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Background
Although 5-HTTLPR has been shown to influence the risk of life stress-induced depression in the majority of studies, others have produced contradictory results, possibly due to weak effects and/or sample heterogeneity.
Methods
In the present study we investigated how age, type and intensity of life-stressors modulate the effect of 5-HTTLPR on depression and anxiety in a European population cohort of over 2300 subjects. Recent negative life events (RLE), childhood adversity (CHA), lifetime depression, Brief Symptoms Inventory (BSI) depression and anxiety scores were determined in each subject. Besides traditional statistical analysis we calculated Bayesian effect strength and relevance of 5-HTTLPR genotypes in specified models.
Results
The short (s) low expressing allele showed association with increased risk of depression related phenotypes, but all nominally significant effects would turn to non-significant after correction for multiple testing in the traditional analysis. Bayesian effect strength and relevance analysis, however, confirmed the role of 5-HTTLPR. Regarding current (BSI) and lifetime depression 5-HTTLPR-by-RLE interactions were confirmed. Main effect, with other words direct association, was supported with BSI anxiety. With more frequent RLE the prevalence or symptoms of depression increased in ss carriers. Although CHA failed to show an interaction with 5-HTTLPR, in young subjects CHA sensitized towards the depression promoting effect of even mild RLE. Furthermore, the direct association of anxiety with the s allele was driven by young (\(\leq\)30) individuals.
Limitations
Our study is cross-sectional and applies self-report questionnaires.
Conclusions
Albeit 5-HTTLPR has only weak/moderate effects, the s allele is directly associated with anxiety and modulates development of depression in homogeneous subgroups.
The position of a single GaAs quantum dot (QD), which is optically active, grown by low-density droplet epitaxy (DE) (approximately 4 QDs/μm\(^{2}\)), was directly observed on the surface of a 45-nm-thick Al\(_{0.3}\)Ga\(_{0.7}\)As capping layer. The thin thickness of AlGaAs capping layer is useful for single photon sources with plasmonic optical coupling. A micro-photoluminescence for GaAs DE QDs has shown exciton/biexciton behavior in the range of 1.654 to 1.657 eV. The direct observation of positions of low-density GaAs DE QDs would be advantageous for mass fabrication of devices that use a single QD, such as single photon sources.
The analysis of how a general change, an economic shock and a modified institutional framework condition affect the HRM process, provide the motivation for the present dissertation. Thereby, the dissertation concentrates on certain areas of the HRM process, namely compensation, further training and retention, as well as changes and challenges that have been subject to a high degree of public interest in recent years. It consists of three essays, all self-contained and independently readable.
The first essay investigates whether it is possible to keep employees in the establishment by offering further training measures. Therefore, this essay uses a comparison group approach and compares only training participants with those employees who had been selected by the employer to participate in training but had to cancel it for exogenous reasons. From a methodological point of view, by means of Fixed Effects and Diff GMM estimations, the essay also controls for time-variant and invariant unobserved heterogeneity as well as endogeneity of training participation. By simultaneously considering the components from the human capital theory as well as the monopsony theory, the essay shows that portability of general human capital contents and visibility of training, induced by training certificates, independently reduce the retention effect of training. The negative effect is much stronger if training is certified by external institutions and therefore credible. In addition, the effects of visibility and portability are distinct and thus also reduce the retention effect of training separately. However, the total effect of portable, visible and credible training on retention is still positive. Therefore, further training appears to be an effective measure to keep the qualified employees in the establishment.
Second, the attention is on a short-term unpredictable economic shock: Essay 2 analyses whether and to what extent the Great Recession in 2008 and 2009 has had an impact on the individual training behaviour in establishments. From a theoretical point of view, the effects of the crisis on establishments' training activities are ambiguous. On the one hand, the reduced opportunity costs of training argue more in favour of an increase in further training. On the other hand, economic theory suggests decreasing training activities in the crisis because of reduced financial resources, uncertain future prospects, and, therefore, unclear returns on training. Using Difference-in-Differences analyses, this essay avoids endogeneity problems caused by unobservable third factors. The Great Recession in 2008 and 2009 can be seen as an exogenous and time-limited shock: this quasi-experimental setting helps to reveal the causal impact of the crisis on the training intensity and the number of training measures. Results indicate that there is a direct effect of the crisis on individual training activities in 2009 and 2010. This effect is stronger for unskilled employees than for employees with higher skill levels. Furthermore, the negative effect sets in with a time lag and lasts until the year 2010 (although there is already an economic upswing). Numerous analyses are used to check additional heterogeneities in training activities for other employee groups.
Among others, particularly the area of executive compensation was affected by the economic crisis and the ensuing regulations in institutional framework conditions. The third essay of this dissertation deals with the question whether these changes had an impact on the compensation level and structure of executive board members. The focus is on the extent to which executive compensation is converging within and between different exchange segments in Germany. Based on a sample of CEOs and non-CEOs of German DAX and MDAX establishments, the evolution of executive compensation levels and structures (i.e., fractions of base pay, short- and long-term incentives) are examined during the period from 2006 until 2012. The results of descriptive as well as multivariate Fixed Effects analyses indicate isomorphism of both, pay levels and pay structures within (intra-segment-convergence) and between (inter-segment convergence) stock exchange segments especially for CEOs. However, for the other members of the management board (non-CEOs), there is only a convergence of the compensation structure within the segments. The results do not indicate either intra- or inter-segment convergence of salary levels.
Altogether, the three essays of this dissertation provide a selection of the current changes and challenges that HRM has to deal with. From a methodological perspective, all three essays use different applied econometric estimation strategies. In order to eliminate estimation problems caused by time-invariant and variant unobserved heterogeneity and endogeneity, Fixed Effects, Diff GMM as well as Difference-in-Differences approaches are applied. In addition, sample selection, research design as well as identification strategy attempts to avoid estimation bias. The first two essays are based on a linked-employer-employee panel data set and adopt a personnel economic perspective. The third essay uses establishment-level data and is based on institutional theory. The first essay was written in cooperation with Thomas Zwick and the third essay was written in cooperation with Nathalie Haidegger-Rieß and Robert Wagner.
In order to mimic the extracellular matrix for tissue engineering, recent research approaches often involve 3D printing or electrospinning of fibres to scaffolds as cell carrier material. Within this thesis, a micron fibre printing process, called melt electrospinning writing (MEW), combining both additive manufacturing and electrospinning, has been investigated and improved. Thus, a unique device was developed for accurate process control and manufacturing of high quality constructs. Thereby, different studies could be conducted in order to understand the electrohydrodynamic printing behaviour of different medically relevant thermoplastics as well as to characterise the influence of MEW on the resulting scaffold performance.
For reproducible scaffold printing, a commonly occurring processing instability was investigated and defined as pulsing, or in extreme cases as long beading. Here, processing analysis could be performed with the aim to overcome those instabilities and prevent the resulting manufacturing issues. Two different biocompatible polymers were utilised for this study: poly(ε-caprolactone) (PCL) as the only material available for MEW until then and poly(2-ethyl-2-oxazoline) for the first time. A hypothesis including the dependency of pulsing regarding involved mass flows regulated by the feeding pressure and the electrical field strength could be presented. Further, a guide via fibre diameter quantification was established to assess and accomplish high quality printing of scaffolds for subsequent research tasks.
By following a combined approach including small sized spinnerets, small flow rates and high field strengths, PCL fibres with submicron-sized fibre diameters (fØ = 817 ± 165 nm) were deposited to defined scaffolds. The resulting material characteristics could be investigated regarding molecular orientation and morphological aspects. Thereby, an alignment and isotropic crystallinity was observed that can be attributed to the distinct acceleration of the solidifying jet in the electrical field and by the collector uptake. Resulting submicron fibres formed accurate but mechanically sensitive structures requiring further preparation for a suitable use in cell biology. To overcome this handling issue, a coating procedure, by using hydrophilic and cross-linkable star-shaped molecules for preparing fibre adhesive but cell repellent collector surfaces, was used.
Printing PCL fibre patterns below the critical translation speed (CTS) revealed the opportunity to manufacture sinusoidal shaped fibres analogously to those observed using purely viscous fluids falling on a moving belt. No significant influence of the high voltage field during MEW processing could be observed on the buckling phenomenon. A study on the sinusoidal geometry revealed increasing peak-to-peak values and decreasing wavelengths as a function of decreasing collector speeds sc between CTS > sc ≥ 2/3 CTS independent of feeding pressures. Resulting scaffolds printed at 100 %, 90 %, 80 % and 70 % of CTS exhibited significantly different tensile properties, foremost regarding Young’s moduli (E = 42 ± 7 MPa to 173 ± 22 MPa at 1 – 3 % strain). As known from literature, a changed morphology and mechanical environment can impact cell performance substantially leading to a new opportunity of tailoring TE scaffolds.
Further, poly(L-lactide-co-ε-caprolactone-co-acryloyl carbonate) as well as poly(ε-caprolactone-co-acryloyl carbonate) (PCLAC) copolymers could be used for MEW printing. Those exhibit the opportunity for UV-initiated radical cross-linking in a post-processing step leading to significantly increased mechanical characteristics. Here, single fibres of the polymer composed of 90 mol.% CL and 10 mol.% AC showed a considerable maximum tensile strength of σmax = 53 ± 16 MPa. Furthermore, sinusoidal meanders made of PCLAC yielded a specific tensile stress-strain characteristic mimicking the qualitative behaviour of tendons or ligaments. Cell viability by L929 murine fibroblasts and live/dead staining with human mesenchymal stem cells revealed a promising biomaterial behaviour pointing out MEW printed PCLAC scaffolds as promising choice for medical repair of load-bearing soft tissue.
Indeed, one apparent drawback, the small throughput similar to other AM methods, may still prevent MEW’s industrial application yet. However, ongoing research focusses on enlargement of manufacturing speed with the clear perspective of relevant improvement. Thereby, the utilisation of large spinneret sizes may enable printing of high volume rates, while downsizing the resulting fibre diameter via electrical field and mechanical stretching by the collector uptake. Using this approach, limitations of FDM by small nozzle sizes could be overcome. Thinking visionary, such printing devices could be placed in hospitals for patient-specific printing-on-demand therapies one day. Taking the evolved high deposition precision combined with the unique small fibre diameter sizes into account, technical processing of high performance membranes, filters or functional surface finishes also stands to reason.
This work summarizes the results of studies on three major aspects of platelet signaling and of the pathogenesis of immune thrombocytopenia. Therefore, this thesis is divided into three parts. i) Platelet activation and subsequent thrombus formation at sites of vascular injury is crucial for normal hemostasis, but it can also trigger myocardial infarction and stroke. The initial capture of flowing platelets to the injured vessel wall is mediated by the interaction of the glycoprotein (GP) Ib-V-IX complex with von Willebrand factor (vWF) immobilized on the exposed subendothelial extracellular matrix (ECM). The central importance of GPIb for platelet adhesion is well established, whereas GPV is generally considered to be of minor relevance for platelet physiology and thrombus formation. This study intended to clarify the relevance of this receptor during thrombus formation using Gp5-/- mice and mice with different double-deficiencies in GPV and in other platelet receptors. It was found that GPV and the collagen receptor integrin a2b1 have partially redundant functions in collagentriggered platelet aggregation. Further, it was revealed that GPV limits thrombus formation and impairs hemostasis in vivo. The data presented here demonstrate that the protective effect of GPVI-deficiency (another platelet collagen receptor) in arterial thrombosis and ischemic stroke depends on the expression of GPV. Moreover, it was demonstrated that lack of GPV restores the hemostatic function of mice lacking both GPVI and a2b1 or mice lacking GPVI and the C-type lectin receptor 2 (CLEC-2). Conclusively, GPV-depletion or blockade might have the potential to treat hemorrhagic disease states. ii) Platelets contain the two phospholipase (PL) D isoforms, PLD1 and PLD2, both of which presumably become activated upon platelet stimulation. However, the function of PLD in the process of platelet activation and aggregation has not been definitively explored. Thus, PLD-deficient mice were analyzed. Mice lacking PLD1 or PLD2 were viable, fertile and had normal platelet counts. PLD1 was found to be responsible for the inducible PLD-activity in platelets and to contribute to efficient integrin activation under static conditions. Moreover, flow adhesion experiments revealed that PLD1 is essential for efficient GPIb-mediated integrin activation. Consequently, Pld1-/- mice were protected from arterial thrombosis and ischemic brain infarction without affecting tail bleeding times. Hence, inhibition of PLD1 might be a novel approach for antithrombotic therapy. iii) Cellular activation of platelets or immune cells results in increased cytosolic calcium (Ca2+) levels. Store-operated calcium entry (SOCE) via the STIM1-Orai1 axis is the main route of Ca2+ entry downstream of immunoreceptor tyrosine-based activating motif (ITAM) receptor stimulation in mast cells and T cells. However, the requirement of Ca2+-mobilization in Fcg receptor (FcgR)-signaling and the relevance of STIM2 for T cell SOCE have been unclear. To address these questions, genetically modified mice lacking central molecules of the SOCE machinery were analyzed. Ca2+-measurements revealed that both STIM isoforms contribute to Ca2+-mobilization downstream of T cell receptor activation. Additionally, it was found that FcgR stimulation results in SOCE and is mediated by STIM1 and probably Orai1. Animal models of immune thrombocytopenia (ITP) revealed that SOCE is essential for platelet clearance and that both STIM isoforms contribute to the pathology of ITP. Moreover, in this work it was also demonstrated that STIM1 and Orai1 are essential in IgG-mediated systemic anaphylaxis. STIM2 contributes to IgG-mediated, but not to IgE-mediated anaphylaxis. The data indicate that interference with SOCE might become a new strategy to prevent or treat IgG-dependent autoimmune diseases.
A complete simulation system is proposed that can be used as an educational tool by physicians in training basic skills of Minimally Invasive Vascular Interventions. In the first part, a surface model is developed to assemble arteries having a planar segmentation. It is based on Sweep Surfaces and can be extended to T- and Y-like bifurcations. A continuous force vector field is described, representing the interaction between the catheter and the surface. The computation time of the force field is almost unaffected when the resolution of the artery is increased.
The mechanical properties of arteries play an essential role in the study of the circulatory system dynamics, which has been becoming increasingly important in the treatment of cardiovascular diseases. In Virtual Reality Simulators, it is crucial to have a tissue model that responds in real time. In this work, the arteries are discretized by a two dimensional mesh and the nodes are connected by three kinds of linear springs. Three tissue layers (Intima, Media, Adventitia) are considered and, starting from the stretch-energy density, some of the elasticity tensor components are calculated. The physical model linearizes and homogenizes the material response, but it still contemplates the geometric nonlinearity. In general, if the arterial stretch varies by 1% or less, then the agreement between the linear and nonlinear models is trustworthy.
In the last part, the physical model of the wire proposed by Konings is improved. As a result, a simpler and more stable method is obtained to calculate the equilibrium configuration of the wire. In addition, a geometrical method is developed to perform relaxations. It is particularly useful when the wire is hindered in the physical method because of the boundary conditions. The physical and the geometrical methods are merged, resulting in efficient relaxations. Tests show that the shape of the virtual wire agrees with the experiment. The proposed algorithm allows real-time executions and the hardware to assemble the simulator has a low cost.
Fremdschämen or Fremdscham, a negative emotion which arises while observing someone behave inappropriately, comes to fame after the turn of the millennium in german speaking countries. There, they name it literally „other‘s shame“ and it becomes obvious that this emotion happens most commonly while watching TV: reality shows, talent shows and bad comedies. The word even makes it to the dictionaries starting 2009, as its use increases unstoppably in everyday language, starting to get used in more and more situations, seemingly as a synonym of embarrassing or shameful. Still, a look in the emotional research on the subject returns exactly zero results as of 2011, leaving open the question as of what this emotion might be, and what it is not. The present wort aims at explaining not only the phenomenon of Fremdschämen, but also the Emotion behind it - Embarrassment -, at a process level.