76 research outputs found
Optical detection of spin transport in non-magnetic metals
We determine the dynamic magnetization induced in non-magnetic metal wedges
composed of silver, copper and platinum by means of Brillouin light scattering
(BLS) microscopy. The magnetization is transferred from a ferromagnetic
Ni80Fe20 layer to the metal wedge via the spin pumping effect. The spin pumping
efficiency can be controlled by adding an insulating but transparent interlayer
between the magnetic and non-magnetic layer. By comparing the experimental
results to a dynamical macroscopic spin-transport model we determine the
transverse relaxation time of the pumped spin current which is much smaller
than the longitudinal relaxation time
Intrinsic and extrinsic conduction contributions at nominally neutral domain walls in hexagonal manganites
Conductive and electrostatic atomic force microscopy (cAFM and EFM) are used
to investigate the electric conduction at nominally neutral domain walls in
hexagonal manganites. The EFM measurements reveal a propensity of mobile charge
carriers to accumulate at the nominally neutral domain walls in ErMnO3, which
is corroborated by cAFM scans showing locally enhanced d.c. conductance. Our
findings are explained based on established segregation enthalpy profiles for
oxygen vacancies and interstitials, providing a microscopic model for previous,
seemingly disconnected observations ranging from insulating to conducting
domain wall behavior. In addition, we observe variations in conductance between
different nominally neutral walls that we attribute to deviations from the
ideal charge-neutral structure within the bulk, leading to a superposition of
extrinsic and intrinsic contributions. Our study clarifies the complex
transport properties at nominally neutral domain walls in hexagonal manganites
and establishes new possibilities for tuning their electronic response based on
oxidation conditions, opening the door for domain-wall based sensor technology.Comment: 5 pages, 3 figure
Multi-step stochastic mechanism of polarization reversal in rhombohedral ferroelectrics
A stochastic model for the field-driven polarization reversal in rhombohedral
ferroelectrics is developed, providing a description of their temporal
electromechanical response. Application of the model to simultaneous
measurements of polarization and strain kinetics in a rhombohedral Pb(Zr,Ti)O3
ceramic over a wide time window allows identification of preferable switching
paths, fractions of individual switching processes, and their activation
fields. Complementary, the phenomenological Landau-Ginzburg-Devenshire theory
is used to analyze the impact of external field and stress on switching
barriers showing that residual mechanical stress may promote the fast
switching.Comment: 33 pages, 9 figure
Experimental approach for investigating polarization and strain switching dynamics in ferroelectric/ferroelastic materials
An experimental method for simultaneous time-resolved measurements of polarization and strain was developed. The presence of multiple events during polarization switching of multiaxial ferroelectric/ferroelastic materials was revealed and characteristic times and activation fields were determined
Hepatocellular Carcinoma and Nuclear Paraspeckles: Induction in Chemoresistance and Prediction for Poor Survival
Background/Aims: Hepatocellular carcinoma (HCC) represents the second most common cause of cancer-related deaths worldwide, not least due to its high chemoresistance. The long non-coding RNA nuclear paraspeckle assembly transcript 1 (NEAT1), localised in nuclear paraspeckles, has been shown to enhance chemoresistance in several cancer types. Since data on NEAT1 in HCC chemosensitivity are completely lacking and chemoresistance is linked to poor prognosis, we aimed to study NEAT1 expression in HCC chemoresistance and its link to HCC prognosis. Methods: NEAT1 expression was determined in either sensitive, or sorafenib, or doxorubicin resistant HepG2, PLC/PRF/5, and Huh7 cells by qPCR. Paraspeckles were detected by immunostaining of paraspeckle component 1 (PSPC1) in cell culture and in a cohort of HCC patients. PSPC1 expression was correlated with clinical data. The expression of transcript variants of NEAT1 and transcripts encoding the paraspeckle-associated proteins was analysed in the TCGA liver cancer data set. Results: NEAT1 was overexpressed in all three sorafenib and doxorubicin resistant cell lines. Paraspeckles were present in all chemoresistant cells, whereas no signal was detected in the sensitive cells. Expression of NEAT1 transcripts as well as transcripts encoding PSPC1, NONO, and RBM14 was increased in tumour tissue. Expression of PSPC1, NONO, and RBM14 transcripts was significantly associated with poor survival, whereas NEAT1 expression was not. Immunohistochemical analysis revealed that nuclear and cytoplasmic PSPC1-positivity was significantly associated with shorter overall survival of HCC patients. Conclusion: Our data show an induction of NEAT1 in HCC chemoresistance and a high correlation of transcripts encoding paraspeckle-associated proteins with poor survival in HCC. Therefore, NEAT1, PSPC1, NONO, and RBM14 might be promising targets for novel HCC therapies, and the paraspeckle-associated proteins might be clinical markers and predictors for poor survival in HCC
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Cytotoxicity, chemical stability, and surface properties of ferroelectric ceramics for biomaterials
© 2017 The American Ceramic Society Surface chemistry and topo-physical properties determine the interactions of biomaterials with their physiological environment. Ferroelectrics hold great promise as the next generation of scaffolds for tissue repair since they feature tunable surface electrical charges, piezoelectricity, and sensing capabilities. We investigate the topography, wettability, chemical stability, and cytotoxicity in salient ferroelectric systems such as (1−x) (Na1/2Bi1/2)TiO3–xBaTiO3, (1−x)Ba(Zr0.2Ti0.8)O3−x(Ba0.7Ca0.3)TiO3, and Pb(Zr,Ti)O3 to test their suitability as biomaterials. The lead-free ferroelectrics promote in vitro cell viability and proliferation to a considerably high extent. 0.94 mol % (Na1/2Bi1/2)TiO3–0.06 mol% BaTiO3 showed the greatest potential leading to a cell viability of (149 ± 30)% and DNA synthesis of (299 ± 85)% in comparison to the reference. Lead leaching from Pb(Zr,Ti)O3 negatively affected the cultured cells. Wettability and chemical stability are key factors that determine the cytotoxicity of ferroelectrics. These variables have to be considered in the design of novel electroactive scaffolds based on ferroelectric ceramics
Continuous venovenous hemodiafiltration with a low citrate dose regional anticoagulation protocol and a phosphate-containing solution: effects on acid–base status and phosphate supplementation needs
BACKGROUND:
Recent guidelines suggest the adoption of regional citrate anticoagulation (RCA) as first choice CRRT anticoagulation modality in patients without contraindications for citrate. Regardless of the anticoagulation protocol, hypophosphatemia represents a potential drawback of CRRT which could be prevented by the adoption of phosphate-containing CRRT solutions. The aim was to evaluate the effects on acid--base status and phosphate supplementation needs of a new RCA protocol for Continuous Venovenous Hemodiafiltration (CVVHDF) combining the use of citrate with a phosphate-containing CRRT solution.
METHODS:
To refine our routine RCA-CVVH protocol (12 mmol/l citrate, HCO3- 32 mmol/l replacement fluid) (protocol A) and to prevent CRRT-related hypophosphatemia, we introduced a new RCA-CVVHDF protocol (protocol B) combining an 18 mmol/l citrate solution with a phosphate-containing dialysate/replacement fluid (HCO3- 30 mmol/l, Phosphate 1.2). A low citrate dose (2.5--3 mmol/l) and a higher than usual target circuit-Ca2+ (<=0.5 mmol/l) have been adopted.
RESULTS:
Two historical groups of heart surgery patients (n = 40) underwent RCA-CRRT with protocol A (n = 20, 102 circuits, total running time 5283 hours) or protocol B (n = 20, 138 circuits, total running time 7308 hours). Despite higher circuit-Ca2+ in protocol B (0.37 vs 0.42 mmol/l, p < 0.001), circuit life was comparable (51.8 +/- 36.5 vs 53 +/- 32.6 hours). Protocol A required additional bicarbonate supplementation (6 +/- 6.4 mmol/h) in 90% of patients while protocol B ensured appropriate acid--base balance without additional interventions: pH 7.43 (7.40--7.46), Bicarbonate 25.3 (23.8--26.6) mmol/l, BE 0.9 (-0.8 to +2.4); median (IQR). No episodes of clinically relevant metabolic alkalosis, requiring modifications of RCA-CRRT settings, were observed. Phosphate supplementation was needed in all group A patients (3.4 +/- 2.4 g/day) and in only 30% of group B patients (0.5 +/- 1.5 g/day). Hypophosphatemia developed in 75% and 30% of group A and group B patients, respectively. Serum phosphate was significantly higher in protocol B patients (P < 0.001) and, differently to protocol A, appeared to be steadily maintained in near normal range (0.97--1.45 mmol/l, IQR)
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