Electrochemical Surface Structuring for Strong SMA Wire-Polymer Interface Adhesion.

Active hybrid composites represent a novel class of smart materials used to design morphing surfaces, opening up new applications in the aircraft and automotive industries. The bending of the active hybrid composite is induced by the contraction of electrically activated shape memory alloy (SMA) wires, which are placed with an offset to the neutral axis of the composite. Therefore, the adhesion strength between the SMA wire and the surrounding polymer matrix is crucial to the load transfer and the functionality of the composite. Thus, the interface adhesion strength is of great importance for the performance and the actuation potential of active hybrid composites. In this work, the surface of a commercially available one-way effect NiTi SMA wire with a diameter of 1 mm was structured by selective electrochemical etching that preferably starts at defect sites, leaving the most thermodynamically stable surfaces of the wire intact. The created etch pits lead to an increase in the surface area of the wire and a mechanical interlocking with the polymer, resulting in a combination of adhesive and cohesive failure modes after a pull-out test. Consequently, the force of the first failure determined by an optical stress measurement was increased by more than 3 times when compared to the as-delivered SMA wire. The actuation characterization test showed that approximately the same work capacity could be retrieved from structured SMA wires. Moreover, structured SMA wires exhibited the same shape of the stress-strain curve as the as-delivered SMA wire, and the mechanical performance was not influenced by the structuring process. The austenite start As and austenite finish Af transformation temperatures were also not found to be affected by the structuring process. The formation of etching pits with different geometries and densities was discussed with regard to the kinetics of oxide formation and dissolution.

Combination of myeloproliferative neoplasm driver gene activation with mutations of splice factor or epigenetic modifier genes increases risk of rapid blastic progression.

OBJECTIVES: Myeloproliferative neoplasms (MPN) comprising polycythemia vera (PV), essential thrombocythemia (ET) and primary myelofibrosis (PMF) follow a bi-phasic course of disease with fibrotic and/or blastic progression. At presentation in the chronic phase, currently there are only insufficient tools to predict the risk of progression in individual cases. METHODS: In this study, chronic phase MPN (16 PMF, 11 PV, and 11 MPN unclassified) with blastic transformation during course of disease (n = 38, median follow-up 5.3 years) were analyzed by high-throughput sequencing. MPN cases with a comparable follow-up period and without evidence of blast increase served as control (n = 63, median follow-up 5.8 years). RESULTS: Frequent ARCH/CHIP-associated mutations (TET2, ASXL1, DNMT3A) found at presentation were not significantly associated with blastic transformation. By contrast, mutations of SRSF2, U2AF1, and IDH1/2 at first presentation were frequently observed in the progression cohort (13/38, 34.2%) and were completely missing in the control group without blast transformation during follow-up (P = .0007 for SRSF2; P = .0063 for U2AF1 and IDH1/2). CONCLUSION: Unlike frequent ARCH/CHIP alterations (TET2, ASXL1, DNMT3A), mutations in SRSF2, IDH1/2, and U2AF1 when manifest already at first presentation provide an independent risk factor for rapid blast transformation of MPN.

Feasibility of Combined Detection of Gene Mutations and Fusion Transcripts in Bone Marrow Trephines from Leukemic Neoplasms.

Chromosomal translocations resulting in fusion genes represent important oncogenic drivers and potential therapeutic targets in rare leukemia subtypes. Formalin-fixed, paraffin-embedded trephines are frequently used in hematologic diagnostic tests and provide relevant access to leukemic cells for further studies, for example, phenotyping in bone marrow fibrosis. However, high-throughput molecular analysis of nucleic acids obtained from this material is challenging, especially the reliable detection of RNA transcripts. Sixty-three formalin-fixed, paraffin-embedded bone marrow trephines of patients with chronic eosinophilic leukemia, chronic myeloid leukemia, acute myeloid leukemia, and myeloproliferative neoplasms were analyzed for gene mutations and the presence of fusion transcripts with a commercial amplicon-based next-generation sequencing approach. Fusion transcripts relevant for diagnosis and therapy could be detected and validated (by RT-PCR) in 25 patients (39.7%). Retrospectively selected material, up to 10 years old, was used for this purpose, and only one sample failed in the RNA analysis (1.6%). This study concludes that amplicon-based fusion transcript detection in bone marrow trephines is feasible and that bone marrow trephines taken for histologic assessment can also be applied for high-throughput molecular analysis.

Mutations associated with age-related clonal hematopoiesis in PMF patients with rapid progression to myelofibrosis.

Besides histopathological findings there are no indicators of increased risk for fibrotic progression in myeloproliferative neoplasms (MPN). Age-related clonal hematopoiesis (ARCH/CHIP) is a frequent finding in the elderly and combinations with MPN driver mutations (JAK2, MPL, and CALR) have been described. To determine the impact of ARCH/CHIP-related mutations for development of fibrosis in primary myelofibrosis (PMF), the mutational status of cases with fibrotic progression from grade 0 to grade 2/3 (n = 77) as evidenced by follow-up bone marrow biopsies (median 6.2 years) was compared with prefibrotic PMF samples without development of fibrosis (n = 27; median follow-up 7.3 years). Frequent ARCH/CHIP-associated mutations (TET2, ASXL1, and DNMT3A) demonstrable at presentation were not connected with fibrotic progression. However, mutations which are rarely found in ARCH/CHIP (SRSF2, U2AF1, SF3B1, IDH1/2, and EZH2) were present in 24.7% of cases with later development of fibrosis and not detectable in cases staying free from fibrosis (P = 0.0028). Determination of the tumor mutational burden (TMB) in a subgroup of cases (n = 32) did not show significant differences (7.68 mutations/MB vs. 6.85 mutations/MB). We conclude that mutations rarely found in ARCH/CHIP provide an independent risk factor for rapid fibrotic progression (median 2.0 years) when manifest already at first presentation.