9 research outputs found
Improving test properties for neonatal cystic fibrosis screening in the Netherlands before the nationwide start by May 1st 2011
Clinical evaluation of the Nanoduct sweat test system in the diagnosis of cystic fibrosis after newborn screening
False negative newborn screen and neonatal cholestasis in a premature child with cystic fibrosis
Impact on parents of HLA-DQ2/DQ8 genotyping in healthy children from coeliac families
Due to the association of coeliac disease and HLA-specificities DQ2 and DQ8, HLA-typing can be used for risk determination of the disease. This study was designed to evaluate the knowledge of parents from coeliac families regarding HLA-typing and the impact of HLA-typing on the perception of the health of their children. A structured questionnaire was sent to the Dutch, Spanish and German parents participating with their child in the European PreventCD study on disease prevention in high-risk families, addressing parents' understanding of and attitude towards HLA-typing, distress related to HLA-typing and perceived health and health-related quality of life of their children. Sixty-eight percent of parents of 515 children returned the questionnaires, with 85% of children being DQ2/DQ8 positive. The majority of all parents answered the questions on knowledge correctly. Forty-eight percent of parents of DQ2/DQ8-negative children thought their child could develop coeliac disease. More distress was reported by parents of DQ2/DQ8-positive children (
Predictive value of genomic screening: cross-sectional study of cystic fibrosis in 50,788 electronic health records
Sweat test and cystic fibrosis: overview of test performance at public and private centers in the state of São Paulo, Brazil
Defining the disease liability of variants in the cystic fibrosis transmembrane conductance regulator gene
Allelic heterogeneity in disease-causing genes presents a substantial challenge to the translation of genomic variation into clinical practice. Few of the almost 2,000 variants in the cystic fibrosis transmembrane conductance regulator gene CFTR have empirical evidence that they cause cystic fibrosis. To address this gap, we collected both genotype and phenotype data for 39,696 individuals with cystic fibrosis in registries and clinics in North America and Europe. In these individuals, 159 CFTR variants had an allele frequency of ≥0.01%. These variants were evaluated for both clinical severity and functional consequence, with 127 (80%)
meeting both clinical and functional criteria consistent with disease. Assessment of disease penetrance in 2,188 fathers of individuals with cystic fibrosis enabled assignment of 12 of the remaining 32 variants as neutral, whereas the other 20 variants remained of indeterminate effect. This study illustrates that sourcing data directly from well-phenotyped subjects can address
the gap in our ability to interpret clinically relevant genomic variation.This work was supported by grants from the NIDDK (5R37DK044003 to G.R.C.) and the US NIH (DK49835 to P.J.T.) and by funding from Cystic Fibrosis Foundation Therapeutics, Inc. (to P.J.T.), the US Cystic Fibrosis Foundation (CUTTING08A, CUTTING09A and CUTTING10A to G.R.C. and SOSNAY10Q to P.R.S.) and FCTPortugal (PIC/IC/83103/2007 and PEstOE/BIA/UI4046/2011 to M.D.A. and BioFIG)