Search

  • Select Article Type
  • Abstract Supplements
  • Blood Group Review
  • Call to Arms
  • Hypothesis
  • In Memoriam
  • Interview
  • Introduction
  • Letter to the Editor
  • Short Report
  • abstract
  • Abstracts
  • Article
  • book-review
  • case-report
  • case-study
  • Clinical Practice
  • Commentary
  • Conference Presentation
  • conference-report
  • congress-report
  • Correction
  • critical-appraisal
  • Editorial
  • Editorial Comment
  • Erratum
  • Events
  • Letter
  • Letter to Editor
  • mini-review
  • minireview
  • News
  • non-scientific
  • Obituary
  • original-paper
  • original-report
  • Original Research
  • Pictorial Review
  • Position Paper
  • Practice Report
  • Preface
  • Preliminary report
  • Product Review
  • rapid-communication
  • Report
  • research-article
  • Research Communicate
  • research-paper
  • Research Report
  • Review
  • review -article
  • review-article
  • review-paper
  • Review Paper
  • Sampling Methods
  • Scientific Commentary
  • short-communication
  • short-report
  • Student Essay
  • Varia
  • Welome
  • Select Journal
  • Immunohematology

 

Review | 01-December-2019

Allogeneic red blood cell adsorption for removal of warm autoantibody

Christina Barron

Immunohematology, Volume 30 , ISSUE 4, 153–155

Article | 16-October-2019

Separation of multiple antibodies by adsorption with allogeneic red blood cells

, and adsorption with allogeneic RBCs—may be used to separate and properly identify antibodies that are present in a single serum or plasma sample. Reagents/Supplies Reagents Supplies Allogeneic red blood cells positive for antigen to which antibody is directed against, and antigen negative for other suspected antibody(ies) Phosphate-buffered saline Proteolytic enzyme 1 mL graduated, disposable pipettes 37°C incubator Test tubes Centrifuge Procedural Steps Select

E.M. Ekema

Immunohematology, Volume 33 , ISSUE 4, 155–158

Article | 28-April-2020

The incidence of red cell alloantibodies underlying panreactive warm autoantibodies

alloantibodies not found within the Rh or Kell blood group systems. Antibodies identified included the following specificities:E (19),D (9),c (7),C (6),S (5),Fya (3),Jka (2),Jkb (2),K (2),Kpa (2),Fyb,Cw,N, and f (ce). This study reinforces the value of adsorption studies, whether using autologous or allogeneic RBCs, when panreactive warm autoantibodies are present. In addition, this study confirms that it is not appropriate in these cases simply to issue blood which is “least incompatible” or Rh

Martin Maley, David G. Bruce, Roderick G. Babb, Angus W. Wells, Mark Williams

Immunohematology, Volume 21 , ISSUE 3, 122–125

Article | 26-October-2020

Naturally-occurring anti-Jka in infant twins

with ficin- or papain-treated RBCs. Monocyte monolayer assays using Jk(a+) RBCs sensitized by either twins' serum were nonreactive (0%). RBCs from both parents typed as Jk(a+b+). Both parents’ antibody detection test results by SPRCA assay were negative. The absence of a history of exposure to allogeneic RBCs or possible passive transfer of maternal or other alloantibody classifies these antibodies as naturally-occurring anti-Jka.

Dawn H. Rumsey, Sandra J. Nance, Mary Rubino, S. Gerald Sandler

Immunohematology, Volume 15 , ISSUE 4, 159–162

Article | 30-November-2020

Misidentification of anti-Vel due to inappropriate use of prewarming and adsorption techniques

Two units of red blood cells (RBCs) were ordered for a 44-year-old Caucasian woman with renal failure and cancer. Pretransfnsion testing performed at the regional reference laboratory had revealed the presence of an antibody reactive with all cells at the indirect antiglobulin test (IAT) but apparently nonreactive by a prewarmed IAT. The patient’s RBCs were direct antiglobulin test negative. Adsorption of the serum with rabbit erythrocyte stroma or with allogeneic RBCs at 4°C reduced

Jill Storry, Delores Mallory

Immunohematology, Volume 10 , ISSUE 3, 83–86

No Record Found..
Page Actions