Transfusion therapy (Sickle-cell disease)

Red blood cells (erythrocytes) from donors contain normal hemoglobin (HbA), and transfusion of normal red blood cells into people with sickle cell disease reduces the percentage of red cells in the circulation containing the abnormal hemoglobin (HbS).[1] Although transfusion of donor red blood cells can ameliorate and even prevent complications of sickle cell disease in certain circumstances, transfusion therapy is not universally beneficial in sickle cell disease.[2]

Types of transfusion therapy

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There are two main types of transfusion, simple red cell transfusion and exchange transfusion.

Simple transfusion

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Involves transfusing red blood cells without removing any of the patient’s blood.[3] It is used when the patient's hemoglobin is much lower than normal, for example an aplastic crisis.[4]

Exchange transfusion

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Exchange transfusion involves removal of the patient’s blood and replacement with donor red blood cells.[3] It is used to treat life-threatening complications of sickle cell disease such as stroke or acute chest crisis.[4]

There are three main benefits of an exchange transfusion compared to a simple transfusion, these relate primarily to the ability to remove hemoglobin S containing red blood cells:[5]

  1. Higher percentage of normal (donor) hemoglobin (HbA) containing red cells after the transfusion
  2. Larger volumes of donor blood can be given without increasing the hematocrit to levels that excessively increase blood viscosity
  3. Reduced net transfused volume of red blood cells, which reduces iron overload.[3]

However, there are also potential risks associated with an exchange transfusion:

  1. Red cell alloimmunization due to increased donor exposure
  2. Higher costs
  3. Need for specialized equipment
  4. Need for good venous access.[3]

Automated red cell exchange

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The exchange is performed using a machine (pheresis). This method rapidly and substantially reduces the concentration of sickle cells within the blood without increasing the overall hematocrit or blood viscosity.[citation needed]

Manual red cell exchange

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The exchange is performed manually. It refers to manually phlebotomizing a percentage of the patient’s blood prior to or concomitantly with giving a red cell transfusion.[citation needed]

Frequency of red cell transfusions

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Red cell transfusions can be further classified as episodic or chronic.[3]

Episodic transfusion

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Episodic transfusion is used either acutely in response to a complication of sickle cell disease such as acute chest syndrome or to prevent complications prior to surgery.[3]

Chronic transfusion

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Chronic transfusion is used when sustained, low levels of HbS are needed to prevent sickle cell-related complications, most commonly stroke in children.[3]

Indications for red blood cell transfusion

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Transfusion therapy for sickle-cell disease entails the use of red blood cell transfusions in the management of acute cases of sickle cell disease and as a prophylaxis to prevent complications by decreasing the number of red blood cells (RBC) that can sickle by adding normal red blood cells.[citation needed]

Prevention of complications

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Stroke

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In children prophylactic chronic red blood cell (RBC) transfusion therapy has been shown to be efficacious to a certain extent in reducing the risk of first stroke or silent stroke when transcranial Doppler (TCD) ultrasonography shows abnormal increased cerebral blood flow velocities. In those who have sustained a prior stoke event it also reduces the risk of recurrent stroke and additional silent strokes.[6][7][8] There is no evidence for the use of red blood cell transfusion in adults to prevent primary stroke, although it is recommended to prevent secondary stroke.[8][9][10][11]

Surgery

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In children and adults red blood cell transfusion to increase the hemoglobin level to 100 g/L has been shown to decrease the risk of sickle cell-related complications.[2] However, this has not been seen in all studies, and has only been demonstrated for African haplotypes of Hemoglobin SS.[12][13]

Respiratory problems

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In children who have been given transfusions to prevent stroke there was also a reduction in the number of children who developed acute chest crises.[13] There is no evidence about whether or not red cell transfusions prevent chronic lung complications.[14]

Treatment of complications

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Aplastic crisis

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This should be suspected if there is a significant drop in the hemoglobin level compared to the patient's usual hemoglobin level which is associated with a low level of reticulocytes. This is usually due to infection with erythrovirus B19 (previously known as parvovirus B19).[11] The anemia is usually severe with an average drop in hemoglobin of 40 g/L, and is usually treated with a simple transfusion.[11]

Splenic and hepatic sequestration

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Acute splenic and hepatic sequestration associated with severe anemia requires a simple transfusion to raise the hemoglobin.[3][11]

Acute chest crisis

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Red cell transfusions are used to treat patients with acute chest crisis and respiratory compromise.[9][2] Exchange transfusion is recommended for those patients who have a higher hemoglobin (> 90g/L), those who have not improved after a simple transfusion, or those who have severe respiratory compromise.[11]

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Alloimmunisation

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Red cell alloimmunisation is common in people with sickle cell disease who receive transfusions in Europe and North America.[4] This is because there are ethnic differences in the frequencies of blood group antigens.[4] Blood donors are usually Caucasian whereas the blood transfusion recipients usually have an African or Afro-Caribbean ancestry.[4][15] Extended phenotype matching of red blood cells (matching Rh and Kell blood groups as well as ABO) decreases the risk of alloimmunisation, but it still occurs.[4]

Iron overload

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Each unit of transfused blood has approximately 250 mg of iron, with each successive transfusion, patients receiving chronic transfusion therapy accumulate iron in various tissues in the body as the body has no way to excrete the excess, this is a cause of increased morbidity and mortality.[16] The effects of iron overload are countered by chelation therapy[17] Guidelines recommend if patients are receiving regular or intermittent transfusions they should be monitored for iron overload.[4]

References

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  1. ^ Drasar E, Igbineweka N, Vasavda N, Free M, Awogbade M, Allman M, Mijovic A, Thein SL (March 2011). "Blood transfusion usage among adults with sickle cell disease - a single institution experience over ten years". British Journal of Haematology. 152 (6): 766–70. doi:10.1111/j.1365-2141.2010.08451.x. PMID 21275951. S2CID 44562296.
  2. ^ a b c Yawn BP, Buchanan GR, Afenyi-Annan AN, Ballas SK, Hassell KL, James AH, et al. (September 2014). "Management of sickle cell disease: summary of the 2014 evidence-based report by expert panel members". JAMA. 312 (10): 1033–48. doi:10.1001/jama.2014.10517. PMID 25203083.
  3. ^ a b c d e f g h "Evidence-Based Management of Sickle Cell Disease". 2014. Retrieved 9 February 2016.
  4. ^ a b c d e f g Davis BA, Allard S, Qureshi A, Porter JB, Pancham S, Win N, Cho G, Ryan K (January 2017). "Guidelines on red cell transfusion in sickle cell disease. Part I: principles and laboratory aspects". British Journal of Haematology. 176 (2): 179–191. doi:10.1111/bjh.14346. PMID 28092109. S2CID 3462324.
  5. ^ Howard, Jo (2016-12-02). "Sickle cell disease: when and how to transfuse". Hematology. American Society of Hematology. Education Program. 2016 (1): 625–631. doi:10.1182/asheducation-2016.1.625. ISSN 1520-4391. PMC 6142434. PMID 27913538.
  6. ^ Gyang E, Yeom K, Hoppe C, Partap S, Jeng M (January 2011). "Effect of chronic red cell transfusion therapy on vasculopathies and silent infarcts in patients with sickle cell disease". American Journal of Hematology. 86 (1): 104–6. doi:10.1002/ajh.21901. PMID 21117059. S2CID 38286439.
  7. ^ Mirre E, Brousse V, Berteloot L, Lambot-Juhan K, Verlhac S, Boulat C, Dumont MD, Lenoir G, de Montalembert M (March 2010). "Feasibility and efficacy of chronic transfusion for stroke prevention in children with sickle cell disease". European Journal of Haematology. 84 (3): 259–65. doi:10.1111/j.1600-0609.2009.01379.x. PMID 19912310. S2CID 24316310.
  8. ^ a b Estcourt, Lise J.; Kohli, Ruchika; Hopewell, Sally; Trivella, Marialena; Wang, Winfred C. (27 July 2020). "Blood transfusion for preventing primary and secondary stroke in people with sickle cell disease". The Cochrane Database of Systematic Reviews. 2020 (7): CD003146. doi:10.1002/14651858.CD003146.pub4. ISSN 1469-493X. PMC 7388696. PMID 32716555.
  9. ^ a b "ISBT: 14. Transfusion in Hemoglobinopathies". www.isbtweb.org. Retrieved 2019-01-09.
  10. ^ Estcourt, Lise J.; Kimber, Catherine; Hopewell, Sally; Trivella, Marialena; Doree, Carolyn; Abboud, Miguel R. (6 April 2020). "Interventions for preventing silent cerebral infarcts in people with sickle cell disease". The Cochrane Database of Systematic Reviews. 2020 (4): CD012389. doi:10.1002/14651858.CD012389.pub3. ISSN 1469-493X. PMC 7134371. PMID 32250453.
  11. ^ a b c d e Davis BA, Allard S, Qureshi A, Porter JB, Pancham S, Win N, Cho G, Ryan K (January 2017). "Guidelines on red cell transfusion in sickle cell disease Part II: indications for transfusion" (PDF). British Journal of Haematology. 176 (2): 192–209. doi:10.1111/bjh.14383. PMID 27858994. S2CID 3534824.
  12. ^ Estcourt, Lise J.; Kimber, Catherine; Trivella, Marialena; Doree, Carolyn; Hopewell, Sally (2 July 2020). "Preoperative blood transfusions for sickle cell disease". The Cochrane Database of Systematic Reviews. 2020 (7): CD003149. doi:10.1002/14651858.CD003149.pub4. ISSN 1469-493X. PMC 7389247. PMID 32614473.
  13. ^ a b Fortin PM, Hopewell S, Estcourt LJ (August 2018). "Red blood cell transfusion to treat or prevent complications in sickle cell disease: an overview of Cochrane reviews". The Cochrane Database of Systematic Reviews. 2018 (8): CD012082. doi:10.1002/14651858.cd012082.pub2. PMC 4826604. PMID 30067867.
  14. ^ Estcourt, Lise J.; Hopewell, Sally; Trivella, Marialena; Hambleton, Ian R.; Cho, Gavin (25 October 2019). "Regular long-term red blood cell transfusions for managing chronic chest complications in sickle cell disease". The Cochrane Database of Systematic Reviews. 2019 (10). doi:10.1002/14651858.CD008360.pub5. ISSN 1469-493X. PMC 6814284. PMID 31684693.
  15. ^ "Why black, Asian and minority ethnic donors are needed". NHS Blood and Transplant. Retrieved 2019-01-09.
  16. ^ Harmatz P, Butensky E, Quirolo K, Williams R, Ferrell L, Moyer T, Golden D, Neumayr L, Vichinsky E (July 2000). "Severity of iron overload in patients with sickle cell disease receiving chronic red blood cell transfusion therapy". Blood. 96 (1): 76–9. doi:10.1182/blood.V96.1.76. PMID 10891433.
  17. ^ Walter PB, Harmatz P, Vichinsky E (2009). "Iron metabolism and iron chelation in sickle cell disease". Acta Haematologica. 122 (2–3): 174–83. doi:10.1159/000243802. PMID 19907155. S2CID 33596378.