Delayed umbilical bleeding--a presenting feature for factor XIII deficiency: clinical features, genetics, and management

Delayed umbilical bleeding--a presenting feature for factor XIII deficiency: clinical features, genetics, and management

Objectives. The objectives of this study were 1) to assess the importance of an early diagnosis for factor XIII (FXIII) deficiency, and 2) to investigate the molecular basis and mechanism(s) of disease in the patients under study. Methods. The case histories of 6 FXIII-deficient patients were examin...

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Bibliographic Details
Published in:Pediatrics (Evanston) Vol. 109; no. 2; p. 307
Main Authors: Anwar, Rashida, Minford, Adrian, Gallivan, Louise, Trinh, Chi H, Markham, Alexander F
Format: Journal Article
Language:English
Published: American Academy of Pediatrics 01-02-2002
Subjects:
Blood clotting disorders
Blood coagulation disorders
Diagnosis
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Summary:Objectives. The objectives of this study were 1) to assess the importance of an early diagnosis for factor XIII (FXIII) deficiency, and 2) to investigate the molecular basis and mechanism(s) of disease in the patients under study. Methods. The case histories of 6 FXIII-deficient patients were examined to assess the influence of early versus delayed diagnosis and replacement therapy. The nucleotide sequence of the FXIIIA gene was determined to identify the underlying mutations responsible for the bleeding diathesis in each patient. Molecular modeling was used to predict the mechanism(s) of disease causation for each mutation. Results. All cases presented with umbilical hemorrhage. Patients 1 to 3 were diagnosed, and their prophylactic therapy was commenced in infancy. Diagnosis in patients 4 to 6 was considerably delayed and, as a result, they continued to suffer from many bleeding symptoms. The FXIIIA gene mutations identified in these patients were as follows: a homozygous GAA [right arrow] AAA mutation in codon 102 (Glu102Lys) in patient 1 and a homozygous AGC [right arrow] AGG mutation in codon 295 (Ser295Arg) in patients 2 to 6. These mutations segregate with disease and are absent from the normal population, suggesting that they are likely to be disease-causing sequence changes. Computer modeling indicates that both the Lys102 and Arg295 mutants are unable to fold correctly, and probably result in unstable FXIIIA molecules. Conclusions. We demonstrate the importance of recognizing delayed umbilical hemorrhage as a presenting feature for congenital FXIII deficiency, and the value of early diagnosis and prophylaxis. The bleeding disorder of patient 1 was attributable to a homozygous Glu102Lys mutation in FXIIIA. A homozygous Ser295Arg mutation in FXIIIA was responsible for FXIII deficiency in patients 2 to 6. Pediatrics 2002;109(2). URL: factor XIII deficiency, bleeding disorder, FXIIIA mutation, FXIIIA structure.
ISSN:0031-4005