Echinocyte Explained

Echinocyte (from the Greek word echinos, meaning 'hedgehog' or 'sea urchin'), in human biology and medicine, refers to a form of red blood cell that has an abnormal cell membrane characterized by many small, evenly spaced thorny projections.[1] [2] A more common term for these cells is burr cells.

Physiology

Echinocytes are frequently confused with acanthocytes, but the mechanism of cell membrane alteration is different. Echinocytosis is a reversible condition of red blood cells that is often merely an artifact produced by EDTA, which is used as an anticoagulant in sampled blood.[3] Echinocytes can be distinguished from acanthocytes by the shape of the projections, which are smaller and more numerous than in acanthocytes and are evenly spaced. Echinocytes also exhibit central pallor, or lightening of color in the center of the cell under Wright staining.[4]

Causes

In addition to appearing as an artifact of staining or drying, echinocytes are associated with:[5]

Echinocytes, like acanthocytes, may be found in hyperlipidemia caused by liver dysfunction, but the lipids themselves do not integrate into the membrane. Instead, it is speculated that cell surface receptors on the red blood cells bind with HDL cholesterol, which induces the shape change.[6]

These cells were also shown to develop in vivo during hemodialysis, and disappear at the end of the procedure. The level of echinocytosis appeared to be related to the increase in blood viscosity that occurs during hemodialysis.[7]

The formation of echinocytes can also be induced by electric field pulses.[8] Alternating electric current produces modifications in the membranes of red blood cells, attributed to a higher permeability to water and a decreased tonicity, leading to the transformation into echinocytes.[9]

See also

Notes and References

  1. Mentzer WC. Spiculated cells (echinocytes and acanthocytes) and target cells. UpToDate (release: 20.12- C21.4) http://www.uptodate.com/contents/spiculated-cells-echinocytes-and-acanthocytes-and-target-cells
  2. Book: Hoffman, R . Benz, EJ . Silberstein, LE . Heslop, H . Weitz J . Anastasi, J. . Hematology: Basic Principles and Practice . Elsevier . 2012 . 6th . 978-1-4377-2928-3.
  3. Web site: MediaLab. Burr Cells (Echinocytes). July 12, 2013.
  4. Web site: de Alarcon PA. Acanthocytosis. Nov 30, 2011.
  5. Book: Tkachuk. Douglas C.. Hirschmann. Jan V.. Wintrobe's atlas of clinical hematology. 2007. Lippincott Williams & Wilkins. Philadelphia, PA [etc.]. 978-0781770231.
  6. Erythrocyte echinocytosis in liver disease. Role of abnormal plasma high density lipoproteins.. Owen. J S. Brown, D . Harry, D . McIntyre, N . Beaven, G . Isenberg, H . Gratzer, W . December 1985. Journal of Clinical Investigation . 424351 . 4077979 . 10.1172/JCI112237 . 76 . 6 . 2275–85.
  7. Echinocytosis induced by haemodialysis.. https://archive.today/20130713031034/http://ndt.oxfordjournals.org/content/13/12/3132. dead. 2013-07-13. Hasler. C R. Owen, G . Brunner, D . Reinhart, W . 1998. Nephrology Dialysis Transplantation. 13 . 12 . 3132–3137 . Oxford Journals. 10.1093/ndt/13.12.3132 . 9870478 . free.
  8. Electric field pulses induce reversible shape transformation of human erythrocytes.. Henszen . MM. Weske, M . Schwarz, S . Haest, CW . Deuticke, B . October–December 1997. Mol Membr Biol. . 9491371 . 14 . 4 . 195–204 . 10.3109/09687689709048182.
  9. Changes observed in erythrocyte cells exposed to an alternating current.. Jeican. II. Matei, H . Istrate, A . Mironescu, E . Bâlici, S . April 2017. Clujul Med. . 5433566 . 28559698 . 10.15386/cjmed-696 . 90 . 2 . 154–60.