Early-onset Marfan syndrome with a novel missense mutation: A case report.

Early-onset Marfan syndrome (eoMFS) progresses rapidly, starting during the neonatal period, causes severe clinical disease, and has a poor prognosis. The genetic abnormality associated with eoMFS is located in a so-called critical neonatal region in exons 25-26 of the fibrillin-1 (FBN1) gene. A female neonate was delivered by emergency cesarean section at 37 weeks gestation due to fetal distress with bradycardia, cyanosis, and no spontaneous breathing. On examination, the patient had multiple musculoskeletal deformities, including loose redundant skin, arachnodactyly, flat soles, and joint contractures. Echocardiography showed poor cardiac contractility with multiple valvular abnormalities. She died 13 h after birth. We identified a novel missense variant c.3218A>G (p.Glu1073Gly) in exon 26 of the FBN1 gene by targeted next-generation sequencing. A literature review revealed that arachnodactyly and aortic root dilatation in the fetus are predictive of eoMFS. However, the predictive potential of ultrasonography alone is limited. Genetic testing of the FBN1 gene restriction region associated with short life expectancy and characteristic fetal ultrasound findings could be important for prenatal diagnosis of eoMFS, postnatal management, and parental preparedness. Learning objective: We identified a novel missense mutation located in exons 25-26 of the Fibrillin-1 gene in a neonate with early-onset Marfan syndrome (eoMFS) who died of severe early heart failure shortly after birth. This mutation was located in a narrowly defined critical neonatal region, recently reported to cause eoMFS, and its clinical profile was consistent with early-onset severe heart failure. In addition to ultrasonography, genetic analysis of this region is important for predicting prognosis in eoMFS.

Association of Multiple Gene Polymorphisms Including Homozygous NUDT15 R139C With Thiopurine Intolerance During the Treatment of Acute Lymphoblastic Leukemia.

Although thiopurine is a crucial drug for treating acute lymphoblastic leukemia, individual variations in intolerance are observed due to gene polymorphisms. A 3-year-old boy with B-cell precursor acute lymphoblastic leukemia who was administered thiopurine developed mucositis, sepsis, and hemophagocytic lymphohistiocytosis due to prolonged hematologic toxicity, chronic disseminated candidiasis, and infective endocarditis that triggered multiple brain infarctions. The patient was found to harbor 3 gene polymorphisms associated with thiopurine intolerance including homozygous NUDT15 R139C, heterozygous ITPA C94A, and homozygous MTHFR C677T and heterozygous RFC1 G80A. Thus, the combined effect of intolerance via multiple gene polymorphisms should be considered in case of unexpected adverse reactions.

MYH7 mutation identified by next-generation sequencing in three infant siblings with bi-ventricular noncompaction presenting with restrictive hemodynamics: A report of three siblings with a severe phenotype and poor prognosis.

Noncompaction of the ventricular myocardium (NVM) is a genetically heterogeneous cardiomyopathy. Various mutations associated with NVM have been identified in several genes. NVM patients usually present with complications of dilated cardiomyopathy. We identified a missense mutation, c.5740G>A, p.Glu1914Lys of MYH7, by targeted next-generation sequencing in three infant siblings with isolated bi-ventricular noncompaction who presented with restrictive hemodynamics and severe clinical courses. This mutation appears to be associated with a severe phenotype and poor prognosis. Early heart transplantation should be considered in similar cases. .