blood type

The antibodies against factors in the AB0 system are developed in humans during the first year of life. The combination A and B has a codominant effect, the factor 0 recessive. The blood group in the AB0 system has been regularly surveyed worldwide for decades due to its great importance together with the Rhesus factor D.

Blood group 0 is referred to as blood group O in many countries. In addition, in some countries the groups are designated with the Roman numerals I, II, III and IV (instead of 0, A, B and AB).

Rhesus system

The name rhesus factor comes from the experiments with rhesus monkeys in which this factor was first discovered in 1937. Karl Landsteiner wrote down the antibodies found according to A and B as C, D and E. Medically particularly relevant among these is the Rhesus factor D.

This can happen during blood transfusions or, under certain conditions, during pregnancy or childbirth. Normally, during pregnancy, the bloodstream of mother and child is separated from one another by the placental barrier , and this barrier prevents the child's blood cells from entering the maternal circulation (or vice versa). If this is still the case, for example with microtraumas of the placenta, with invasive , prenatal interventions in the uterus and / or on the child, or z. B. in the case of an injury to the child, the umbilical cord or the placenta at birth - the condition is the introduction of the child's blood into the maternal bloodstream - the mother can be sensitized and form antibodies against the rhesus antigen of the child.

However, natural childbirth is one of the non-invasive interventions. Even a heavily bleeding wound (such as a vaginal wound in the case of a perineal tear ) usually prevents foreign blood from entering the bloodstream outside the body . Depending on the type and extent of invasiveness of the procedure significantly more likely is a sensitization on previous miscarriage and pre exempt curettage in induced abortion or abortion and other invasive procedures in the uterus , such as in the context of prenatal diagnosis , the chorionic villus sampling (CVS), amniocentesis (AC) and the umbilical cord puncture . The risk of the initiation of the formation of antibodies and immunization increases depending on the extent of the invasiveness or the risk of injury and bleeding.

If such an immunization occurs during pregnancy, it happens relatively slowly and does not usually lead to problems in the first pregnancy. Small amounts of red blood cells in the child's body may be destroyed, which can make mild jaundice , which typically occurs after birth, somewhat worse. However, if the mother is "sensitized" from the first child, i.e. her immune system has formed memory cells, then renewed blood contact can occur in the next pregnancy (again with a rhesus-positive child, approx. 85% of the population is rhesus-positive, 15% Rhesus negative) very quickly lead to the formation of antibodies in the mother.

Because the D antibodies are type G immunoglobulins (IgG immunoglobulins), in this case they can easily migrate through the placental barrier into the child's bloodstream. There, the child's erythrocytes, which are loaded with D-antibodies from the mother, are broken down prematurely in the child's spleen . There is a hemolytic anemia and other consequences. This can lead to haemolyticus neonatorum disease , in the worst case to malformations or to the death of the child. In light cases z. B. treated by phototherapy . This consequence can be counteracted by blood exchange and possible antibody formation can be checked.

The drug usually administered preventively against this process and its consequences in children (see Rhesus incompatibility # pathogenesis ) (e.g. using RHOPHYLAC from CSL Behring and RHESONATIV from Octapharma) is a blood product . These are anti-D antibodies and are referred to as "anti D" or "anti-D prophylaxis".

Kell system

The Kell system is the third most important system in blood transfusions. Blood donors in Germany, Switzerland and Austria are regularly tested for the Kell antibody.

92% of people are Kell negative (kk) and should only receive Kell negative blood. 7.8% are mixed-blood cell-cell positive (Kk) and can receive blood with positive and negative cell factors. Only 0.2% of people are pure-blooded Kell-positive (KK) and need Kell-positive blood. 99.8% of all people can be supplied with Kell-negative blood, but hospitals still need both Kell-negative and Kell-positive blood. Blood donations with a positive Kell factor (KK or Kk) can only not be used in a few exceptional cases (e.g. pregnancy).

Inheritance is not yet fully understood. It is assumed that there are four antigenic types that are highly polymorphic , which, similar to the MHC genes, leads to strong variation even if they are closely related ( GeneID 3792 ). The Kell antibody (Anti-K, K1) is genetically combined with the Cellano antibody (Anti-k, K2) to form the KC system, as the proteins are very similar. The names of these IgG-type antibodies are named after pregnant patients - antibodies of the Kell-Cellano system can lead to serious incidents during transfusions and pregnancies.

MN system

There are three phenotypes in the MN system, caused by three genotypes that arise from the combination of two co-dominant alleles :

The MN system is combined with the other antigens S, s and U to form the MNS system .

Duffy system

The Duffy factor is an antigen and at the same time a receptor for Plasmodium vivax , the causative agent of tertian malaria . Duffy-negative carriers of the trait are resistant to this pathogen transmitted by the anopheles mosquito , as the modified receptor prevents contact with the host cell ( GeneID 2532 ).

Other systems

Cellano , Kidd (Jk; discovered as a factor group in 1951 by the Americans Allen, Diamond and Niedziela), Lewis , Lutheran (Lu), MNSs, P and Xg are the names for other blood group systems. They stand for other antibodies against blood components, which are usually named after the patient in whom they were first observed. If a patient has the appropriate antibodies in the blood, dangerous, repeatable complications after a blood transfusion can occur. Usually only the antibody is known that can be detected with a test (clumping with test blood), while the genetic causes are not yet known.

When testing for blood groups, tests for rare antibodies are carried out regularly. Their positive result must be noted individually with the clinical indication of the blood group. These patients can only be given blood from their own blood or blood from other carriers with the same characteristics.

Frequency of blood groups

Viewed worldwide, blood group “0” is the most common, but the distribution of the four blood groups is different in some regions. Blood group B occurs most frequently in certain areas of Asia, and blood group A in Europe. The fact that “0” occurs most frequently in the allele frequency , but is not the most common blood group as a recessive characteristic, indicates a selection advantage.

Blood group characteristic frequency worldwide Germany Austria Switzerland 0 45% 41% 36% 41% A. 40% 43% 44% 47% B. 11% 11% 14% 8th % FROM 4% 5% 6% 4% Rhesus positive 88% 85% 84% 85% Rhesus negative 12% 15% 16% 15% Kell negative 92% 91% 91% 91% Kell positive 8th % 9% 9% 9%

Distribution of blood groups Blood group characteristics on  blood donation pass

Evolution of blood groups

There is little reliable evidence of the origin of the various blood groups (the AB0 system). Molecular biological research has shown that blood group 0 evolved from blood group A about 5 million years ago as a result of a genetic mutation. It has also been found that those who have blood group 0 have a higher chance of survival in the event of a malaria infection ( Plasmodium falciparum ). This selection advantage has therefore contributed to the fact that blood group 0 occurs more frequently in the humid tropical zones of Africa and on the American continent than in other regions of the world. This polymorphism occurs in humans and other Old World monkeys . It is still largely unclear which other factors influenced the development and distribution of the various blood groups.

Compatibility between blood groups, universal donor

Blood group compatibility

A cross in the table means that a transfusion from donor to recipient is possible. In some cases, this only applies provided that only the blood cells are transferred. When whole blood is transferred, including blood plasma , the various blood groups in the AB0 system are always incompatible with one another.

A common feature of all blood groups is N-acetylglucosamine in the glycocalyx of the erythrocytes. Galactose binds to it . Fucose is still bound to the galactose . These form blood group 0 or the "family tree" of all blood groups. In addition, N-acetylgalactosamine (blood group A) or another galactose (blood group B) can bind to the galactose.

See also

• Blood groups in domestic dogs
• Bombay blood type
• Cross test
• Blood group tattoo

Esoteric considerations

• Japanese blood group interpretation - Japanese esotericism interprets the AB0 type as an indicator of character traits.
• Blood group diet - is a scientifically untenable recommendation for a blood group-adapted diet.

Web links

Wiktionary: blood group  - explanations of meanings, word origins, synonyms, translations

• Overview of blood group determination from the laboratory dictionary
• Set of slides on immunohematology and blood group serology (2002, PDF; 1.41 MB)
• Transfusion medicine (with chapter "Blood groups of the erythrocytes"). Lecture notes, University Medical Center Schleswig-Holstein, Kiel (2009, PDF; 734 kB)
• Calculation of the frequencies in the AB0, Rhesus and Kell systems ( Memento from January 17, 2008 in the Internet Archive ) without calculation, archived from the original
• BloodGroupAntigenGeneMutationDatabase - English language page (including descriptions of 27 blood group genes)

Individual evidence

1. ↑ Blood group ( memento from August 11, 2014 in the Internet Archive ), accessed on February 16, 2015, archived from the original
2. ↑ Tabular list of the 35 blood group systems (PDF) ISBT accessed on April 9, 2015
3. ↑ Geoff Daniels: Human Blood Groups. 2nd Edition. Blackwell, 2002, p. 5
4. ↑ Karl Landsteiner: To the knowledge of the antifermentative, lytic and agglutinating effects of the blood serum and the lymph. In: Zentralblatt Bakteriologie , 1900 (27)
5. ↑ Paul Speiser, Ferdinand G. Smekal, Karl Landsteiner: Discoverer of the blood groups and pioneer of immunology. Biography of a Nobel Prize winner from the Vienna Medical School. Blackwell Ueberreuter Wiss., 1990, ISBN 3-89412-084-3 . Quoted from Franka Böck, Thomas Riedel: Blood is a very special juice: Blood & circulatory system from antiquity to modernity . epubli, 2013, ISBN 978-3-8442-6184-4 , p. 98
6. ↑ Information from the Austrian Red Cross, blood donation center for Vienna / Lower Austria / Bgld.
7. ↑ Jürgen Thorwald : The hour of the detectives. Becomes and worlds of criminology. Droemer Knaur, Zurich and Munich 1966, p. 207.
8. ↑ See worldwide blood group distribution for distribution of the AB0 system
9. ↑ CIA World Factbook
10. ↑ blood groups. Austrian Red Cross, accessed on May 10, 2015 . 
11. ↑ Blood Types - What Are They ?, Australian Red Cross
12. ↑ Information page on blood. Rode Kruis Wielsbeke, archived from the original on April 20, 2013 ; accessed on May 10, 2015 . 
13. ↑ Tipos Sanguíneos ( Memento from March 9, 2013 in the Internet Archive )
14. ↑ ^{a b} bloodtypes.jigsy.com
15. ↑ Fordelingen af blodtyper ( Memento of 17 August 2009 at the Internet Archive )
16. ↑ verekeskus.ee
17. ↑ Suomalaists veriryhmäjakauma. August 21, 2009, archived from the original on January 16, 2009 ; Retrieved May 10, 2015 (Finnish). 
18. ^ Les groupes sanguins (système ABO). In: Center Hospitalier Princesse GRACE - Monaco. CHPG MONACO, 2005, accessed July 15, 2008 (French). 
19. ^ Irish Blood Group Type Frequency Distribution. Irish Blood Transfusion Service, accessed May 10, 2015 . 
20. ↑ Blóðflokkar. .landspitali.is, archived from the original on September 28, 2011 ; Retrieved May 10, 2015 (Icelandic). 
21. ^ The national rescue service in Israel. Mdais.org, archived from the original on November 26, 2010 ; Retrieved May 10, 2015 (Hebrew). 
22. ↑ ????? Japanese Red Cross Society, archived from the original on July 29, 2012 ; Retrieved May 10, 2015 (Japanese). 
23. ^ Types & Rh System, Canadian Blood Services. Canadian Blood Services - Société canadienne du sang, archived from the original on November 4, 2014 ; accessed on May 10, 2015 . 
24. ↑ What are Blood Groups? NZ Blood, archived from the original on May 25, 2013 ; accessed on May 10, 2015 . 
25. ↑ Voorraad Erytrocytenconcentraten Bij Sanquin. Archived from the original on October 11, 2011 ; Retrieved May 10, 2015 (Dutch). 
26. ↑ Hva er en blodtype? In: What is a blood type? Archived from the original on September 24, 2014 ; Retrieved May 10, 2015 (Norwegian). 
27. ^ Philippine Red Cross. Archived from the original on July 16, 2014 ; accessed on May 10, 2015 . 
28. ↑ Regionalne Centrum Krwiodawstwa i Krwiolecznictwa we Wrocławiu. Rckik.wroclaw.pl, September 2, 2010, accessed May 10, 2015 (Polish). 
29. ^ Portuguese Blood Institute. Archived from the original on June 3, 2011 ; Retrieved January 7, 2016 (Portuguese). 
30. ^ Frequency of ABO blood groups in the eastern region of Saudi Arabia. Cat.inist.fr, accessed May 10, 2015 . 
31. ↑ Blood groups & Rh factor - blood donation SRK Switzerland. Retrieved October 10, 2018 . 
32. ↑ Federación Nacional de Donantes de Sangre / La sangre / Grupos. Donantesdesangre.net, accessed May 10, 2015 . 
33. ↑ What's Your Type? South African National Blood Service, archived from the original on February 6, 2010 ; accessed on May 10, 2015 . 
34. ↑ Blodgrupperna fördelar sig så här i Sverige (archived version of November 24, 2010). Geblod.nu, October 2, 2007, archived from the original on November 24, 2010 ; accessed on May 10, 2015 . 
35. ↑ Podíl krevních skupin v populaci Ceské republiky. Czech Red Cross, archived from the original on May 21, 2009 ; accessed on May 10, 2015 . 
36. ↑ Ülkemizde Kan Grubu Dagilimi Grafigi. Kangrubu.com, archived from the original on May 29, 2010 ; accessed on May 10, 2015 . 
37. ^ Blood Group Basics. Blood.co.uk, accessed May 10, 2015 . 
38. ↑ Blood Types in the US (archived October 20, 2012). Bloodcenter.stanford.edu, June 20, 2008, archived from the original on October 20, 2012 ; accessed on May 10, 2015 . 
39. ↑ Christine M. Cserti, Walter H. Dzik: The ABO blood group system and Plasmodium falciparum malaria. (PDF) In: Blood. Vol. 110, No. 7, 2007, pp. 2250–2258 , accessed on March 17, 2015 (English). 
40. ↑ Malaria: Two New Resistance Genes . In: Deutsches Ärzteblatt , August 16, 2012
41. ↑ Blood groups: A, B and zero have been around for millions of years. In: Spiegel Online , October 26, 2012.