Juergen Bux scite author profile

Primary autoimmune neutropenia (AIN) is caused by granulocyte-specific autoantibodies and occurs predominantly in infancy. Clinical presentation and diagnosis have not been well established, resulting in burdening diagnostic investigations and unnecessary treatment with granulocyte colony-stimulating factor (G-CSF). In the present study, clinical, laboratory, and immunologic data of 240 infants with primary AIN were evaluated. Suspected association with parvovirus B19 infection was investigated using serologic and DNA-based methods. Primary AIN was mainly diagnosed at the age of 5 to 15 months but was observed as early as day 33 of life. In 90% of the cases, AIN was associated with benign infections despite severe neutropenia. Spontaneous remission, shown by 95% of the patients, usually occurred within 7 to 24 months. Autoantibodies in the patient's sera were not always present, and screening had to be repeated several times until antibody detection succeeded. About 35% of the autoantibodies showed preferential binding to granulocytes from NA1 and NA2 homozygous donors. Bone marrow was typically normocellular or hypercellular, with a variably diminished number of segmented granulocytes. A significant association with parvovirus B19 infection was not found. Symptomatic treatment with antibiotics was sufficient in most patients. Eighty-nine percent of the patients received antibiotics (cotrimoxazole) for prophylaxis of infections. For severe infections or for surgical preparation, G-CSF, corticosteroids, and intravenous IgG were administered, resulting in increased neutrophil counts in 100%, 75%, and 50% of the patients treated, respectively. In combination with the detection of granulocyte-specific antibodies, the typical clinical picture allowed diagnosis of AIN without burdening investigations. Treatment with G-CSF was found to be a reliable alternative to temporarily increase the neutrophil count.

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Transfusion‐related acute lung injury (TRALI): a serious adverse event of blood transfusion

Bux

2005

Vox Sanguinis

221

207

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A consensus redefinition of transfusion‐related acute lung injury

et al. 2019

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BACKGROUND Transfusion‐related acute lung injury (TRALI) is a serious complication of blood transfusion and is among the leading causes of transfusion‐related morbidity and mortality in most developed countries. In the past decade, the pathophysiology of this potentially life‐threatening syndrome has been increasingly elucidated, large cohort studies have identified associated patient conditions and transfusion risk factors, and preventive strategies have been successfully implemented. These new insights provide a rationale for updating the 2004 consensus definition of TRALI. STUDY DESIGN AND METHODS An international expert panel used the Delphi methodology to develop a redefinition of TRALI by modifying and updating the 2004 definition. Additionally, the panel reviewed issues related to TRALI nomenclature, patient conditions associated with acute respiratory distress syndrome (ARDS) and TRALI, TRALI pathophysiology, and standardization of reporting of TRALI cases. RESULTS In the redefinition, the term “possible TRALI” has been dropped. The terminology of TRALI Type I (without an ARDS risk factor) and TRALI Type II (with an ARDS risk factor or with mild existing ARDS) is proposed. Cases with an ARDS risk factor that meet ARDS diagnostic criteria and where respiratory deterioration over the 12 hours before transfusion implicates the risk factor as causative should be classified as ARDS. TRALI remains a clinical diagnosis and does not require detection of cognate white blood cell antibodies. CONCLUSIONS Clinicians should report all cases of posttransfusion pulmonary edema to the transfusion service so that further investigation can allow for classification of such cases as TRALI (Type I or Type II), ARDS, transfusion‐associated circulatory overload (TACO), or TRALI or TACO cannot distinguish or an alternate diagnosis.

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Characterization of a New Alloantigen (SH) on the Human Neutrophil Fcγreceptor IIIb

et al. 1997

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Polymorphic structures of the neutrophil Fcγreceptor IIIb (FcγRIIIb) result in alloantibody formation that causes alloimmune neonatal neutropenia and transfusion reactions. Alloantigens located on FcγRIIIb include the antigens NA1 and NA2. In four cases of alloimmune neonatal neutropenia, granulocyte-specific alloantibodies directed against a thus far unknown antigen were detected by granulocyte agglutination and immunofluorescence tests in the maternal sera. By the use of the monoclonal antibody–specific immobilization of granulocyte antigens (MAIGA) assay, the new antigen, termed SH, was located on the FcγRIIIb. Nucleotide sequence analysis of the FcγRIIIb coding region from a SH(+) individual showed a single-base C→A mutation at position 266, which results in an Ala78Asp amino acid substitution. A family study confirmed that this nucleotide difference is inherited, and corresponds to the SH phenotype. Serologic typing of 309 randomly selected individuals showed an antigen frequency of 5% in the white population. The same frequency was found by genotyping, for which a technique based on polymerase chain reaction (PCR) using sequence-specific primers (PCR-SSP) was developed. Typing of all SH(+) individuals for NA1 and NA2, and PCR-restriction fragment length polymorphism analysis of the NA-specific PCR products from five SH(+) individuals using the SH-specific endonuclease SfaN I showed that SH antigen is very probably the result of an additional mutational event in the NA2 form of the FcγRIIIB gene. Immunochemical studies also demonstrated that the SH determinants reside on the 65- to 80-kD NA2 isoform of the FcγRIIIb. Our findings show the existence of an additional polymorphism of the FcγRIIIb, which can result in alloantibody formation causing alloimmune neonatal neutropenia.

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Juergen Bux

Diagnosis and Clinical Course of Autoimmune Neutropenia in Infancy: Analysis of 240 Cases

Transfusion‐related acute lung injury (TRALI): a serious adverse event of blood transfusion

A consensus redefinition of transfusion‐related acute lung injury

Characterization of a New Alloantigen (SH) on the Human Neutrophil Fcγreceptor IIIb

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