Summary Measurement of BCR activator of RhoGEF and GTPase ‐ABL proto‐oncogene 1, non‐receptor tyrosine kinase (BCR‐ABL1) mRNA levels by reverse transcription quantitative polymerase chain reaction (RTqPCR) has been critical to treatment protocols and clinical trials in chronic myeloid leukaemia; however, interlaboratory variation remains a significant issue. Reverse transcriptase droplet digital PCR (RTddPCR) has shown potential to improve testing but a large‐scale interlaboratory study is required to definitively establish this. In the present study, 10 BCR‐ABL1‐positive samples with levels ranging from molecular response (MR)1·0–MR5·0 were tested by 23 laboratories using RTddPCR with the QXDX BCR‐ABL %IS kit. A subset of participants tested the samples using RTqPCR. All 23 participants using RTddPCR detected BCR‐ABL1 in all samples to MR4·0. Detection rates for deep‐response samples were 95·7% at MR4·5, 78·3% at MR4·7 and 87·0% at MR5·0. Interlaboratory coefficient of variation was indirectly proportional to BCR‐ABL1 level ranging from 29·3% to 69·0%. Linearity ranged from 0·9330 to 1·000 (average 0·9936). When results were compared for the 11 participants who performed both RTddPCR and RTqPCR, RTddPCR showed a similar limit of detection to RTqPCR with reduced interlaboratory variation and better assay linearity. The ability to detect deep responses with RTddPCR, matched with an improved linearity and reduced interlaboratory variation will allow improved patient management, and is of particular importance for future clinical trials focussed on achieving and maintaining treatment‐free remission.
We report a sibling-pair and a 4-year old child from two families with an atypical presentation in Osteogenesis imperfecta (OI). In the sib-pair, the older sibling initially came to medical attention due to a fracture history (Patient 1) and she was shown to have a COL1A2 mutation. In addition, she also had developmental delay, facial dysmorphism, and a history of frequent infections which led to a search for an alternate diagnosis. ArrayCGH revealed a 4.3 Mb duplication on chromosome 19q13.42q13.43, which was confirmed by FISH analysis. On further familial analysis, the younger sibling who had no previous fracture history was also found to have the COL1A2 mutation and tested positive for the 19q13.42q13.43 duplication (Patient 2). The 19q13 duplication appears to be the cause of intellectual disability in these siblings but given that this is a chromosomal duplication, it is still possible that there is an as yet unidentified cause that may account for the combined phenotype in this family. Patient 3 was a 4-year old child presenting with a femoral fracture, blue sclerae, developmental delay, and joint hypermobility. Genetic analyses confirmed a COL1A2 mutation but also revealed an 8.8 Mb deletion of 11q24.2q25, confirmed by G-band chromosome analysis. We discuss the differing phenotypes in patients presenting with atypical OI and stress the need to consider ancillary investigations in individuals presenting with heterogeneous phenotypic symptoms, not entirely attributable to OI.
Summary Several cohort studies have investigated the molecular basis of von Willebrand disease (VWD); however these have mostly focused on European and North American populations. This study aimed to investigate mutation spectrum in 26 index cases (IC) from Turkey diagnosed with all three VWD types, the majority (73%) with parents who were knowingly related. IC were screened for mutations using multiplex ligation-dependent probe amplification and analysis of all von Willebrand factor gene (VWF) exons and exon/intron boundaries. Selected missense mutations were expressed in vitro. Candidate VWF mutations were identified in 25 of 26 IC and included propeptide missense mutations in four IC (two resulting in type 1 and two in recessive 2A), all influencing VWF expression in vitro. Four missense mutations, a nonsense mutation and a small in-frame insertion resulting in type 2A were also identified. Of 15 type 3 VWD IC, 13 were homozygous and two compound heterozygous for 14 candidate mutations predicted to result in lack of expression and two propeptide missense changes. Identification of intronic breakpoints of an exon 17–18 deletion suggested that the mutation resulted from non-homologous end joining. This study provides further insight into the pathogenesis of VWD in a population with a high degree of consanguineous partnerships.
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