Wednesday, October 9, 2019
Aplastic Anemia
Aplastic anemia is also sometimes associated with exposure to toxins such asà benzene, or with the use of certain drugs, includingchloramphenicol,à carbamazepine,à felbamate,à phenytoin,à quinine, andà phenylbutazone. Many drugs are associated with aplasia mainly according to case reports but at a very low probability. As an example, chloramphenicol treatment is followed by aplasia in less than 1 in 40,000 treatment courses, and carbamazepine aplasia is even more rare. Exposure toà ionizing radiationà fromà radioactive materialsà or radiation-producing devices is also associated with the development of aplastic anemia. Aplastic anemia is present in up to 2% of patients with acuteà viral hepatitis[citation needed]. In some animals aplastic anemia may have other causes. For example, in theà ferretà (Mustela putorius furo) aplastic anemia is caused byestrogenà toxicity. This is because female ferrets areà induced ovulators, so mating is required to bring the female out of heat. Intact females, if not mated, will remain in heat, and after some time the high levels of estrogen will cause the bone marrow to stop producing red blood cells. The condition needs to be differentiated from pure red cell aplasia. In aplastic anemia the patient has pancytopenia (i. e. , anemia, neutropenia and thrombocytopenia) resulting in decrease of all formed elements. In contrast, pure red cell aplasia is characterized by reduction in red cells only. The diagnosis can only be confirmed onà bone marrow examination. Before this procedure is undertaken, a patient will generally have had otherà blood testsà to find diagnostic clues, including aà complete blood countà (CBC),à renal functionà andà electrolytes,à liver enzymes,à thyroidfunction tests,à vitamin B12à andà folic acidà levels. Following tests aid in determining differential diagnosis for aplastic anemia: 1. Bone marrow aspirate and biopsy: to rule out other causes of pancytopenia (i. e. neoplastic infiltration or significant myelofibrosis). 2. History of iatrogenic exposure to cytotoxic chemotherapy: can cause transient bone marrow suppression 3. X-rays, computed tomography (CT) scans, or ultrasound imaging tests: enlarged lymph nodes (sign of lymphoma), kidneys and bones in arms and hands (abnormal in Fanconi anemia) 4. Chest X-ray: infections 5. Liver tests: liver diseases . Viral studies: viral infections 7. Vitamin B12à and folate levels: vitamin deficiency 8. Blood tests forà paroxysmal nocturnal hemoglobinuria 9. Test for antibodies: immune competency. Treating immune-mediated aplastic anemia involves suppression of theà immune system, an effect achieved by dailyà medicineà intake, or, in more severe cases, aà bone marrow transplant, a potential cure. [2]à The transplanted bone marrow r eplaces the failing bone marrow cells with new ones from a matching donor. Theà multipotentà stem cells in the bone marrow reconstitute all three blood cell lines, giving the patient a new immune system, red blood cells, and platelets. However, besides the risk of graft failure, there is also a risk that the newly created white blood cells may attack the rest of the body (graft-versus-host disease). Medical therapy of aplastic anemia often includes a short course ofà anti-thymocyte globulinà (ATG) orà anti-lymphocyte globulinà (ALG) and several months of treatment withà ciclosporinà to modulate theà immune system. Mildà chemotherapyà with agents such asà cyclophosphamideà andvincristineà may also be effective. Antibodyà therapy, such as ATG, targets T-cells, which are believed to attack the bone marrow. Steroidsà are generally ineffective, though are often used to combatà serum sicknessà caused by ATG use. One prospective study involving cyclophosphamide was terminated early due to a high incidence of mortality, due to severe infections as a result of prolongedà neutropenia. [3] In the past, before the above treatments became available, patients with low leukocyte counts were often confined to a sterile room or bubble (to reduce risk ofà infections), as in the famed case ofà Ted DeVita. 4] [edit]Follow-up Regularà full blood countsà are required to determine whether the patient is still in a state of remission. 10-33% of all patients develop theà rare diseaseà paroxysmal nocturnal hemoglobinuriaà (PNH, anemia with thrombopenia and/orà thrombosis), which has been explained as an escape mechanism by the bone marrow against destruction by the immune system. Flow cyto metryà testing is performed regularly in people with previous aplastic anemia to monitor for the development of PNH.
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