5,280 research outputs found
Fast physical models for Si LDMOS power transistor characterization
A new nonlinear, process-oriented, quasi-two-dimensional (Q2D) model is described for microwave laterally diffused MOS (LDMOS) power transistors. A set of one-dimensional energy transport equations are solved across a two-dimensional cross-section in a âcurrent-drivenâ form. The model accounts for avalanche breakdown and gate conduction, and accurately predicts DC and microwave characteristics at execution speeds sufficiently fast for circuit simulation applications
Laryngological presentations and patient-reported outcome measures in Ehlers-Danlos syndrome
OBJECTIVE:
This study aimed to characterise the laryngological presentations of EhlersâDanlos syndrome and
conduct a preliminary exploration of patient-reported outcome measures.
METHODS:
This paper describes a retrospective case series of patients with EhlersâDanlos syndrome seen by
the senior author between 2005 and 2019. A literature review was conducted to summarise the existing
findings.
RESULTS:
Twenty-one patients met the inclusion criteria. All reported symptoms were grouped; this showed
that swallowing, voice and hyolaryngeal skeletal complex problems were commonest. Patient-reported
outcome measures were available for eight patients, which showed large variations in: the Reflux Severity
Index (median = 25.5; range = 0â33), Eating Assessment Tool score (median = 21.5; range = 0â35) and
Voice Handicap Index (median = 21.5; range = 0â104). Twelve studies met our literature review inclusion
criteria, involving at least 91 patients with laryngological presentations of EhlersâDanlos syndrome.
CONCLUSION:
EhlersâDanlos syndrome patients experience musculoskeletal issues, which in the throat
manifest as hyolaryngeal skeletal complex problems. Future studies with larger patient numbers are required
to validate laryngological patient-reported outcome measure tools in EhlersâDanlos syndrome
Glycine zinc sulfate penta-hydrate: redetermination at 10â K from time-of-flight neutron Laue diffraction
Single crystals of glycine zinc sulfate penta-hydrate [systematic name: hexa-aqua-zinc tetra-aquadiglycinezinc bis-(sulfate)], [Zn(H2O)6][Zn(C2H5NO2)2(H2O)4](SO4)2, have been grown by isothermal evaporation from aqueous solution at room temperature and characterized by single-crystal neutron diffraction. The unit cell contains two unique ZnO6 octa-hedra on sites of symmetry -1 and two SO4 tetra-hedra with site symmetry 1; the octa-hedra comprise one [tetra-aqua-diglycine zinc](2+) ion (centred on one Zn atom) and one [hexa-aqua-zinc](2+) ion (centred on the other Zn atom); the glycine zwitterion, NH3(+)CH2COO(-), adopts a monodentate coordination to the first Zn atom. All other atoms sit on general positions of site symmetry 1. Glycine forms centrosymmetric closed cyclic dimers due to N-HâŻO hydrogen bonds between the amine and carboxyl-ate groups of adjacent zwitterions and exhibits torsion angles varying from ideal planarity by no more than 1.2°, the smallest values for any known glycine zwitterion not otherwise constrained by a mirror plane. This work confirms the H-atom locations estimated in three earlier single-crystal X-ray diffraction studies with the addition of independently refined fractional coordinates and Uij parameters, which provide accurate inter-nuclear X-H (X = N, O) bond lengths and consequently a more accurate and precise depiction of the hydrogen-bond framework
Ab initio simulations of Îą- and β-ammonium carbamate (NHâ¡NHâCOâ), and the thermal expansivity of deuterated Îą-ammonium carbamate from 4.2 to 180â K by neutron powder diffraction
Experimental and computational studies of ammonium carbamate have been carried out, with the objective of studying the elastic anisotropy of the framework manifested in (i) the thermal expansion and (ii) the compressibility; furthermore, the relative thermodynamic stability of the two known polymorphs has been evaluated computationally. Using high-resolution neutron powder diffraction data, the crystal structure of Îą-ammonium carbamate (ND4¡ND2CO2) has been refined [space group Pbca, Z = 8, with a = 17.05189â
(15), b = 6.43531â
(7), c = 6.68093â
(7)â
Ă
and V = 733.126â
(9)â
Ă
^{3} at 4.2â
K] and the thermal expansivity of Îą-ammonium carbamate has been measured over the temperature range 4.2-180â
K. The expansivity shows a high degree of anisotropy, with the b axis most expandable. The ab initio computational studies were carried out on the Îą- and β-polymorphs of ammonium carbamate using density functional theory. Fitting equations of state to the P(V) points of the simulations (run athermally) gave the following values: V0 = 744â
(2)â
Ă
^{3} and bulk modulus K0 = 16.5â
(4)â
GPa for the Îą-polymorph, and V0 = 713.6â
(5)â
Ă
^{3} and K0 = 24.4â
(4)â
GPa for the β-polymorph. The simulations show good agreement with the thermoelastic behaviour of Îą-ammonium carbamate. Both phases show a high-degree of anisotropy; in particular, Îą-ammonium carbamate shows unusual compressive behaviour, being determined to have negative linear compressibility (NLC) along its a axis above 5â
GPa. The thermodynamically stable phase at ambient pressure is the Îą-polymorph, with a calculated enthalpy difference with respect to the β-polymorph of 0.399â
kJâ
mol^{-1}; a transition to the β-polymorph could occur at âź0.4â
GPa
Mapping the methylation status of the miR-145 promoter in saphenous vein smooth muscle cells from individuals with type 2 diabetes
Type 2 diabetes mellitus prevalence is growing globally, and the leading cause of mortality in these patients is cardiovascular disease. Epigenetic mechanisms such as microRNAs (miRs) and DNA methylation may contribute to complications of type 2 diabetes mellitus. We discovered an aberrant type 2 diabetes mellitusâsmooth muscle cell phenotype driven by persistent up-regulation of miR-145. This study aimed to determine whether elevated expression was due to changes in methylation at the miR-145 promoter. Smooth muscle cells were cultured from saphenous veins of 22 non-diabetic and 22 type 2 diabetes mellitus donors. DNA was extracted, bisulphite treated and pyrosequencing used to interrogate methylation at 11 CpG sites within the miR-145 promoter. Inter-patient variation was high irrespective of type 2 diabetes mellitus. Differential methylation trends were apparent between non-diabetic and type 2 diabetes mellitusâsmooth muscle cells at most sites but were not statistically significant. Methylation at CpGs â112 and â106 was consistently lower than all other sites explored in non-diabetic and type 2 diabetes mellitusâsmooth muscle cells. Finally, miR-145 expression per se was not correlated with methylation levels observed at any site. The persistent up-regulation of miR-145 observed in type 2 diabetes mellitusâsmooth muscle cells is not related to methylation at the miR-145 promoter. Crucially, miR-145 methylation is highly variable between patients, serving as a cautionary note for future studies of this region in primary human cell types
Changes in brain network activity during working memory tasks: a magnetoencephalography study.
In this study, we elucidate the changes in neural oscillatory processes that are induced by simple working memory tasks. A group of eight subjects took part in modified versions of the N-back and Sternberg working memory paradigms. Magnetoencephalography (MEG) data were recorded, and subsequently processed using beamformer based source imaging methodology. Our study shows statistically significant increases in θ oscillations during both N-back and Sternberg tasks. These oscillations were shown to originate in the medial frontal cortex, and further to scale with memory load. We have also shown that increases in θ oscillations are accompanied by decreases in β and Îł band oscillations at the same spatial coordinate. These decreases were most prominent in the 20â40 Hz frequency range, although spectral analysis showed that Îł band power decrease extends up to at least 80 Hz. β/Îł Power decrease also scales with memory load. Whilst θ increases were predominately observed in the medial frontal cortex, β/Îł decreases were associated with other brain areas, including nodes of the default mode network (for the N-back task) and areas associated with language processing (for the Sternberg task). These observations are in agreement with intracranial EEG and fMRI studies. Finally, we have shown an intimate relationship between changes in β/Îł band oscillatory power at spatially separate network nodes, implying that activity in these nodes is not reflective of uni-modal task driven changes in spatially separate brain regions, but rather represents correlated network activity. The utility of MEG as a non-invasive means to measure neural oscillatory modulation has been demonstrated and future studies employing this technology have the potential to gain a better understanding of neural oscillatory processes, their relationship to functional and effective connectivity, and their correspondence to BOLD fMRI
Fine sediment reduces vertical migrations of Gammarus pulex (Crustacea: Amphipoda) in response to surface water loss
Surface and subsurface sediments in river ecosystems are recognized as refuges that may promote invertebrate survival during disturbances such as floods and streambed drying. Refuge use is spatiotemporally variable, with environmental factors including substrate composition, in particular the proportion of fine sediment (FS), affecting the ability of organisms to move through interstitial spaces. We conducted a laboratory experiment to examine the effects of FS on the movement of Gammarus pulex Linnaeus (Crustacea: Amphipoda) into subsurface sediments in response to surface water loss. We hypothesized that increasing volumes of FS would impede and ultimately prevent individuals from migrating into the sediments. To test this hypothesis, the proportion of FS (1â2 mm diameter) present within an open gravel matrix (4â16 mm diameter) was varied from 10 to 20% by volume in 2.5% increments. Under control conditions (0% FS), 93% of individuals moved into subsurface sediments as the water level was reduced. The proportion of individuals moving into the subsurface decreased to 74% at 10% FS, and at 20% FS no individuals entered the sediments, supporting our hypothesis. These results demonstrate the importance of reducing FS inputs into river ecosystems and restoring FS-clogged riverbeds, to promote refuge use during increasingly common instream disturbances
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