1,464 research outputs found
Discharging dopamine:Boosting endogenous tyrosine hydroxylase activity as a treatment for Parkinson's disease
In this thesis, we investigated serine phosphorylation of tyrosine hydroxylase, the rate-limiting enzyme in dopamine synthesis, to increase the enzymatic activity and dopamine production in the framework of Parkinson’s disease. The progressive degeneration of midbrain dopaminergic neurons in Parkinson’s disease causes decreased dopamine release into the striatum, which results in a variety of motor dysfunctions. Targeting tyrosine hydroxylase, by phosphorylation of serine at position 40 (Ser40), lifts the inhibitory interaction of dopamine with the catalytic region within the enzyme and makes the enzyme more active. This mechanism would result in the replenishment of decreasing levels of dopamine, improving neuronal dopamine signaling and alleviating initial motor symptoms. As such, we investigated Ser40 phosphorylation in dopaminergic MN9D cells and in the mouse striatum, which is regulated by upstream cAMP-dependent pathways. We additionally tested the exogenous application of L-DOPA on the phosphorylation state of tyrosine hydroxylase. We finally explored upstream targets that are able to increase tyrosine hydroxylase activity specifically in nigrostriatal neurons, through adenylyl cyclases, G-protein coupled receptors and natriuretic peptide receptors that modulate cAMP- and cGMP-dependent signaling routes. We found interesting leads that are potential therapeutic options for Parkinson’s disease, to alleviate initial motor symptoms with reduced side-effects and thus enhancing the quality of life of patients suffering from this debilitating disease
Subdivision Shell Elements with Anisotropic Growth
A thin shell finite element approach based on Loop's subdivision surfaces is
proposed, capable of dealing with large deformations and anisotropic growth. To
this end, the Kirchhoff-Love theory of thin shells is derived and extended to
allow for arbitrary in-plane growth. The simplicity and computational
efficiency of the subdivision thin shell elements is outstanding, which is
demonstrated on a few standard loading benchmarks. With this powerful tool at
hand, we demonstrate the broad range of possible applications by numerical
solution of several growth scenarios, ranging from the uniform growth of a
sphere, to boundary instabilities induced by large anisotropic growth. Finally,
it is shown that the problem of a slowly and uniformly growing sheet confined
in a fixed hollow sphere is equivalent to the inverse process where a sheet of
fixed size is slowly crumpled in a shrinking hollow sphere in the frictionless,
quasi-static, elastic limit.Comment: 20 pages, 12 figures, 1 tabl
Curvature-Induced Instabilities of Shells
Induced by proteins within the cell membrane or by differential growth,
heating, or swelling, spontaneous curvatures can drastically affect the
morphology of thin bodies and induce mechanical instabilities. Yet, the
interaction of spontaneous curvature and geometric frustration in curved shells
remains still poorly understood. Via a combination of precision experiments on
elastomeric spherical bilayer shells, simulations, and theory, we show a
spontaneous curvature-induced rotational symmetry-breaking as well as a
snapping instability reminiscent of the Venus fly trap closure mechanism. The
instabilities and their dependence on geometry are rationalized by reducing the
spontaneous curvature to an effective mechanical load. This formulation reveals
a combined pressurelike bulk term and a torquelike boundary term, allowing
scaling predictions for the instabilities in excellent agreement with
experiments and simulations. Moreover, the effective pressure analogy suggests
a curvature-induced buckling in closed shells. We determine the critical
buckling curvature via a linear stability analysis that accounts for the
combination of residual membrane and bending stresses. The prominent role of
geometry in our findings suggests the applicability of the results over a wide
range of scales.Comment: 12 pages, 9 figures (including Supporting Information
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The Relationship between Strategic Information Systems Planning Situational Factors, Process Configuration and Success
This paper reports a study into the relationship between the configuration of the process of Strategic Information Systems Planning (SISP) and the success of SISP. SISP is an important activity in the alignment of information technology systems and services to business requirements. However, despite the obvious importance of a proper planning of information technology and information systems in organizations, success of SISP is not evident. And as the success of SISP is also influenced by the process followed in developing the SISP, the research question for this study was, “How does the configuration of the SISP process influence the success of the SISP?” Based on an explorative multi case study, we concluded that the specificity and comprehensiveness of strategies, goals and decisions in an organization has a positive effect on the success of SISP. Another conclusion was that a more dominant role of the IS/IT organization in the SISP process influences the quality of the SISP deliverable positively, but has a negative effect on the building of partnership between business and IT in the organization. A final conclusion was that following a formal SISP methodology does not seem to have an effect on the success of SISP. These findings provide guidance for practitioners that plan to develop an SISP as part of their efforts to align business and IT
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Physical Function and Quality of Life After Resection of Mobile Spine Chondrosarcoma.
Study Design:Retrospective cohort study. Objectives:(1) To assess patient-reported outcomes-physical function, pain, and quality of life-in patients who underwent resection of a mobile spine chondrosarcoma. (2) To assess complications (90 days), readmissions, reoperations, oncological outcomes, and neurologic status. Methods:Thirty-three patients with spinal conventional chondrosarcoma resection between 1984 and 2014 at one hospital were included. The primary outcome measures were-minimally 6 months after surgery-the EuroQol 5 Dimensions (EQ5D), PROMIS-Physical Function, PROMIS-Pain Intensity, and Oswestry (ODI) Disability Index, or Neck (NDI) Disability established in 14 out of 20 alive (70.0%) patients. Complications, readmission, reoperations, oncological outcomes, and neurological status were reported for the complete cohort of 33 patients. Results:After spine chondrosarcoma resection, patients (n = 14) reported worse physical function (median 43, range 22-61, P = .026), worse quality of life (median EQ5D 0.70, range 0.04-1, P = .022), and comparable pain intensity (median 47, range 31-56, P = .362) when compared with US general population values. The median NDI/ODI was 25 (range 0-72) indicating mild to moderate disability. Patients undergoing reoperation had worse patient-reported outcomes than those who did not. Eighteen (55.5%) out of 33 patients suffered complications (90 days), 14 (42.4%) had unplanned readmission, and 13 (39.4%) underwent reoperation. Intralesional resection was associated with increased readmission, reoperation, and recurrence rate. Conclusions:Chondrosarcoma affects quality of life and physical function and its treatment frequently results in complications and reoperations. Our findings can be used to inform future patients about expected outcomes
Ansätze zur Ordnungsreduktion von nichtlinearen Oszillatormodellen zur Anwendung im Schaltungsentwurf
Im Rahmen dieser Arbeit wird ein Konzept zur Ordnungsreduktion von
höherdimensionalen nichtlinearen Oszillatormodellen vorgestellt. Hierbei
werden zwei wesentliche Ziele verfolgt. Zum einen wird eine
höherdimensionale Modellierung der Oszillatorschaltung verwendet.
Hierdurch lassen sich die Einflüsse parasitärer Effekte sowie struktureller
Erweiterungen auf das dynamische Verhalten des Systems berĂĽcksichtigen. Zum
anderen wird durch eine anschlieĂźende Ordnungsreduktion ĂĽber die Methode der
Zentrumsmannigfaltigkeit eine zweidimensionale Systembeschreibung erzeugt,
deren wesentliche Dynamik derjenigen des höherdimensionalen Systems
entspricht. Durch diese, in der Ordnung reduzierte, nichtlineare und
parameterabhängige Systembeschreibung wird die Anwendbarkeit nichtlinearer
Analysemethoden ermöglicht bzw. vereinfacht. Mit der Anwendung der
Andronov-Hopf-Bifurkationsanalyse auf das reduzierte System lässt sich eine
Stabilitätsuntersuchung durchführen sowie die Amplitude und Frequenz aller
Zustandsgrößen approximieren. Das vorgestellte Konzept wird anhand des
Beispielsystems eines LC-Tank-VCOs durchgefĂĽhrt.
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In this paper, an order reduction technique for higher-dimensional nonlinear
oscillator models, based on a center manifold approach, is presented. By
modeling the oscillator circuit in the higher-dimensional state space,
influences of parasitic elements and of structural extensions of the
oscillator architecture on the dynamical system behavior can be
examined. Using the proposed order reduction technique, a generalized
second order model will be derived, which includes selected design parameters
of the higher order model. By using an Andronov-Hopf bifurcation analysis,
the reduced system can be studied with respect to stability as well as
the amplitude and frequency of the individual state variables. The concept is
applied to the design of LC-tank VCOs
Detection of Critical Events in Renewable Energy Production Time Series
The introduction of more renewable energy sources into the energy system
increases the variability and weather dependence of electricity generation.
Power system simulations are used to assess the adequacy and reliability of the
electricity grid over decades, but often become computational intractable for
such long simulation periods with high technical detail. To alleviate this
computational burden, we investigate the use of outlier detection algorithms to
find periods of extreme renewable energy generation which enables detailed
modelling of the performance of power systems under these circumstances.
Specifically, we apply the Maximum Divergent Intervals (MDI) algorithm to power
generation time series that have been derived from ERA5 historical climate
reanalysis covering the period from 1950 through 2019. By applying the MDI
algorithm on these time series, we identified intervals of extreme low and high
energy production. To determine the outlierness of an interval different
divergence measures can be used. Where the cross-entropy measure results in
shorter and strongly peaking outliers, the unbiased Kullback-Leibler divergence
tends to detect longer and more persistent intervals. These intervals are
regarded as potential risks for the electricity grid by domain experts,
showcasing the capability of the MDI algorithm to detect critical events in
these time series. For the historical period analysed, we found no trend in
outlier intensity, or shift and lengthening of the outliers that could be
attributed to climate change. By applying MDI on climate model output, power
system modellers can investigate the adequacy and possible changes of risk for
the current and future electricity grid under a wider range of scenarios
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