate if a child or adult presents with aplastic anemia include Fanconi anemia, Schwachman-Diamond syndrome and ataxia-pancytopenia syndrome. Fanconi anemia includes pancytopenia, cardiac and renal abnormalities and skin pigmentation changes.
Depending on the severity of aplastic anemia the treatment options are wide and may consist of supportive care only, immunosuppressive therapy or hematopoietic cell transplantation. Aplastic anemia patients may require inpatient care during periods of infection. One third of patients with aplastic anemia do not respond to immunosuppressive therapy. Pregnant women with aplastic anemia have a 33% risk of relapse. Those patients who have aplastic anemia require regular follow-up appointments to monitor blood counts and drug side effects. They will also require blood transfusions to maintain their blood counts.
Aplastic anemia has a high mortality rate if not treated. Death can result from infection and haemorrhage. Prompt recognition and diagnosis of aplastic anemia is key to ensuring the patient receives the treatment they need, and to prevent them from progressing to further complications that can result if the condition isn’t diagnosed.