Your search keyword '"Lisa Marie Keitel"' showing total 2 results

1. Next generation sequencing as second-tier test in high-throughput newborn screening for nephropathic cystinosis

Author

Siegfried Burggraf, Jürgen Durner, Katharina Hohenfellner, Lisa Marie Keitel, Tobias Fleige, Marc Becker, Julia Häring, Erik Harms, Wulf Röschinger, Olfert Landt, Ludwig Czibere, and Birgit Glück

Subjects

Male, Cystinosis, Disease, Bioinformatics, Article, DNA sequencing, 03 medical and health sciences, Neonatal Screening, Nephropathic Cystinosis, Genetics, Humans, Medicine, Genetic Testing, Allele, Genetics (clinical), Kidney transplantation, 0303 health sciences, Newborn screening, business.industry, 030305 genetics & heredity, Infant, Newborn, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, medicine.disease, Amino Acid Transport Systems, Neutral, Cystinosin, Mutation, Female, business

Abstract

Nephropathic cystinosis is a rare autosomal recessive lysosomal storage disorder, which causes loss of renal proximal tubular function and progressive loss of glomerular function, finally leading to end stage renal failure at school age. In the course of the disease most patients will need kidney transplantation if treatment has not been started before clinical manifestation. With an effective treatment available, a newborn screening assay is highly demanded. Since newborns with cystinosis usually do not show symptoms within the first months of life and no biochemical markers are easily detectable, a DNA-based method seems to be an obvious tool for early diagnosis. Screening was performed using high-throughput nucleic acid extraction followed by 384-well qPCR and melting analysis for the three most frequent variants (57 kb deletion NC_000017.11:g.3600934_3658165del (GRCh38); c.18_21del GACT; c.926dupG) responsible for the defective lysosomal membrane protein cystinosin (CTNS). To increase sensitivity, all heterozygous samples identified in qPCR assay were verified and screened for additional variants by applying next generation sequencing. From January 2018 to July 2019 nearly 292,000 newborns were successfully screened. We identified two newborns with a homozygous 57 kb deletion and a second one with heterozygous 57 kb deletion and a G>C substitution at position c.-512 on the second allele. Cystinosis is an example for diseases caused by a limited number of high prevalence and a high number of low prevalence variants. We have shown that qPCR combined with NGS can be used as a high throughput, cost effective tool in newborn screening for such diseases.

Published

2019

2. High-throughput genetic newborn screening for spinal muscular atrophy by rapid nucleic acid extraction from dried blood spots and 384-well qPCR

Author

Jürgen Durner, Ludwig Czibere, Katharina Hohenfellner, Katharina Vill, Marc Becker, Olfert Landt, Siegfried Burggraf, Tobias Fleige, Wolfgang Müller-Felber, Birgit Glück, Wulf Röschinger, Brunhilde Wirth, and Lisa Marie Keitel

Subjects

Male, SMN1, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Article, Muscular Atrophy, Spinal, Exon, Neonatal Screening, Genetics, medicine, Humans, Genetic Testing, Gene, Genetics (clinical), Newborn screening, business.industry, Homozygote, Infant, Newborn, Survival of motor neuron, Spinal muscular atrophy, medicine.disease, Survival of Motor Neuron 1 Protein, Molecular biology, Dried blood spot, Nucleic acid, Female, Dried Blood Spot Testing, business, Gene Deletion

Abstract

Establishing nucleic acid-based assays for genetic newborn screening (NBS) provides the possibility to screen for genetically encoded diseases like spinal muscular atrophy (SMA), best before the onset of symptoms. Such assays should be easily scalable to 384-well reactions that make the screening of up to 2000 samples per day possible. We developed a test procedure based on a cleanup protocol for dried blood spots and a quantitative (q)PCR to screen for a homozygous deletion of exon 7 of the survival of motor neuron 1 gene (SMN1) that is responsible for >95% of SMA patients. Performance of this setup is evaluated in detail and tested on routine samples. Our cleanup method for nucleic acids from dried blood spots yields enough DNA for diverse subsequent qPCR applications. To date, we have applied this approach to test 213,279 samples within 18 months. Thirty patients were identified and confirmed, implying an incidence of 1:7109 for the homozygous deletion. Using our cleanup method, a rapid workflow could be established to prepare nucleic acids from dried blood spot cards. Targeting the exon 7 deletion, no invalid, false-positive, or false-negative results were reported to date. This allows timely identification of the disease and grants access to the recently introduced treatment options, in most cases before the onset of symptoms. Carriers are not identified, thus, there are no concerns of whether to report them.

Published

2019