Abstract Tricho‐rhino‐phalangeal syndrome ( TRPS ) is an autosomal‐dominant disease characterized by sparse and slow‐growing scalp hair and craniofacial and skeletal abnormalities. We report here the case of two girls and their father who had TRPS type 1 and received a diagnosis of a new mutation of TRPS 1 based on their clinical symptoms. Moreover, histological studies on skin samples obtained from one of the patients showed enhanced signal transducers and activator of transcription ( STAT ) 3 expression in the outer root sheath. However, TRPS 1 protein expression was not reduced in the patient's follicles. These findings indicate that truncated TRPS 1 protein from the mutant allele may be stably expressed in the patient's follicles and that enhanced STAT 3 expression may be involved in the development of sparse and thin scalp hair in TRPS .
Succinyl-CoA:3-oxoacid CoA transferase (SCOT) deficiency is an autosomal recessive disorder of ketone body utilization that is clinically characterized with intermittent ketoacidosis crises. We report here the second Turkish case with SCOT deficiency. She experienced 3 ketoacidotic episodes: The first ketoacidotic crisis mimicked diabetic ketoacidosis because of the associated hyperglycemia. Among patients with SCOT deficiency, the blood glucose levels at the first crises were variable, and this case had the highest ever reported blood glucose level. She is a compound heterozygote with 2 novel mutations, c.517A>G (K173E) and c.1543A>G (M515V), in exons 5 and 17 of the OXCT1 gene, respectively. In patient's fibroblasts, SCOT activity was deficient and, by immunoblot analysis, SCOT protein was much reduced. The patient attained normal development and had no permanent ketosis. The accurate diagnosis of SCOT deficiency in this case had a vital impact on the management strategy and outcome.
Neonatal disseminated herpes simplex virus (HSV) infection with acute liver failure (ALF) and neonatal hemophagocytic lymphohistiocytosis (HLH) are severe diseases. We recently experienced a male infant with HLH and ALF induced by HSV type 1 (HSV-1). The infant, born at 39 weeks of gestation by normal delivery, developed a fever on day 4. On day 9, laboratory investigations showed progressive liver dysfunction and coagulopathy, and the serum ferritin was excessively elevated. Furthermore, the blood levels of interleukin (IL)-6, IL-10, and interferon-gamma were also elevated. HSV-1 DNA was detected in the serum and cerebrospinal fluid by the real-time PCR method. A diagnosis of HLH was established based upon the following criteria: fever, splenomegaly, cytopenia (two cell lines), serum ferritin (> 500 μg/l) and hypofibrinogenemia (< 150 mg/dl). High-dose acyclovir therapy, steroid pulse therapy using methylprednisolone, high-dose gamma globulin therapy and a blood transfusion were given. The patient recovered without neurological deficit. Neonatal disseminated HSV infections may be complicated by the development of HLH and hypercyokinemia. If HLH is suspected, not only high-dose acyclovir therapy but also anti-cytokine therapy should be considered.
Abstract Purpose Current newborn screening (NBS) for mucopolysaccharidosis type I (MPSI) has very high false positive rates and low positive predictive values (PPVs). To improve the accuracy of presymptomatic prediction for MPSI, we propose an NBS tool based on known biomarkers, alpha‐L‐iduronidase enzyme activity (IDUA) and level of the glycosaminoglycan (GAG) heparan sulfate (HS). Methods We developed the NBS tool using measures from dried blood spots (DBS) of 5000 normal newborns from Gifu Prefecture, Japan. The tool's predictive accuracy was tested on the newborn DBS from these infants and from seven patients who were known to have early‐onset MPSI (Hurler's syndrome). Bivariate analyses of the standardized natural logarithms of IDUA and HS levels were employed to develop the tool. Results Every case of early‐onset MPSI was predicted correctly by the tool. No normal newborn was incorrectly identified as having early‐onset MPSI, whereas 12 normal newborns were so incorrectly identified by the Gifu NBS protocol. The PPV was estimated to be 99.9%. Conclusions Bivariate analysis of IDUA with HS in newborn DBS can accurately predict early MPSI symptoms, control false positive rates, and enhance presymptomatic treatment. This bivariate analysis‐based approach, which was developed for Krabbe disease, can be extended to additional screened disorders.
