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In this thesis, size-sensitive phenomena of three-dimensional dust crystals emerged in a low temperature plasma are presented. Depending on the number of particles in the system phase transitions, collective vortex motions and large-scaled expansions can be observed. To investigate these fascinating effects an advanced experimental setup as well as new evaluation methods have been developed. This thesis will present these new techniques and the gained insights.
Background/Aim: Laparoscopic single-port surgery has emerged as a growing trend in minimally invasive surgery. Single-port access is preferred among women undergoing gynecologic surgery who have cosmetic concerns about scarring. Furthermore, this approach results in comparable clinical outcomes to standard laparoscopic surgery and perioperative morbidity rates have been reported to be low. The hypothesis is that a single-port technique might offer such advantages over the standard multi-port laparoscopy as less postoperative pain and better cosmetic results by decreasing abdominal wall tissue trauma. The potential disadvantages of single-port approaches are the larger umbilical incision and the technical difficulties. There are only a few randomized studies in the literature that investigate the value and safety of single-incision laparoscopic surgery in gynecological surgery. The aim of this study was to compare the safety and quality of life in patients who undergo single-incision laparoscopic assisted vaginal hysterectomy and those who undergo conventional laparoscopic assisted vaginal hysterectomy.
Methods: In a prospective randomized trial, 64 patients from three different centers in Germany were randomized (1:1) to conventional laparoscopic assisted vaginal hysterectomy (n=32) or single-incision laparoscopic assisted vaginal hysterectomy (n=30). Data was collected on 60 patients who fulfilled the criteria.
Results: The baseline characteristics of patients were similar in both groups. The mean operative time was comparable in both groups (68.2 vs 73.6 min., p = 0.409). Within the two groups, no differences were seen regarding estimated blood loss (p = 0.915), intra- and postoperative complications (p = 0.944), and wound infection rates (p = 0.944). Patients within the single-incision laparoscopic surgery group experienced significantly less pain in the first 24 hours postoperatively (p = 0.006), while pain scores at days 3, 5, 7 and 2 months postoperatively were comparable.
Conclusion: This study demonstrates that single-incision laparoscopic assisted vaginal hysterectomy is a reliable and safe setup in gynecologic surgery. Compared to conventional laparoscopic assisted vaginal hysterectomy, Notably, patients undergoing single-incision laparoscopic assisted vaginal hysterectomy experienced less pain postoperatively.
Herpesviruses are a fascinating group of enveloped DNA viruses, which rely on membrane fusion for infectious entry and direct cell-to-cell spread. Compared with many other enveloped viruses, they utilize a remarkably complex fusion machinery. Three conserved virion proteins, the bona fide fusion protein gB, and the presumably gB activating gH/gL heterodimer constitute the conserved core fusion machinery and are believed to drive membrane fusion in a cascade-like fashion. Activation of this cascade in most alphaherpesviruses is proposed to be triggered by binding of gD to specific host cell receptors. The molecular details of this fusion process, however, remain largely elusive. Yet, a detailed mechanistic knowledge of this process would be greatly beneficial for the development of efficient countermeasures against a variety of diseases. In this thesis, the functional relevance of individual components of the essential gH/gL complex of the alphaherpesvirus PrV has been assessed by two different approaches: by reversion analysis (paper II) and site-directed mutagenesis (papers III-V). In contrast to other herpesviruses, gL-deleted PrV is able to perform limited cell-to-cell spread, providing the unique opportunity to passage the entry-deficient virus in cell culture to select for PrV revertants capable of infecting cells gL-independently. This approach already resulted in an infectious gL-negative PrV mutant (PrV-ΔgLPass), in which the function of gL was compensated by formation of a gDgH hybrid protein. Here, the requirements for gL-independent infectivity of a second independent revertant (PrV-ΔgLPassB4.1), were analyzed. Sequencing of the genes encoding for gB, gH and gD, revealed mutations in each of them. By means of a robust infection-free, transfection-based cell-cell fusion assay (paper I), we identified two amino acid substitutions in the gL-binding domain I of gHB4.1 (L70P, W103R) as sufficient to compensate for lack of gL. Two mutations in gB (G672R, ΔK883) were found to enhance fusogenicity, probably by lowering the energy, required for gB refolding from pre- to postfusion conformation. Coexpression of gHB4.1 and gBB4.1 led to an excess fusion, which was completely suppressed by gDB4.1 in the fusion assays. This was surprising since PrV gD is normally not required for in vitro fusion or direct viral cell-to-cell spread, clearly separating this process from fusion during entry, for which PrV gD is essential. The fusion inhibiting effect of gDB4.1 could be attributed to a single point mutation resulting in an amino acid substitution within the ectodomain (A106V). In conclusion, these results indicated that gL is not central to the fusion process, as its function can be compensated for. As found so far, gL-independent infectivity can be realized by compensatory mutations in gH (as in PrV-ΔgLPass) or in gH plus gB (as in PrV-ΔgLPassB4.1). Excessive fusion induced by gHB4.1 and gBB4.1 was counter-regulated by gDB4.1, indicating that the interplay between these proteins is precisely regulated and further implies that gL and gD, despite being not absolutely essential for the fusion process, have important regulatory functions on gH and/or gB.
Both PrV-ΔgLPass mutants had acquired compensatory mutations in gH affecting the predicted gL-binding domain I in gH. By construction of an artificial gH32/98, which lacked the predicted gL-binding domain and was similar to the recently crystallized gH-core fragment present in the gDgH hybrid protein, we identified the N-terminal part of PrV gH as essential for gH function during fusion (paper III). gH32/98 was unable to promote fusion of wild-type gB in fusion assays and led to a total loss of function in the viral context. These results indicated that the gD moiety, present in gDgH, is critical for proper function of the gH-core fragment. We hypothesize that the gD moiety may adopt a stabilizing or modulating influence on the gH structure, which is normally executed by gL and important for interaction of gH with wild-type gB. Remarkably, substitution of wild-type gB by gBB4.1 rescued function of gH32/98 in the cellular and viral contexts. These findings suggest that gBB4.1 has been selected for interaction with “gL-less” gH. In conclusion, these results demonstrated that gL and the gL-binding domain are not strictly required for membrane fusion during virus entry and spread but that compensatory mutations must be present in gB to restore a fully functional fusion machinery. These results strongly support the notion of a functional gH-gB interaction as a prerequisite for membrane fusion.
In addition to the N-terminal domain, we identified the transmembrane domain of PrV gH as an essential component of the fusion machinery, while the cytoplasmic domain was demonstrated to play a modulatory but nonessential role (paper IV). Whereas truncation or substitution of the PrV gH TMD by a gpi-anchor or the analogous sequence from PrV gD rendered gH non-functional, the HSV-1 gH TMD was found to functionally substitute for the PrV gH TMD in cell-cell fusion and complementation assays. Since residues in the TMD which are conserved between HSV and PrV gH but absent in PrV gD, are placed on one face of an α-helical wheel plot, we hypothesize that the gH TMD has an intrinsic property to interact with membrane components such as lipids or other molecules as a requirement for promoting membrane fusion.
In a final study focusing on the function of gH, we identified the N-glycosylation sites utilized by PrV gH, and determined their individual role in viral infection (paper V). PrV gH was found to be modified by N-glycans at five potential glycosylation sites. N-glycans at PrV specific N77 and the highly conserved site N627 were found to be critical for efficient membrane fusion in the fusion assays, and during viral entry and cell-to-cell spread. N627 was further shown to be crucial for proper gH transport and maturation. In contrast, inactivation of N604, conserved in the Varicellovirus genus, enhanced in vitro fusion activity and viral cell-to-cell spread. These findings demonstrated a role of the N-glycans in proper localization and function of PrV gH.
Because Moringa is rich in secondary metabolites and phenolics, we faced a challenge in extracting a pure DNA required for AFLP (the first proposed genotyping method). Later, different DNA isolation methods were tested to overcome the obstacles caused by phenolics and sugars, an AFLP protocol that worked well with the cultivated seedlings at the botanical garden in Greifswald. The markers for the Internal Transcribed Spacer (ITS) were as well tested that showed a monomorphic structure between all samples. Finally, SSR (microsatellite) markers were established. To optimize DNA extraction, the method of Doyle and Doyle was modified and optimized. This is an ideal method for obtaining a non-fragmented DNA that could be used for AFLP. In addition, two other DNA extraction methods; (KingFisher Flex robot using Omega M1130 extraction Kits, and spin columns and 96-plates using Stratec kits). Although we achieved similar results for both Robot kits (Omega) and Stratec kits, the amplification for most of the samples extracted with Robot did not work, therefore the Stratec kit was the method of choice as it has also a lower cost, combined with a high quality of DNA. For ITS, no polymorphism was found for 28 samples of M. peregrina from Sinai (sequences submitted to GenBank). However, since microsatellite markers of M. peregrina were not known, it was a challenge to try a cross amplification from other species with well-known microsatellite primers. Cross-amplification of 16 primers known from the related species M. oleifera was tested, and three multiplex PCR reactions were established after testing different annealing temperatures and different primers concentrations. This included 13 primers out of the 16 investigated markers which gave a reliable band. All methods used for genetic assessments for the different Moringa species are compiled in a comparative review to look for connections between the different Moringa species. For Moringaceae, M. oleifera and M. peregrina are closely related to each other. Both species have slender trunks, with thick, tough bark and tough roots and bilaterally symmetrical flowers with a short hypanthium. All but one SSR markers used in this study are highly informative However, the degree of polymorphy varied considerably within the 13 markers used. The Probability of Identity (PI) for all loci was 2.6 x 10-9 with high resolution. The percentage of polymorphic loci for all populations was 88.5±2.2; figures for single populations were 92.3%, 84.6%, 84.6%, and 92.3% for the wadis WM, WA, WF, and WZ, respectively. The genotype accumulation curve as well demonstrated that 7–8 markers were necessary to discriminate between 100% of the multilocus genotypes. Significant departures from HWE were detected for eight loci (P < 0.001), probably due a high degree of inbreeding within population. The observed (HO) and expected (HE) heterozygosities ranged from 0 to 0.86 and from 0 to 0.81, respectively. However, for the pooled population, excluding the monomorphic locus MO41, HO and HE ranged from 0.069 to 0.742 and from 0.126 to 0.73 with averages of 0.423 and 0.469, respectively. The mean of FST was 0.133, indicating that, due to the long generation time of M. peregrina, there is still relatively little differentiation between the four remaining populations. An analysis of molecular variance (AMOVA) revealed that the old populations of M. peregrina are still genetically diverse where 75% of variance was recorded within individuals and 83% within populations. An analysis with STRUCTURE, varying the parameter K between 1 and 7, revealed the most pronounced genetic structure for K=3, thus uniting the populations from two neighboured wadis (W. Agala and W. Feiran). The three groups seem to be now genetically isolated. (They may be remainders of a formerly contiguous population, especially when considering the change towards a drier climate in Northern Africa within the last 6000 years). Six clones of each two individuals collected from the same wadi were found, pointing to vegetative dispersal via broken twigs, which may have rooted after flash floods. It may be an alternative mode of reproduction under harsh conditions. Our data reveal a low gene flow between three of the four wadis, suggesting that the trees are relictual populations. In general, conservation of populations from the three genetically most diverse wadis and cross-breeding of trees within a reforestation program is recommended as an effective strategy to ensure the survival of M. peregrina at Sinai, Egypt.
As the tree of life is populated with sequenced genomes ever more densely, the new challenge is the accurate and consistent annotation of entire clades of genomes. In my dissertation, I address this problem with a new approach to comparative gene finding that takes a multiple genome alignment of closely related species and simultaneously predicts the location and structure of protein-coding genes in all input genomes, thereby exploiting negative selection and sequence conservation. The model prefers potential gene structures in the different genomes that are in agreement with each other, or—if not—where the exon gains and losses are plausible given the species tree. The multi-species gene finding problem is formulated as a binary labeling problem on a graph. The resulting optimization problem is NP hard, but can be efficiently approximated using a subgradient-based dual decomposition approach.
I tested the novel approach on whole-genome alignments of 12 vertebrate and 12 Drosophila species. The accuracy was evaluated for human, mouse and Drosophila melanogaster and compared to competing methods. Results suggest that the new method is well-suited for annotation of a large number of genomes of closely related species within a clade, in particular, when RNA-Seq data are available for many of the genomes. The transfer of existing annotations from one genome to another via the genome alignment is more accurate than previous approaches that are based on protein-spliced alignments, when the genomes are at close to medium distances. The method is implemented in C++ as part of the gene finder AUGUSTUS.
Analysis of partial migration strategies of Central European raptors based on ring re-encounter data
(2018)
The phenomenon of partial migration in birds in
which some individuals of a population are migratory while others stay in the breeding area is of increasing scientific interest. The strategies of partial migratory raptors from Central Europe are, however, unclear for most species. We analysed ring re-encounter data of Common Kestrels Falco tinnunculus, Eurasian Sparrowhawks Accipter nisus and Common Buzzards Buteo buteo ringed in Germany in terms of distances and directions between ringing and re-encounter sites. We investigated possible differences between sexes and age classes, as well as effects of ringing region, seasonal weather (in the form of North Atlantic Oscillation indices) and long-term temporal changes (including climate change) on migratory strategies by means of generalized linear models. We found that migration is mostly conducted by juveniles, although migratory adults were also found. In general, males tend to migrate less than females and juveniles less than adults.
Kestrels showed differences between age classes and sexes and they responded to weather in summer and autumn. The migration activities of Kestrels decreased over years. Sparrowhawks from different regions showed no differences in migration activity and no responses to long-term temporal changes. They did not respond to seasonal weather either. Buzzards showed strong responses to winter weather (‘winter escapes’) predominantly in highland regions, and a reduction of migratory intensity probably due to global warming.
The explanatory power of ringing data, however, is limited by low re-encounter rates and temporal and spatial heterogeneity in re-encounter probability. Spatial heterogeneity mainly depends on the distribution of observers as well as on their willingness to report a re-encountered ring to the corresponding ringing scheme. We analyzed a data set of ringing and re-encounter data of Kestrels, Buzzards and Sparrowhawks provided by the EURING Data Bank. We calculated monthly re-encounter rates across Europe and, for different time periods, we predicted re-encounters for individuals of these species ringed in Germany, on the assumption that re-encounter probabilities are evenly distributed at the highest value observed within the respective home ranges. Subsequently, we tested for correlation between re-encounter rates and human population density. The number of predicted re-encounters exceed the observed by 50-300 %. We found differences between monthly re-encounter rates and between different prediction periods. Distances (between ringing and re-encounter sites) differ significantly between observations and predicted re-encounters, with higher distances in predictions. Correlation between re-encounter rates and human population density is significant, but correlation coefficients are low (ρ = 0.291-0.511). Correcting for observer heterogeneity can help to analyze ring re-encounter data e.g. in terms of dispersal and migration. However, a comprehensive data collection and a digitalization of possible prior data records by the respective ringing schemes may allow advances in this method even further.
Manipulating and utilizing plasmas becomes a more and more important task in various research fields of physics and in industrial developments. Especially in nowadays spacerelevant applications there are different ideas to modify plasmas concerning particular tasks.
One major point of interest is the ability to influence plasmas using magnetic fields. To study the underlying physical effects that were achieved by these magnetic fields for both scenarios Particle-in-Cell simulations were done. Two examples are discussed in this thesis.
The first example originates from an experiment performed by the European Space Agency ESA in collaboration with the German Space Agency DLR. To verify the possibility of heat-flux reduction by magnetic fields onto the thermal protection system of a space vehicle a simplified experiment on earth was developed. Most of the heat that is created during re-entry comes from compression of the air ahead of the hypersonic vehicle, as a result of the basic thermodynamic relation between temperature and pressure. The shock front, which builds up in front of the vehicle deflects most of the heat and prohibits the surface of the space vehicle from direct contact with the maximum flux. State of the art spacecrafts use highly developed materials like ceramics to handle the enormous heat. An attractive approach to reduce costs is to use magnetic fields for heat-flux reduction. This would allow the use of cheaper materials and thus reduce costs for the whole space mission. A partially-ionized Argon beam was used to create a certain heat-flux onto a target. The main finding of the experimental campaign was a large mitigation of heat-flux by applying a dipole-like magnetic field. The Particle-in-Cell method was able to reproduce experimental observations like the heat-flux reduction. An additionally implemented optical diagnostics module allowed to confirm the results of the spectroscopy done during the experiment. The underlying effect that is responsible for the heat-flux reduction was identified as a coupling between the modified plasma and the dominating neutral flux component. The plasma, that is guided towards the target, act as a shield in front of the target surface for arriving neutrals. These neutrals are slowed down by charge-exchange collisions. Furthermore the magnetic field induces an increased turbulent transport that is also needed to reach a reduction in heat-ux. The turbulent transport was also obtained by three-dimensional Direct Simulation Monte Carlo simulations. Unfortunately, such source driven turbulence can not be expected in space, so that a heat flux reduction in real space applications is questionable. Nevertheless, other effects like the induced turbulence by the rotating vehicle can compensate the missing source driven effect.
The second scenario in which a magnetic field is used to modify the heat flux of a plasma is the operation of the pulsed cathodic arc thruster. The same Particle-in-Cell code was used to simulate a typical pulse of this newly developed thruster of Neumann Space Pty Ltd. The typical behavior of the thruster could be reproduced numerically. The thrust is mainly produced by fast electrons. These electrons are accelerated by electric fields as a result of a plasma-beam instability. This plasma-beam instability was verified by a phase space diagnostics for the electrons. To demonstrate the influence of the magnetic field a simulation of the cathodic arc thruster without magnetic field and one with magnetic field were compared. It was shown that the use of a magnetic field leads to a ten times larger thrust by directing the heat ux. The resulting narrow plume is an additional Advantage of the particle guiding magnetic field. This narrowness of the plume reduces the danger of interaction with other components of the space vehicle.
Both scenarios demonstrate the different capabilities for electromagnetic fields to manipulate plasmas and especially the corresponding heat-flux with respect to certain tasks. The possibilities range from reducing the heat-flux onto a target to maximizing the thrust by directing the heat-ux. This thesis demonstrates that simulations are a great tool to support experiments and to deliver an improved physics understanding. They help to identify the basic physics principles in the different systems, because they can deliver information not accessible to experiments.
In particular, a better understanding of the influence of electromagnetic fields on the heat-flux distribution in space-relevant applications was obtained. This can be the basis for further simulation-guided optimization, e.g. for the design of more effective cathodic arc thrusters. Here, the goal is to minimize costs for prototypes by replacing the hardware by virtual prototypes in the simulations. This allows to test basic design ideas in advance and get more highly-optimized designs at a fraction of time and costs.
Ion thrusters are Electric Propulsion systems used for satellites and space missions. Within
this work, the High Efficient Multistage Plasma Thruster (HEMP-T), patented by the
THALES group, is investigated. It relies on plasma production by magnetised electrons.
Since the confined plasma in the thruster channel is non-Maxwellian, the near-field plume
plasma is as well. Therefore, the Particle-In-Cell method combined with a Monte-Carlo
Collision model (PIC-MCC) is used to model both regions. In order to increase the sim-
ulated near-field plume region, a non-equidistant grid is utilised, motivated by the lower
plasma density in the plume. To minimise artificial self-forces at grid points bordered by
cells of different size a modified method for the electric field calculation was developed in
this thesis. In order to investigate the outer plume region, where electric field and collisions
are negligible, a ray-tracing Monte-Carlo model is used. With these simulation methods,
two main questions are addressed in this work.
What are the basic mechanisms for plasma confinement, plasma-wall-interaction
and thrust generation?
For the HEMP-T the plasma is confined by magnetic fields in the thruster channel, generated
by cylindrical permanent magnets with opposite polarity. Due to different Hall parameters,
electrons are magnetised, while ions are not. Therefore, the dominating electron transport
is parallel to the magnetic field lines. In the narrow cusp regions, the magnetic mirror effect
reduces the electron flux towards the wall and confines the electrons like in a magnetic
bottle. At the anode, propellant gas streams into the thruster channel, which gets ionised
by the electrons creating the plasma. As a result of the electron oscillation between the two
cusp regions, ionisation of the propellant gas is efficient.
The magnetic field configuration of the HEMP-T also influences the plasma potential inside
the thruster channel. Close to the symmetry axis, the mainly axial magnetic field results in
a flat potential. At the inner wall, the field configuration reduces the plasma wall interaction
to only the narrow cusp regions. Here, the floating potential of the dielectric channel wall
and its plasma sheath result in a rather low radial potential drop compared to the applied
anode potential. As a result, the electric potential is rather flat and impinging ions at the
thruster channel wall have energies below the sputter threshold energy of the wall material.
Therefore, no sputtering appears at the dielectric wall. At the thruster exit the confinement
by the magnetic field is weakened and the potential drops with nearly the full anode voltage.
The resulting electric field accelerates the generated ions into the plume and generate the
thrust, but they are also able to sputter surfaces. During terrestrial testing, sputteringat vacuum vessel walls leads to the production of impurities. The amount of back-flux
towards the channel exit is determined by the sputter yield of the vacuum chamber wall. A
large distance between thruster exit and vessel wall reduces the back-flux and smooths the
pattern of deposition inside the thruster channel. Dependent on their material, the evolving
deposited layers can get conductive, modify by this the potential distribution and reduce
the thrust.
For the HEMP-T, ions are mainly generated at high potential close to the applied anode
potential. Therefore, the accelerated ions producing the thrust gain the maximum energy
as observed in experiment. Ions emitted from the thruster into different angles in the
plume contribute mainly to the ion current at angles between 30 ◦ and 90 ◦ . They mainly
originate from ionisation at the thruster exit. The resulting angular distribution of the
ejected ion current is close to the one of the experiment, slightly shifted by about ten
degrees to higher emission angles. In front of the thruster exit, electrons are trapped by
electrostatics forces. This enhanced density allows ionisation and an additional electron
density structure establishes.
What are possible physics based ideas for optimisation of an ion thruster?
An optimised thruster should have a high ionisation rate inside the thruster channel, low
erosion and an ion angular distribution with small contributions at high angles for min-
imised thruster satellite interactions. In experiments, the HEMP-T satisfies already quite
nicely these requests. In the simulations, low erosion inside the thruster channel and angular
ion distributions close to the experimental data are demonstrated. However, the ionisation
efficiency is lower and radial ion losses are larger than in experiment. A possible explanation
of these differences is an underestimated transport perpendicular to the magnetic field lines,
well known for magnetised plasmas.
A successful example for an optimisation using numerical simulations is the reduction of
back-flux of sputtered impurities during terrestrial experiments by an improved set-up of
the vacuum vessel. The implementation of baffles reduces the back-flux towards the thruster
exit and therefore deposition inside the channel. These improvements were successfully im-
plemented in the experiment and showed a reduction of artefacts during long time measure-
ments. This leads to a stable performance, as it is expected in space.
Most animals live solitarily, but for some species the benefits of group living outweigh the costs and social communities have evolved. Truly social societies are characterized by cooperation in tasks like foraging, predator defense and brood care. In the most extreme cases, non-reproducing individuals act as helpers and provision offspring of reproducing individuals at the cost of their own reproductive success. This alloparental care is attributed to kin selection that provides the helpers with inclusive fitness benefits. However, how reproductive role is determined and in which ways virgin helpers in a group benefit the community is not always well understood.
Spiders are known to be generalist hunters, which in many cases do not shy away from cannibalism. Thus, most spiders live solitarily. However, in a few species a permanently social lifestyle has evolved in which individuals live together throughout their life, providing an intriguing case of social evolution. These spider communities are characterized by lack of premating dispersal leading to extreme inbreeding, by reproductive skew, in which only a proportion of females reproduce and by cooperative breeding of the reproducing females. It has been assumed that the large proportion of virgin females act as helpers not only in foraging and web maintenance but also during brood care. In the social spider Stegodyphus dumicola brood care involves the intensive task of regurgitation feeding, at which mothers regurgitate their own liquefied body tissue. At the end of brood care, the offspring sucks the mothers dry during matriphagy, leading to the death of brood caring females and a semelparous lifestyle. In the closely related solitarily breeding Stegodyphus lineatus virgin females do not provide brood care. The ability of virgin females in S. dumicola to care for offspring would thus depict an adaptation to sociality and cooperative breeding. I therefore aimed to clarify the role and significance of virgin females in colonies of social spiders and furthermore investigated a possible mechanism of how reproductive role within a colony is determined.
I investigated whether there is differential task participation in a non-reproductive task and the task of brood care among reproducing mothers and virgin females (helpers) in Stegodyphus dumicola. The study provides explicit evidence that brood care – including egg sac care, regurgitation feeding and matriphagy – is performed by mothers as well as by virgin helpers. Virgin females in a colony can thus rightfully be termed allomothers. However, the task participation differed between the reproductive states. While mothers engaged more often in brood care, virgin females were more active in foraging. However, the active provisioning of offspring by the virgin females decreases the motherly workload as is suggested by the extended brood care period in comparison to solitary breeders. The observations on virgin allomaternal care are supported by histological studies on the midgut tissue of brood caring females, which revealed that mothers and virgin helpers undergo comparable morphological changes in preparation of regurgitation feeding. The changes in virgin females correlate to ovarian development that might depict an internal maturation process which sets virgin females in the right state to provide care. The morphological changes in mothers and virgin helpers of S. dumicola are less comprehensive than in the solitarily breeding S. lineatus mothers. This indicates that cooperatively caring females are able to save on their resources, provision offspring for longer and thus are probably able to increase survival of the brood by an extended care period. A surprising consequence of cooperative brood care is the ability of mothers to produce a second viable egg sac, even when the first brood is successful. Mothers of the cooperative breeding S. dumicola can thus depart from the strictly semelparous lifestyle and instead invest part of their resources in a second clutch. This finding identified a new way of how cooperative breeding enhances breeding success of reproducers and thus inclusive fitness for helpers as well, thus adding to the benefits of allomaternal care.
Virgin females did not store significantly lower amounts of lipids in their midgut tissue than mothers, raising the question of how much reproductive role of females is determined by competition for resources during growth, as often assumed. Another possible determinant of female reproductive skew is the characteristic male scarcity in spider colonies, with only about 12 percent of spiders being male. Males are assumed to mature early within a few days and die early, thus leaving late maturing females unmated due to lack of mating partners. However, my studies provided evidence that male maturation is more skewed than expected and males might survive several months. Subadult females did not accelerate molting when an adult male was present, which could further indicate, that male presence is not a limiting factor on reproduction in males. Furthermore, males are able copulate with up to 16 females and did not show e preference for large females during mating trials. Males are thus able to fertilize all females, provided all females mature in time. I therefore suggest, that male scarcity is not major determinant of reproductive skew in females, especially in small and middle-sized colonies in which female maturation might only be moderately skewed.
My studies were able to demonstrate the meaning of the large proportion of unmated females in a colony of the social spider S. dumicola. Virgin helpers support mothers during brood care and thus do not only enhance the brood care period but facilitate mothers to produce multiple clutches. Virgin females are able to care as they undergo similar morphological changes as mothers’ do. This seems to be facilitated by an internal maturation process, indicated by ovarian development and oviposition by virgin females, both of which has never been observed in virgins of the subsocial species. How reproductive role is determined remains unclear, but I was able to exclude male scarcity as a major factor influencing reproductive skew.
This work study a monolayer of branched poly(ethyleneimine (PEI) adsorbed onto oppositely charged surfaces with iron chelates or iron ions in the absorption solution. The conformation of adsorbed PEI is explored in the dependence of the composition of the adsorption solution by measuring the surface forces using atomic force microscopy (AFM) with the colloidal probe (CP) at different ionic strengths (INaCl) in surrounding aqueous solution. The surface coverage of these layers is investigated using X-ray reflectivity.
PEI solutions show different pH values with iron chelates (pH = 3), iron ions (pH = 4.67) or pure water (pH = 9.3) at room temperature. Low surface coverage of PEI at pH = 3 adjusted by monovalent ions was also observed. However, adsorbing PEI with iron ions or iron chelates and washing with pure water shifts the pH, leading to an adsorbed PEI layer with high coverage. In our observation, the influence of iron ions and iron chelates on the surface coverage of PEI film is stronger than the pH effect. PEI adsorbed from a pure water solution shows flat conformation. Surface force measurements with CP show that PEI adsorbed from solutions containing iron chelates or iron ions cause almost identical steric forces. The thickness of the brush L is determined as a function of the ionic INaCl in the measuring solution. It scales as a polyelectrolyte brush.
The maximum number density of gold nanoparticles (AuNPs) adsorbed onto the PEI brushes was identical and larger than on flatly adsorbed PEI. On the PEI layer with the larger surface coverage, the AuNPs aggregate; on the PEI layer with the lower surface coverage they do not aggregate. Taken together, these results contribute to understanding the mechanisms determining surface coverage and conformation of PEI and demonstrate the possibility of controlling surface properties, which is highly desirable for potential future applications.
In this thesis, we also investigate the top layer (PSS and PDADMA) of polyelectrolyte multilayer (PEM) films. PEM films were prepared by sequential adsorption of oppositely charged PEs on solid substrates. PEM films consist of polydiallyldimethylammonium (PDADMA) as polycation and the polystyrene sulfonate (PSS) as polyanion. PDADMA has a smaller linear charge density than PSS. For this system, two different growth regimes are known: parabolic and linear. I studied the top layer (PSS and PDADMA) conformation of PEM films and how the structure of this top layer is affected by increasing the number of PDADMA/PSS layer pairs N and the addition of salt to the surrounding solution.
The INaCl was changed during the force-distance measurements. PSS terminated films always show electrostatic forces at INaCl < 0.1 M and flat conformation. The surface charge density is always negative at INaCl < 0.1 M. The surface charge of the PSS top layer starts to turn from negative to positive at N ≥ 14. At N between 13 and 15, adsorbed PSS cannot compensate all the excess PDADMA charge. This leads to an accumulation of the positive extrinsic sites within the PSS terminated film beyond a specific N. At INaCl ≈ 0.1 M, an exponential decaying force was measured. This is an indication of unusual long-ranged hydration force (decay length λ-1 ≈ 0.2-0.5 nm), and PSS terminated film shows zwitterionic or neutral surface. At INaCl > 0.1 M, a non-electrostatic action occurs and the PSS terminated film reswells in solution.
PDADMA terminated surface consisting of few layers show a flat conformation and the electrostatic forces were measured. For N ≥ 9 and INaCl ≤ 0.1 M, steric forces were measured. The force-distance profiles are well-explained by Alexander and de Gennes theory. PDADMA chains show a maximum L that is around 40-45 % of the contour length. For INaCl ≈ 0.1 M, and N > 9, a flat, neutral or zwitterionic surface is found (λ-1 ≈ 0.3-0.9 nm). For N = 9 and INaCl > 0.1 M, a strong screening of electrostatic interaction and attractive forces are observed. For N > 9 and INaCl > 0.1 M, the ion adsorption into the PE chains leads to an increase in the monomer size and as a result, the L increases and PDADMA brushes reswell again into the solution.
These data show that by varying N and INaCl, different surface forces can be obtained: Electrostatic forces (flat chains) both positive and negative, steric forces (brush), hydration force (flat, neutral or zwitterionic surface), and effects not yet explained (reswelling brush).
The highly oncogenic alphaherpesvirus Marek’s disease virus (MDV) causes immense economic losses in the poultry industry. The main targets of in vivo MDV infection are primary B and T lymphocytes. The cytolytic infection of B cells leads to depletion of lymphoid cells results in severe immunosuppression. Infected B cells recruit and activate T cells. The close interaction between B cells and T cells enables efficient intercellular transfer of MDV. During infection of T cells, the virus enters a latent state. Infection of T cells can lead to transformation of these cells and formation of lymphoma, which manifest in various visceral organs. This study aimed at the characterization of the proteomes of MDV-infected lymphocytes during the lytic and latent phases of infection.
Previous in vitro studies concerning the MDV pathogenesis and host-virus interactions have been mainly conducted with primary fibroblasts or kidney cells, due to the short lifespan of primary lymphocytes in cell culture. Recently, a cultivation system has been established that extents the lifespan of primary lymphocytes through the addition of cytokines to the growth medium. This allowed the infection of B cells in vitro and to conduct quantitative proteomic analysis of primary lymphocytes. Infection with GFP labelled virus recombinants allowed the isolation of infected cells by FACS for the proteome analysis of MDV infected B lymphocytes. An efficient quantitative proteomic workflow was developed, which consisted of a filter-aided (FASP) digest of the extracted proteins, followed by differential dimethyl chemical labeling of the peptides for quantitative evaluation prior to LC-MALDI TOF/TOF mass spectrometry. Only few alterations of the protein and transcript expression profiles were observed after infection of primary B cells with the very virulent RB-1B and the live-attenuated vaccine strain CVI988/Rispens. Relevant changes in relative protein levels were found for only twelve and six interesting host proteins after RB1B and CVI988 infection, respectively. However, the regulations were confirmed by inspection of the spectra from all experiments. The identified candidates play a role in immune response, translation and inflammatory response.
To confirm the potential infection markers, RNA-seq analysis of three biological replicates of each RB-1B -, CVI988- and mock-infected B cells was performed. Eighty expressed MDV transcripts could be identified, which were associated with lytic infection. The same MDV proteins were identified after infection with RB-1B or CVI988. However, transcriptome and proteome analysis of MDV-infected primary B cells showed only poor correlation. This indicates that the changes in protein expression profiles are mostly due to posttranscriptional events. Infection marker candidates were identified by the RNA-seq analysis, for which the gene expression was altered by MDV infection. Although almost 12,000 transcripts were identified, only few transcript levels changed markedly after MDV infection. The biological processes immune response, apoptotic process, signal transduction, cell migration and response to virus were enriched after MDV infection. The RNA-seq results confirm the observation that alterations of protein levels early after MDV infection are rare.
Most notably, MDV induces transformation of lymphocytes leading to malignant T-cell lymphomas in visceral organs with mortalities of up to 100 %. While several factors involved in MDV tumorigenesis have been identified, the transformation process is not fully understood. Therefore, we set out to fill this knowledge gap using proteome analysis of transformed T-cells ex vivo. In addition, the role of the viral telomerase RNA during transformation was assessed by comparison of tumors that had formed after infection with WT-virus or a telomerase RNA negative mutant. A major obstacle for tumor proteome analyses is the preparation of sufficient amounts of homogenous tumor tissue, as tumors appear with a dispersed morphology in the affected organs. The quantitation of cell types within the tumors indicated varying portions of hepatocytes, connective tissue, and CD3+ lymphocytes even with the same virus strain in different animals. However, the ∆vTR-induced tumors contained lower levels of hepatocytes and higher levels of CD3+ lymphocytes compared to WT tumors in all tested tumor samples. Thus, ∆vTR tumors were chosen for determination of differences in protein expression profiles of tumors and naïve T cells for their lower content of liver cells. We developed a workflow for the proteome analysis of T cell tumors from livers of MDV-infected chickens. Samples included laser capture micro-dissected tissue cuts from tumors and surrounding healthy liver tissue as well as naïve T-cells prepared from thymus. To enable quantitative proteome analysis, samples were digested using the FASP protocol and peptides were isotope-coded by differential dimethyl labeling. To improve proteome analysis peptides were fractionated by preparative isoelectric focusing prior to nano-HPLC MALDI/TOF-TOF mass- spectrometric analysis.
Proteomic analyses of LCM dissected ΔvTR tumor compared to naïve T cells, the main targets of transformation, identified nineteen potential transformation markers but again only minor changes in relative levels were observed. Several of the identified markers could also be verified by RT-qPCR on transcript level. The identified transformation candidates were associated with nucleosome assembly, regulation of transcription, inflammatory response, immune response and oxidation-reduction process.
However, further functional analyses are necessary to fully elucidate the role of the identified markers during MDV infection and transformation.
With improvements in breast imaging, mammography, ultrasound and minimally invasive interventions, the detection of early breast cancer, non-invasive cancers, lesions of uncertain malignant potential, and benign lesions has increased. However, with the improved diagnostic capabilities comes a substantial risk of false-positive benign lesions and vice versa false-negative malignant lesions. A statement is provided on the manifestation, imaging, and diagnostic verification of isolated benign breast tumours that have a frequent manifestation, in addition to general therapy management recommendations. Histological evaluation of benign breast tumours is the most reliable diagnostic method. According to the S3 guideline and information gained from analysis of the literature, preference is to be given to core biopsy for each type of tumour as the preferred diagnostic method. An indication for open biopsy is also to be established should the tumour increase in size in the follow-up interval, after recurring discrepancies in the vacuum biopsy results, or at the request of the patient. As an alternative, minimally invasive procedures such as therapeutic vacuum biopsy, cryoablation or high-intensity focused ultrasound are also becoming possible alternatives in definitive surgical management. The newer minimally invasive methods show an adequate degree of accuracy and hardly any restrictions in terms of post-interventional cosmetics so that current requirements of extensive breast imaging can be thoroughly met.
Abstract
Background: Behavior management techniques (BMT) are essential in order to
achieve a successful dental treatment with a minimum amount of stress in paediatric
dentistry, but parents are not equally accepting different advanced BMT.
Purpose: To investigate the differences in parental acceptance of advanced
behavior management techniques between University of Greifswald/Germany and
Jordan University/Jordan.
Methods: Parents of the children treated in the pedodontic departments at the
University of Greifswald/Germany and Jordan University/Jordan rated their
acceptance level of four advanced behavior management techniques (passive
restraint, active restraint, nitrous oxide sedation and general anesthesia) for normal
treatment, and for urgent treatment using a five points Likert scale. 200 parents (100
in each university) completed the questionnaire forms for analysis.
Results: Nitrous oxide sedation was rated the most accepted technique in
Greifswald and Jordan (mean 3.78±1.34; 3.22±1.50, respectively). The least
acceptable technique in Greifswald was passive restraint (2.05±1.18) and in Jordan
general anesthesia (2.11±1.30). The parents in Greifswald are significantly more
accepting nitrous oxide sedation than parents in Jordan (p=0.010), while parents in
Jordan are significantly more willing to accept passive restraint (p=0.001). The
acceptance of all advanced behavior management techniques increased significantly
in both groups when the treatment is urgent (p≤0.05),
Conclusions: Parental culture and the urgency of the treatment affect the
acceptance to different behavior management techniques. Moreover, the parental
attitude to the pharmacological technique has changed, as nitrous oxide sedation
generally appears to be the most preferred advanced technique in both groups.
Class I and class II glutaredoxins (Grxs) are glutathione (GSH)-dependent proteins, that function as oxidoreductases (class I) or mediate cellular iron trafficking (class II). Some members of class I Grxs like human Grx2 are able to complex a [2Fe-2S] cluster and form a dimeric holo complex, which renders them catalytically inactive and is the basis for their function as redox sensors. Class II Grxs like human Grx5 also complex [2Fe-2S] clusters, however these proteins transfer the clusters to other proteins. Both functionally distinct classes share a similar thioredoxin fold and conserved interaction sites for the non-covalently binding of GSH, which is required to complex the [2Fe-2S] cluster. Furthermore, the proteins from both classes contain a highly nucleophilic active site cysteine that would allow both classes to catalyze GSH-dependent oxidoreduction reactions. Despite of these similar features, only class I Grxs are able to form a mixed disulfide with GSH and to reversibly transfer it to protein thiols (de-/glutathionylation). Interestingly, neither class I Grxs nor class II Grxs can effectively compensate the loss of an essential member of the other class. Even though some structural differences were described earlier, the basis for their different functions remained unknown. In particular, the lack of catalytic activity of class II Grxs as oxidoreductases could not be explained. Here, we demonstrate that the different conformations of a conserved lysyl side chain are the molecular determinant of the oxidoreductase or Fe-S transfer activity of class I and II Grxs, respectively. A specific loop structure that is conserved in all class II Grxs determines one lysyl conformation that prevents the formation of a mixed disulfide of the active site cysteinyl thiol with GSH. Using engineered mutants of hGrx2 and hGrx5, we demonstrated that the exchange of the distinct loop between the classes results in a loss of oxidoreductase function of class I hGrx2 and the gain of oxidoreductase activity of class II hGrx5. The altered GSH binding mode also profoundly changes the [2Fe-2S] cluster binding of the engineered mutants and thereby also influences stability of the holo complexes, a pre-determinant for [Fe-S] cluster transfer activity. With the minor shift of 2 Å in a conserved lysyl side chain orientation we were not only able to modify the catalytic activity of two small human mitochondrial proteins, but on a much larger scale also provided evidence for the previously unknown structural basis that determines the function of all class I and class II Grxs.
The oxidoreductase activity of hGrx2 was also analyzed in vivo in a model of doxorubicin cell toxicity. Applying a mass spectrometrical approach, we identified various mitochondrial proteins as targets for redox regulation. Furthermore, our results gave reason to reconsider some common assumptions regarding doxorubicin-induced apoptosis and the protective function of mitochondrial Grx2.
Currently, plastic materials are an integral part of our lives, but their production mostly bases on fossil fuels or derivatives, which resources are decreasing. Extraction and processing of non-renewable resources have also negative impact on environment. One of the most promising and environmentally friendly approaches is use of microorganism. This PhD dissertation presents the non-conventional yeast Arxula adeninivorans as a host for production of bio-based and biodegradable poly(hydroxyalkanoates) plastics poly(hydroxybutyrate) and co-polymer poly(hydroxybutyrate-co-hydroxyvalerate). Additionally, the constructed yeast strain was able to secrete enantiomerically pure (R)-3-hydroxybutyric acid.
The production of PHAs requires three enzymes: β-ketothiolase, acetoacetyl-CoA reductase and PHA synthase. The strategy followed in this project was divided into two parts. While all three enzymes are responsible for intracellular production of PHA polymer, first two only lead to secretion of (R)-3-HB into culture media, which was used in a first stage of work to establish and optimize polymer production. Both, different bacterial strains and yeast A. adeninivorans were taken into account in screening of the genes encoding aforementioned enzymes. Bacterial genes were chemically synthesized using codon optimization pattern and endogenous genes were obtained using PCR and genomic DNA template from A. adeninivorans LS3 wild-type strain. Each gene was cloned into Xplor2 vector between TEF1 constitutive promoter and PHO5 terminator. Vector containing both thiolase and reductase genes was used for A. adeninivorans transformation.
The best combination of heterologous genes was overexpression of β-ketothiolase gene from Clostridium acetobutylicum and acetoacetyl-CoA reductase gene from Cupriavidus necator which led to secretion of 4.84 g L−1 (R)-3-HB, at a rate of 0.023 g L−1 h−1 over 214 h in shaking flask cultivation. Further optimization by fed-batch culturing with glucose as a carbon source did not improve (R)-3-HB secretion, but the rate of production was doubled to 0.043 g L−1 h−1 [3.78 g L−1 of (R)-3-HB at 89 h].
The product of acetoacetyl-CoA reductase is (R)-3-HB-CoA and further removing of CoA moiety is needed for acid secretion into culture media. A. adeninivorans is able to conduct this process without any additional modification but the conversion rate is unknown. Two thioesterases, cytosolic TesBp encoded by TesB gene from E. coli and mitochondrial ATes1p encoded by ATES1 gene from A. adeninivorans, were analysed to enhance secretion process. Additionally, a cytosolic version of ATES1 gene (ATES1cyt) was tested. All three genes were expressed in A. adeninivorans cells under TEF1 constitutive promoter together with thiolase and reductase genes. Despite detected enzymatic activity the yield of (R)-3-HB synthesis and secretion was not increased. Moreover, overexpressed thioesterases negatively influenced cell growth, indicating that they act on other metabolic components. The results provided two sets of information, first, the endogenous secretion system is sufficient for (R)-3-HB production; second, further screening of suitable genes needs to be performed.
Based on optimization of (R)-3-HB synthesis, thiolase gene (thl) from C. acetobutylicum and reductase gene (phaB) from C. necator were chosen to combine with PHA synthase gene (phaC) for creating the PHB-V producing strain. The PHA synthase expression module, containing TEF1 promoter and PHO5 terminator, was cloned into Xplor2 vector together with thiolase and reductase expression modules and used for A. adeninivorans transformation. The engineered strain accumulated up to 7.47% PHB of dcw. During the set of cells passaging A. adeninivorans lost the ability to accumulate polymer with maximal 23.1 % of primary accumulation level. Additionally, use of a vector including hygromycin B antibiotic resistance marker (instead of auxotrophic marker in Xplor2) did not improve polymer accumulation and stability.
To counteract the effect of loss of accumulation stability, phasin gene (phaP1), originated from C. necator, was introduce together with PHA pathway genes. First screening cultivations resulted in stabilizing of polymer production reaching 9.58 % PHB of dcw and only 12.0 % loss of production ability. Further experiments increased PHB content with 19.9% PHB of dcw (3.85 g L-1) after 180 h of cultivation using rich medium. Use of another thiolase gene, the second thiolase from C. necator (bktB), which theoretically should induce production of PHBV copolymer, led to accumulation only 11.4% PHB of dcw after 139 h and no PHV fraction was detected.
Variation of the ratio between flask volume and amount of media influences the level of aeration. Importantly, decrease of aeration level significantly increased polymer synthesis. Additionally, PHB-V copolymer accumulation has been induced by use of different carbon source co-substrates. Use of rich media supplemented with ethanol allow the strain with thl thiolase to accumulate up to 42.9 % PHB of dcw without PHV fraction and with bktB thiolase to 30.5 % PHB of dcw. Nevertheless, despite of lower total amount of polymer, supplementation with 1-propanol allow both strains to accumulate PHB-V copolymer with 7.30 %mol and 22.5 %mol of PHV for thl and bktB strains, respectively.
Optimization based on genetic engineering further enhanced polymer production yield led to exceeding of 50 % PHB-V of dcw. For doubling the gene dosage, PHA synthesizing strains of A. adeninivorans were again transformed with Xplor2 vector containing PHA pathway genes. Resulting strains exhibited twice the level of enzymatic activities of thiolase and reductase compared with strains transformed once with expression vector. In a shaking flask experiment the strain transformed twice with vector containing bktB thiolase reached after 240 h 52.1% PHB-V of dcw (10.8 g L-1) with 12.3 %mol of PHV fraction which is the highest level found in yeast. As another genetic approach, a fusion strain has been created. Two different strains have been established and merged using protoplast fusion technique. Doubling of genetic material resulted in similar level of copolymer produced by Arxula as in former experiments (50.2% of dcw, 10.7 g L-1).
Culture conditions were optimized in controllable cultivation using fed-batch mode. Although optimal oxygen and pH level and continuous carbon source and nitrogen feeding were maintained, final polymer level in % of dry mass was around three times lower than for shaking flask experiment. Nevertheless, efficient growth of Arxula in fed-batch mode led to increase of total copolymer level in g L-1 (16.5 g L-1 compare to 10.8 g L-1 for shaking flasks) showing the feasibility of using Arxula strain for up-scaling production of copolymer.
Acetyl-CoA is a main precursor in synthesis of PHB-V copolymer and change of its pool was investigated. ATP citrate lyase is a cytosolic enzyme converting citrate into oxaloacetate and acetyl-CoA, supporting the biosynthesis of fatty acids. Two genes encoding Acl subunits from Aspergillus nidulans (AnAcl1 and AnAcl2) were again cloned into Xplor2 vector and transformed into A. adeninivorans PHA producing strain. Despite of higher enzymatic activity of AnAclp, accumulation of polymer was around three times higher for control without expression of lyase genes. Expectedly, the strain expressing AnAcl1/2 genes accumulated larger amount of each stearic, palmitic and oleic acid in both standard and fatty acid inducing conditions (lower nitrogen level). Thus, overexpression of AnAcl1/2 genes in A. adeninevorans cells may improve biosynthesis of fatty acids but is ineffective for PHB polymer accumulation.
The aim of the project was use of starch-based media, manufactured as by-products, for polymer production. Genetically engineered Arxula strains were cultivated using these media instead of glucose-based media. Although yeast cells were both able to secrete (R)-3-HB and to accumulate PHB, the yield was lower than for previous media. Additionally, only trace of PHV was found at the end of cultivation time when 1-propanol was supplemented. Obtained results showed that use of cheaper media is a promising approach to decrease production costs but further optimization needs to be performed especially for extended scale of production.
Determination of produced copolymer has been done based on microscopic analysis and studies of physical and chemical properties. Results revealed that Arxula accumulated PHA polymer in cytosolic granules with a similar size range compared to the ones produced by bacteria. The physicochemical study showed that produced polymer exhibited slightly different properties in comparison to bacterial polymer with similar content of PHV, i.e. very-low molecular mass, higher melting and glass transition temperature.
All above results showed that A. adeninivorans is a promising host for PHB-V production. Expression of phasin greatly increased production and stability of polymer, which led to an accumulation level never found before in yeast. Further optimization in higher production scale using cheap starch-based media may establish Arxula strain as a valuable tool for industrial production of PHB-V copolymer.
Optomechanical (om) systems are characterized by their nonlinear light-matter interaction. This is responsible for unique dynamic properties and allows the detection of a variety of classical and quantum mechanical phenomena on a microscopic as well as on a macroscopic scale. In this work we have studied the dynamic behavior of two laser-driven om systems, the single om cell ("cavity optomechanics / membrane-in-the-middle setup") and a two-dimensional hexagonal array of these cells ("om graphene"). The first case was motivated by the possibility to detect the transition from quantum mechanics to classical mechanics directly on the basis of the dynamic behavior. For this we focus on multistability effects of the optical and mechanical degrees of freedom, that are modeled by harmonic oscillators. Our description is based on the quantum optical master equation, which takes into account the environmental interaction assuming a vanishing temperature. As a consequence of decoherence, the dynamics occur near the semiclassical limit, i.e. it is characterized by quantum fluctuations. The quantum-to-classical transition is realized formally by rescaling the equations of motion. In the classical limit, quantum fluctuations disappear and the mean field equations were evaluated by analytical and numerical methods. We found that classical multistability is characterized by stationary signatures on the route to chaos, as well as by the coexistence of single-periodic orbits for the mechanical degree of freedom. The latter point was extensively evaluated by means of a self-consistent approach. For the dynamics in the quantum regime quantum fluctuations cannot be neglected. For this purpose, the master equation was solved by means of a numerical implementation of the Quantum State Diffusion (QSD) method. Based on Wigner and autocorrelation functions, we were able to show that quantum multistability is a dynamic effect: chaotic dynamics is suppressed and there is a time-dependent distribution of the phase space volume on classical simple-periodic orbits. The results can be interpreted within a semiclassical picture, which makes use of the single QSD quantum trajectory. Accordingly, the quantum-classical transition is explained as a time-scale effect, which is determined by tunneling probabilities in an effective mean-field potential. The subject of the second part of the work is the transport of low-energy Dirac quasiparticles in om graphene, propagating as light and sound waves. For this purpose, we investigated the scattering of a plane light wave by laser-induced photon-phonon coupling planar and circular barriers. The starting point is the om Dirac equation, which results from the continuum approximation of the Hamiltonian description of the two-dimensional array near the semiclassical limit. This work was motivated by the rich and interesting relativistic transport and tunneling phenomena found for electrons in graphene, which now appear in a new way. The reason is the presence of the new spin degree of freedom, which distinguishes the optical and mechanical excitations. In this spin space, the om interaction can be understood as a potential, which in our analysis consists of a time-independent and a time-dependent sinusoidal part. For the first case of a static barrier, the transport is elastic and is characterized by stationary scattering signatures. After solving the scattering problem via continuity conditions we were able to identify different scattering regimes depending on scattering parameters. In addition to relativistic phenomena such as Klein tunneling, simple parameter variation allows to use the barrier as a resonant light-sound interconverter and angle-dependent emitter. For the oscillating barrier, the transport is inelastic and is characterized by dynamic scattering signatures. To solve the time-periodic scattering problem, we have applied the Floquet theory for an effective two-level system. As a result of the barrier oscillation, photons and phonons can get and give away energy portions in the form of integer multiples of the oscillation frequency. The interference of short (classical) and long-wave (quantum) components leads to mixing of the scattering regimes. This allows to use the barrier as a time-periodic light-sound interconverter with interesting radiation characteristics. In addition, we have argued that the oscillating barrier provides the necessary energetic conditions for detecting zitterbewegung.
Objectives: We aimed to update the 2010 evidence- and consensus-based national clinical guideline on the diagnosis and management of uncomplicated urinary tract infections (UTIs) in adult patients. Materials and Methods: An interdisciplinary group consisting of 17 representatives of 12 medical societies and a patient representative was formed. Systematic literature searches were conducted in MEDLINE, EMBASE, and the Cochrane Library to identify literature published in 2010–2015. Results: We provide 75 recommendations and 68 statements in the updated evidence- and consensus-based national clinical guideline. The diagnostics part covers practical recommendations on cystitis and pyelonephritis for each defined patient group. Clinical examinations, as well as laboratory testing and microbiological pathogen assessment, are addressed. Conclusion: In accordance with the global antibiotic stewardship initiative and considering new insights in scientific research, we updated our German clinical UTI guideline to promote a responsible antibiotic use and to give clear hands-on recommendations for the diagnosis and management of UTIs in adults in Germany for healthcare providers and patients.
Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study
(2018)
Introduction: Hyperbaric oxygenation (HBO), in addition to anti-infective and surgical therapy, seems to be a key treatment point for Fournier’s gangrene. The aim of this study was to investigate the influence of HBO therapy on the outcome and prognosis of Fournier’s gangrene. Patients and Methods: In the present multicenter, retrospective observational study, we evaluated the data of approximately 62 patients diagnosed with Fournier’s gangrene between 2007 and 2017. For comparison, 2 groups were distinguished: patients without HBO therapy (group A, n = 45) and patients with HBO therapy (group B, n = 17). The analysis included sex, age, comorbidities, clinical symptoms, laboratory and microbiological data, debridement frequency, wound dressing, antibiotic use, outcome and prognosis. The statistical analysis was performed with GraphPad Prism 7® (GraphPad Software, Inc., La Jolla, USA). Results: Demographic data showed no significant differences. The laboratory parameters C-reactive protein and urea were significantly higher in group B (group B: 301.7 vs. 140.6 mg/dL; group A: 124.8 vs. 54.7 mg/dL). Sepsis criteria were fulfilled in 77.8 and 100% of the patients in groups A and B respectively. Treatment in the intensive care unit (ICU) was therefore indicated in 69% of the patients in group A and 100% of the patients in group B. The mean ICU stay was 9 and 32 days for patients in groups A and B respectively. The wound debridement frequency and hospitalization stay were significantly greater in group B (13 vs. 5 debridement and 40 vs. 22 days). Initial antibiosis was test validated in 80% of the patients in group A and 76.5% of the patients in group B. Mortality was 0% in group B and 4.4% in the group A. Conclusion: The positive influence of HBO on the treatment of Fournier’s gangrene can be estimated only from the available data. Despite poorer baseline findings with comparable risk factors, mortality was 0% in the HBO group. The analysis of a larger patient cohort is desirable to increase the significance of the results.
Background: We aimed to update the 2010 evidence- and consensus-based national clinical guideline on the diagnosis and management of uncomplicated urinary tract infections (UTIs) in adult patients. Results are published in 2 parts. Part 1 covers methods, the definition of patient groups, and diagnostics. This second publication focuses on treatment of acute episodes of cystitis and pyelonephritis as well as on prophylaxis of recurrent UTIs. Materials and Methods: An interdisciplinary group consisting of 17 representatives of 12 medical societies and a patient representative was formed. Systematic literature searches were conducted in MEDLINE, EMBASE, and the Cochrane Library to identify literature published in 2010–2015. Results: For the treatment of acute uncomplicated cystitis (AUC), fosfomycin-trometamol, nitrofurantoin, nitroxoline, pivmecillinam, and trimethoprim (depending on the local rate of resistance) are all equally recommended. Cotrimoxazole, fluoroquinolones, and cephalosporins are not recommended as antibiotics of first choice, for concern of an unfavorable impact on the microbiome. Mild to moderate uncomplicated pyelonephritis should be treated with oral cefpodoxime, ceftibuten, ciprofloxacin, or levofloxacin. For AUC with mild to moderate symptoms, instead of antibiotics symptomatic treatment alone may be considered depending on patient preference after discussing adverse events and outcomes. Primarily non-antibiotic options are recommended for prophylaxis of recurrent urinary tract infection. Conclusion: In accordance with the global antibiotic stewardship initiative and considering new insights in scientific research, we updated our German clinical UTI guideline to promote a responsible antibiotic use and to give clear hands-on recommendations for the diagnosis and management of UTIs in adults in Germany for healthcare providers and patients.
Significance of Hyperbaric Oxygenation in the Treatment of Fournier’s Gangrene: A Comparative Study
(2018)
Introduction: Hyperbaric oxygenation (HBO), in addition to anti-infective and surgical therapy, seems to be a key treatment point for Fournier’s gangrene. The aim of this study was to investigate the influence of HBO therapy on the outcome and prognosis of Fournier’s gangrene. Patients and Methods: In the present multicenter, retrospective observational study, we evaluated the data of approximately 62 patients diagnosed with Fournier’s gangrene between 2007 and 2017. For comparison, 2 groups were distinguished: patients without HBO therapy (group A, n = 45) and patients with HBO therapy (group B, n = 17). The analysis included sex, age, comorbidities, clinical symptoms, laboratory and microbiological data, debridement frequency, wound dressing, antibiotic use, outcome and prognosis. The statistical analysis was performed with GraphPad Prism 7® (GraphPad Software, Inc., La Jolla, USA). Results: Demographic data showed no significant differences. The laboratory parameters C-reactive protein and urea were significantly higher in group B (group B: 301.7 vs. 140.6 mg/dL; group A: 124.8 vs. 54.7 mg/dL). Sepsis criteria were fulfilled in 77.8 and 100% of the patients in groups A and B respectively. Treatment in the intensive care unit (ICU) was therefore indicated in 69% of the patients in group A and 100% of the patients in group B. The mean ICU stay was 9 and 32 days for patients in groups A and B respectively. The wound debridement frequency and hospitalization stay were significantly greater in group B (13 vs. 5 debridement and 40 vs. 22 days). Initial antibiosis was test validated in 80% of the patients in group A and 76.5% of the patients in group B. Mortality was 0% in group B and 4.4% in the group A. Conclusion: The positive influence of HBO on the treatment of Fournier’s gangrene can be estimated only from the available data. Despite poorer baseline findings with comparable risk factors, mortality was 0% in the HBO group. The analysis of a larger patient cohort is desirable to increase the significance of the results.