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MeSH Review

Blood Grouping and Crossmatching

 
 
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Disease relevance of Blood Grouping and Crossmatching

 

Psychiatry related information on Blood Grouping and Crossmatching

  • The model of cognitive processing known as the Knowledge Acquisition and Recall Theory is derived from Anderson's Adaptive Control of Thought Theory. The model is used as a basis for a methodology for the design of an intelligent tutoring system that teaches problem-solving strategies for blood grouping discrepancies [6].
 

High impact information on Blood Grouping and Crossmatching

  • A monoclonal antibody-derived, dry blood grouping plate, based upon the simple disaccharide, trehalose, is described that is indefinitely stable at room temperature and was found to have a 99.8% accuracy when tested against a standard semiautomated assay [7].
  • Letter: Cryo-panagglutinin detected in ABO blood-grouping standard sera [8].
  • Genomic analysis of clinical samples with serologic ABO blood grouping discrepancies: identification of 15 novel A and B subgroup alleles [9].
  • It is shown that, in enzyme-linked immunosorbent assays, the Le-FucT uses both immobilized beta Gal(1-->3) beta GlcNAc-bovine serum albumin conjugates and fetuin as acceptor substrates and renders them blood group B-active as detected by a monoclonal anti-B blood-grouping antibody [10].
  • ABO blood typing may therefore be useful in patients with rheumatoid arthritis before consideration of therapy with potentially ulcerogenic drugs [11].
 

Chemical compound and disease context of Blood Grouping and Crossmatching

 

Biological context of Blood Grouping and Crossmatching

 

Anatomical context of Blood Grouping and Crossmatching

 

Associations of Blood Grouping and Crossmatching with chemical compounds

  • Commercial anti-A, anti-B, anti-A,B and anti-D monoclonal and polyclonal antisera were immobilized onto polystyrene microtiter plates using a photografting technique, to set up a new solid-phase assay (SPA) to be used for blood grouping [20].
  • The culture supernatant is potent, avid and specific as demonstrated by its reactivity with a large sample of donor bloods tested manually and on the Olympus PK 7100 automated blood grouping machine [21].
  • PROCEDURES: Blood samples anticoagulated with EDTA were screened by use of each blood-typing method according to manufacturers' protocols [22].
  • Streptomycin-dependent panagglutinin causing error in forward blood grouping [23].
  • Serial infusion effects of hydroxyethyl starch on ESR, blood typing and crossmatching and serum amylase levels [24].
 

Gene context of Blood Grouping and Crossmatching

 

Analytical, diagnostic and therapeutic context of Blood Grouping and Crossmatching

References

  1. Hyperimmune human ABO blood-typing sera: reactivity with murine laminin and cytotoxicity for metastatic murine tumour cells. McCoy, J.P., Schrier, D., Lovett, E.J., Judd, W.J., Varani, J. J. Cell. Sci. (1983) [Pubmed]
  2. Immunosensors. Aizawa, M. Philos. Trans. R. Soc. Lond., B, Biol. Sci. (1987) [Pubmed]
  3. Xeroderma pigmentosum in Egypt. III. ABO blood grouping in 22 affected families. German, J., Hashem, N., El-Hefnawi, M., Cleaver, J.E. Ann. Hum. Genet. (1984) [Pubmed]
  4. Detection of ABO blood group-active glycolipids extracted from red cell membrane and heat hematoma using TLC-immunostaining. Ota, M., Fukushima, H., Yonemura, I., Hasekura, H. Z. Rechtsmed. (1988) [Pubmed]
  5. Genetic study on ossification of posterior longitudinal ligament. Tanikawa, E., Furuya, K., Nakajima, H. Bull. Tokyo Med. Dent. Univ. (1986) [Pubmed]
  6. A model for designing intelligent tutoring systems. Fowler, D.G. Journal of medical systems. (1991) [Pubmed]
  7. Dry instant blood typing plate for bedside use. Blakeley, D., Tolliday, B., Colaco, C., Roser, B. Lancet (1990) [Pubmed]
  8. Letter: Cryo-panagglutinin detected in ABO blood-grouping standard sera. Hasekura, H., Yanagida, J., Kashiwade, H., Nakamura, H. Lancet (1976) [Pubmed]
  9. Genomic analysis of clinical samples with serologic ABO blood grouping discrepancies: identification of 15 novel A and B subgroup alleles. Olsson, M.L., Irshaid, N.M., Hosseini-Maaf, B., Hellberg , A., Moulds, M.K., Sareneva, H., Chester, M.A. Blood (2001) [Pubmed]
  10. Enzymatic transfer of a preassembled trisaccharide antigen to cell surfaces using a fucosyltransferase. Srivastava, G., Kaur, K.J., Hindsgaul, O., Palcic, M.M. J. Biol. Chem. (1992) [Pubmed]
  11. Genetic predictors of patient response and side effects in the treatment of rheumatoid arthritis with a high dose nonsteroidal antiinflammatory drug regimen. Semble, E., Metcalf, D., Turner, R., Agudelo, C., Pisko, E., Johnson, A.M., Heise, E. Arthritis Rheum. (1982) [Pubmed]
  12. K phenotyping using a PK-7200 automated analyzer. Novaretti, M.C., Navarro, S.P., Dorlhiac-Llacer, P.E., Chamone, D.A. Immunohematology / American Red Cross. (1998) [Pubmed]
  13. Indisputable double paternity in dizygous twins. Girela, E., Lorente, J.A., Alvarez, J.C., Rodrigo, M.D., Lorente, M., Villanueva, E. Fertil. Steril. (1997) [Pubmed]
  14. A comprehensive IgA service provided by a blood transfusion center. Munks, R., Booth, J.R., Sokol, R.J. Immunohematology / American Red Cross. (1998) [Pubmed]
  15. Origin of an 84-kDa protein with ABH blood-typing antigen activity in human seminal plasma. Sato, I., Nakamura, A., Yamazaki, K., Sakata, N., Ito, K., Ito, E., Sagi, M. J. Androl. (1999) [Pubmed]
  16. An animal model for hemolytic disease of the fetus and newborn. I. Alloimmunization techniques. Moise, K.J., Rodkey, L.S., Saade, G., Gei, A., Duré, M., Graham, A., Creech, C. Am. J. Obstet. Gynecol. (1995) [Pubmed]
  17. ABO blood grouping of saliva from mixed body fluids by sandwich methods using monoclonal antibodies to tissue specific epitopes on blood group substance in saliva. Kimura, A., Matsumura, F., Sodesaki, K., Tsuji, T. Int. J. Legal Med. (1991) [Pubmed]
  18. Determination of ABO blood grouping from human oral squamous epithelium by the highly sensitive immunohistochemical staining method EnVision+. Noda, H., Yokota, M., Tatsumi, S., Sugiyama, S. J. Forensic Sci. (2002) [Pubmed]
  19. Effects of solvent displacement on sensitivity and specificity of monoclonal antibodies for ABO blood grouping of forensic specimens with an absorption-elution test. Kobayashi, T., Yokota, M., Mitani, T., Akane, A. Legal medicine (Tokyo, Japan) (1999) [Pubmed]
  20. Use of photografting technique for the immobilization of blood-grouping antibodies onto microtiter plates. D'Ambrosio, A., Rebulla, P., Revelli, N., Morelati, F., Marangoni, F., Sirchia, G., Bellobono, I.R. J. Biomed. Mater. Res. (1997) [Pubmed]
  21. A new monoclonal anti-A antibody BIRMA-1. A potent culture supernatant which agglutinates Ax cells, but does not give undesirable reactions with B cells. McDonald, D.F., Thompson, J.M. Vox Sang. (1991) [Pubmed]
  22. Comparison of various canine blood-typing methods. Giger, U., Stieger, K., Palos, H. Am. J. Vet. Res. (2005) [Pubmed]
  23. Streptomycin-dependent panagglutinin causing error in forward blood grouping. Joshi, S.R. Vox Sang. (2001) [Pubmed]
  24. Serial infusion effects of hydroxyethyl starch on ESR, blood typing and crossmatching and serum amylase levels. Janes, A.W., Mishler, J.M., Lowes, B. Vox Sang. (1977) [Pubmed]
  25. Detection of acquired B antigen by monoclonal anti-B blood grouping reagents. Case, J., Moulds, M.T., Eatz, R., Rolih, S., McGowan, A. Transfusion (1997) [Pubmed]
  26. Construction of mono- and bivalent human single-chain Fv fragments against the D antigen in the Rh blood group: multimerization effect on cell agglutination and application to blood typing. Furuta, M., Uchikawa, M., Ueda, Y., Yabe, T., Taima, T., Tsumoto, K., Kojima, S., Juji, T., Kumagai, I. Protein Eng. (1998) [Pubmed]
  27. Addendum for guidelines for blood grouping and red cell antibody testing during pregnancy. BCSH Transfusion Task Force. Bruce, M., Chapman, J.F., Duguid, J., Kelsey, P., Knowles, S., Murphy, M., Williamson, L. Transfusion medicine (Oxford, England) (1999) [Pubmed]
  28. Weak rhesus D (RH1) grouping on the Olympus PK7100 blood grouping system. Moncharmont, P., Giannoli, C., Chirat, V., Chalard, T. Transfusion medicine (Oxford, England) (1997) [Pubmed]
  29. The phenotypic frequencies of group specific component and alpha-2-HS-glycoprotein in three ethnic groups. The use of these proteins as racial markers in forensic biology. Westwood, S.A., Seaman, P.J., O'Brien, C., Thorogood, L.J. Forensic Sci. Int. (1987) [Pubmed]
  30. Spectrin autoantibodies in normal human serum and in polyclonal blood grouping sera. Ballas, S.K. Br. J. Haematol. (1989) [Pubmed]
  31. Behavior of animal blood in blood typing systems. Isoelectric focusing of erythrocyte acid phosphatase and phosphoglucomutase. Stowell, L.I., Thomson, D.G., Vintiner, S.K., Dick, G.L. J. Forensic Sci. (1989) [Pubmed]
  32. ABO exon and intron analysis in individuals with the AweakB phenotype reveals a novel O1v-A2 hybrid allele that causes four missense mutations in the A transferase. Hosseini-Maaf, B., Hellberg, A., Rodrigues, M.J., Chester, M.A., Olsson, M.L. BMC Genet. (2003) [Pubmed]
 
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