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Introduction: Antiseptics are used for the prophylaxis of infections of acute wounds and for the treatment of critically colonized chronic wounds as well as localized infections of acute and chronic wounds. If an antiseptic with too much tissue toxicity and/or too little efficacy is used, the wound healing can be delayed.
Objective: The aim was to compare the irritation potency of frequently used wound antiseptics by using the hen's egg test on the chorioallantoic membrane (HET-CAM). Additionally, the influence of antiphlogistic active additives which might increase the tolerability was examined. To allow a more extensive comparison, antiseptics classified as obsolete such as hydrogen peroxide, creams on PVP- iodine base, silver sulfadiazine, chlorhexidine and nitrofural as well as the non-antiseptic wound treatment agents dexpanthenol and hemoglobin spray were also examined.
Method: The HET-CAM was used as a semi-in-vivo method to test the tolerability of wound antiseptics to tissues by observing the reactions that occur in the blood vessels of the highly vascularized CAM such as hemorrhage, lysis and coagulation. The irritation score (IS) was calculated and differentiated in 4 ranges according to Spielmann (1991).
Results: The vascular injuries of the CAM were considered as an indirect indicator of the tolerability. It is accepted that agents with no or low irritation potential on the CAM are to be preferred in the clinical practice if they are clinically effective.
Severe CAM reaction was observed after short-term application of octenidine based wound gel (active ingredient octenidine 0.05%) (IS: 10.3) and chlorhexidine digluconate 0.5% solution (IS: 9.5). Moderate reaction was observed for the combination of octenidine 0.05% in aqueous solution with panthenol 1.34% and allantoin 0.2% (IS: 8.7), hydrogen peroxide 1.5% in aqueous solution (IS: 6.1) and hydrogen peroxide 0.5% solution (IS: 5.5). Slight reaction was observed for hydrogen peroxide 1.5% solution in combination with sodium thiocyanate 0.698% (IS: 2.6), sodium thiocyanate 0.698% solution (IS: 2.1) and Dermacyn® (active ingredient NaOCl/HOCl each 0.004) (IS: 1.2). Polihexanide 0.04% in Ringer solution (IS: 0.9), Polihexanide 0.05% in Lipofundin, Granulox® (active agent hemoglobin 10%) (IS: 0) and dexpanthenol 5% solution (IS: 0) showed no reaction. In the long-term observation (24 hours after application), Dermacyn® showed the best results (59% of irritation remained alive after 24 hours). The addition of dexpanthenol and allantoin reduced the irritability only slightly, whereas the decrease of IS of hydrogen peroxide by addition of sodium thiocyanate was almost significant (p 0.0596).
Conclusion: It is suggested that agents with no or low irritation potential on the CAM are to be preferred in the clinical practice if they are clinically effective. It is suggested that further in vivo and in vitro studies are to be undertaken with these agents.
Solely regarding local tolerability, polihexanide and hypochlorite are the antiseptic agents of choice of the tested preparations. The wound oxygenizer hemoglobin spray is tolerated without irritation as well as the negative control 0.9% NaCl solution. Because of their other disadvantages in conjunction with their irritability, the outdated cream formulations on basis of silver sulfadiazine, PVP- iodine, chlorhexidine and nitrofural cannot be recommended for wound antisepsis.
A large portion of the earth's surface is covered with various vegetation classes (i.e. grassland, wetland and agricultural area, forest) of many diverse species and canopy configurations. The ability to assess and to monitor canopy parameters, such as biomass, leaf area index, and vegetation water content, is of vital importance to the study of different agronomic processes. Remote sensing techniques provide a unique capability towards probing different vegetation types and canopy by operating at different bands, observation angle etc. Over the past decades, significant progress has been made in remote sensing techniques of land processes specially vegetation characteristics through development of advanced ground-based, airborne and space-borne microwave sensors, methods and approaches such as theoretical, semi-empirical and empirical models, needed for analyzing the data. These activities have sharply increased in recent years since the launch of different active and passive satellites and sensors. Remote Sensing (RS) science and techniques combined with ground truth data can provide new tools for advanced agricultural crop applications. It has been demonstrated that RS has the ability to estimate biophysical parameters of agricultural crops over time at local, regional, and global scales. In this study, RS images in visible/near infrared (VIS/NIR) domain as well as microwave domain combined with ground truth data were used to assess biophysical parameters of agricultural crop during their whole growing season at Durable Environmental Multidisciplinary Monitoring Information Network (DEMMIN) test site in North East Germany. Ground truth studies were carried out for 31 weeks during 17th April – 13th November 2013 over three crop lands including winter wheat, barley and canola. Landsat 8 OLI, Landsat 7 ETM+ were used for the VIS/NIR studies and TerraSAR-X synthetic aperture radar (SAR) images were used to study biophysical parameters of agricultural crops in microwave part of electromagnetic spectrum. The analysis was conducted by calculating different vegetation indices (VIs) to estimate the biomass (fresh and dry), LAI, and vegetation water content (VWC) of three crops using Landsat 8 OLI and Landsat 7 ETM+ combined with ground truth data. A new concept of Soil Line retrieval from Landsat 8 image was also developed to estimate plant biophysical parameters using soil line related vegetation indices in optical domain of electromagnetic spectrum. Different approaches including univariate, multivariate stepwise regression and semi-empirical water cloud model was also used to estimate the biophysical parameters of agricultural crop using TerraSAR-X data in microwave domain of electromagnetic spectrum. Perhaps the most important conclusion of this study is that the RS approach can provide useful information about estimating agricultural crop parameters over time and local scale, which can therefore provide valuable information to aid the agronomy community.
The aim of the study was to develop and evaluate the reliability and agreement of new computer planimetric method for measurement and assessment of plaque on all types of removable dental prostheses RPDs. The instrument (new method) was tested by evaluating the efficacy of the rotating needles device in cleaning specific parts of RPD. From a database containing 780 images, which were taken in a standardized method for 65 RDPs for 49 participants, 55 images were selected randomly for image analysis. Adobe Photoshop software was used according to a standard operating procedure (SOP) by a main examiner two times in different sessions, and 1 time by 3 other examiners. In order to estimate the intra- and inter-examiner reliability, intraclass correlation coefficients ICC(2,1) was used. Three parameters were used to estimate agreement: standard error of measurement (SEM), smallest detectable change at 95% confidence level (SDC95%), and limits of agreement (LoA) according to Bland¨CAltman method. In the database, only 34 subjects were found with double crown retained removable denture and veneer over the secondary crown. 49x2 (before x after) images for 34 RDPs went under image analyses to calculate POP before and after cleaning the RDPs with the rotating needle device. Data were analysed using Wilcoxon signed-rank test. In all steps of image analysis, both intra-examiner and inter- examiner reliability were excellent with ICC(2,1) values > 0.85 at 95% confidence level. Intra- and inter-examiner values for both, SEM and SDC95% were ¡Ü 6% and ¡Ü17% respectively. The Bland¨CAltman analysis revealed a satisfactory level of agreement. POP is significantly more on the veneer than on the base(B-O), P <0.05. The rotating needles device is effective in cleaning the veneer and base(B-O), P <0.05 with absolute effect size 0.62. No statistical significance was detected in the effectiveness of the rotating needles device between base(B-O) and veneer. This study showed an excellent inter- and intra-examiner reproducibility, satisfactory level of examiners agreement, and acceptable measurement error of the new computer planimetric method . Furthermore, the method can be used with all types of RDPs. The rotating needles device can significantly reduce plaque on the double crown retained removable denture. The Computerized Planimetric Method (CPM) is more suitable for clinical researches because of its objectivity, reliability, high level of standardization, and the ability to detect and quantify small changes in plaque. Extra attention should be given to the veneer over the secondary crown as they are a potential part for RDP plaque accumulation.
Interoceptive sensations, that means, perceptions of the physiological body state, play an important role in the generation and expression of emotion. The focus of the research presented here is on respiratory sensations as specific interoceptive signals. Such respiratory sensations (like the feeling of dyspnea) play an important role in symptom perception in somatic (e.g., asthma) as well as in mental disorders (e.g., anxiety disorders). There are several different ways to manipulate respiratory sensations in an experimental environment, but many of them did not equal sensations in daily life. Here, stimuli (inspiratory resistive loads, caffeine) were used that trigger nearly naturally occurring interoceptive sensations. Taking into account that the elicited interoceptive experience also induces an unpleasant feeling state it is most likely that individuals show defensive physiological responding to such cues and try to avoid them. According to a bidirectional motivational system defensive behaviors are regulated by a defensive motivational system that is activated by threatening cues. From research with exteroceptive stimuli it is known that defensive responding is typically characterized by heightened autonomic arousal, increased respiration, and a potentiated startle eyeblink response. In contrast, only a few studies using interoceptive stimuli have incorporated the measurement of physiological data in their experimental designs. If included, studies show also heightened autonomic responding, whilst a heterogeneous respiratory as well as startle eyeblink responding is observed. Thus, the studies presented here were designed to clarify the factors that mediate defensive responding to interoceptive sensations. Study 1 investigated the influence of anxiety on the subjective, respiratory, and autonomic response to an individually determined inspiratory resistive load, while study 2 focuses on the effect of attentional modulation of the startle eyeblink response to a mild respiratory threat. In study 3 the modulation of subjective, respiratory and autonomic reactions by arousal expectations was examined. Therefore, caffeine, a respiratory stimulant, or a placebo were administered without the participants’ knowledge. The fourth study examined the influence of the process of worrying, a strategy to deal with unpleasant body symptoms, on defensive responding. Depending on the study design subjective, respiratory and autonomic (skin conductance level, heart rate) parameters were assessed as marker for defensive mobilization. In study 2 and 4 the startle eyeblink response was measured as further index of defensive activation. Besides that in study 2 also the P3 component of the event-related potential, as an index for attentional allocation, was recorded. The main findings of the presented dissertation are the following: Study 1 revealed that 1) only high anxiety sensitive individuals reporting also high suffocation fear respond to lower stimulus intensities with stronger defensive responding, and 2) that this group demonstrated a maladaptive compensatory breathing pattern. Additionally, study 2 exhibited that 1) the startle eyeblink response is relatively inhibited during a mild interoceptive threat, and 2) this inhibition corresponds to an attention allocation towards breathing as indicated by a reduced P3 amplitude to the startle noise as well as subjective report. Furthermore, highly anxiety sensitive individuals showed a more pronounced defensive responding if the interoceptive sensations were unexpected (study 3). Recently, study 4 demonstrated that worry led to an increased defensive response mobilization. All studies are discussed in the context of the theoretical background of the defensive response modulation to exteroceptive and interoceptive sensations with respect to mediating factors. Showing exaggerated defensive responding and maladaptive adaptation processes in high anxious individuals the results point towards the important role of interoceptive sensations in the etiology, maintenance and therapy of mental disorders, especially the anxiety disorders.
Abstract
Alkali ion beams are among the most intense produced by the ISOLDE facility. These were the first to be studied by the ISOLTRAP mass spectrometer and ever since, new measurements have been regularly reported. Recently the masses of very neutron-rich and short-lived cesium isotopes were determined at ISOLTRAP. The isotope 148Cs was measured directly for the first time by Penning-trap mass spectrometry. Using the new results, the trend of two-neutron separation energies in the cesium isotopic chain is revealed to be smooth and gradually decreasing, similar to the ones of the barium and xenon isotopic chains. Predictions of selected microscopic models are employed for a discussion of the experimental data in the region.
Existing literature evidences the association between adolescents’ school self-concept and engagement, both concepts being related to students’ perception of teachers and peers as motivators. However, few longitudinal studies explore the interplay of these factors. The present study aims to close this gap, applying latent cross-lagged panel design to two-wave data from German adolescent students [1088 8th grade students at T1 (Mage = 13.7, SD = 0.53; 53.9% girls) and 845 9th grade students at T2 (Mage = 14.86; SD = 0.57; 55% girls) from the initial sample]. Besides direct effects, three cross-lagged over-time paths were found to be significant: students’ perception of peers as positive motivators (PPMs) at the beginning of 8th grade (T1) positively predicts their behavioral school engagement at the end of 9th grade (T2), as well as emotional school engagement at the beginning of 8th grade positively predicts students’ perception of PPMs 1.5 years later. Furthermore, behavioral school engagement at T1 functions as a predictor of a student’s school self-concept at T2.
In this work, the regioselectivity of different Baeyer-Villiger monooxygenases (BVMOs) for the conversion of selected substrates was reversed or improved by protein engineering. These studies highlight the importance of substrate positioning for the regioselectivity and that the position of the substrate can be efficiently influenced by introducing proper mutations. It was shown that the beneficial mutations for all BVMOs were partly in corresponding positions. Additionally, the sulfoxidation activity and the stability of BVMOs were targeted and improved by applying protein engineering.
Resource and cost constraints in hospitals demand thorough planning of operating room schedules. Ideally, exact start times and durations are known in advance for each case. However, aside from the first case’s start, most factors are hard to predict. While the role of the start of the first case for optimal room utilization has been shown before, data for to-follow cases are lacking. The present study therefore aimed to analyze all elective surgery cases of a university hospital within 1 year in search of visible patterns. A total of 14,014 cases scheduled on 254 regular working days at a university hospital between September 2015 and August 2016 underwent screening. After eliminating 112 emergencies during regular working hours, 13,547 elective daytime cases were analyzed, out of which 4,346 ranked first, 3,723 second, and 5,478 third or higher in the daily schedule. Also, 36% of cases changed start times from the day before to 7:00 a.m., with half of these (52%) resulting in a delay of more than 15 min. After 7:00 a.m., 87% of cases started more than 10 min off schedule, with 26% being early and 74% late. Timeliness was 15 ± 72 min (mean ± SD) for first, 21 ± 84 min for second, and 25 ± 93 min for all to-follow cases, compared to preoperative day planning, and 21 ± 45, 23 ± 61, and 19 ± 74 min compared to 7:00 a.m. status. Start time deviations were also related to procedure duration, with cases of 61–90 min duration being most reliable (deviation 9.8 ± 67 min compared to 7:00 a.m.), regardless of order. In consequence, cases following after 61–90 min long cases had the shortest deviations of incision time from schedule (16 ± 66 min). Taken together, start times for elective surgery cases deviate substantially from schedule, with first and second cases falling into the highest mean deviation category. Second cases had the largest deviations from scheduled times compared to first and all to-follow cases. While planned vs. actual start times differ among specialties, cases of 61–90 min duration had the most reliable start times, with neither shorter nor longer cases seeming to improve timeliness of start times.
Pharmaceutical residues are found in increasing concentrations in the environment and in potable water where they have verifiable effects on aquatic life. Conventional methods for water treatment are not able to sufficiently abate these generally stable compounds. It was found that physical plasma generated directly in water can degrade several of these recalcitrant organic pollutants. Studies on the basic plasma chemical processes for the model system of phenol showed that the degradation is primarily caused by hydroxyl radicals. This was confirmed by reaction chemistry and spin trap enhanced electron paramagnetic resonance spectroscopy (EPR). The degradation of diclofenac and its by-products were investigated in detail to perform a first risk-assessment of the new technology. Findings are not limited to the application of plasma but applicable to other advanced oxidation processes (AOP) that are based on the generation of hydroxyl radicals as well. Additionally, pulsed corona plasma and pulsed electric fields were assessed for their capacity to kill Legionella pneumophila in water. Whereas it was possible to kill L. Pneumophila with both methods, plasma treatment resulted in an enhanced bacterial killing. Therefore, advanced oxidation processes (AOP) and plasma treatment in particular are some of the few feasible approaches to decompose recalcitrant compounds in water.
A New Kind of Permutation Entropy Used to Classify Sleep Stages from Invisible EEG Microstructure
(2017)
The intracellular life cycle of the human immunodeficiency virus (HIV) is modelled using ordinary differential equations (ODEs). Model parameters are obtained from the literature or fitted to experimental data using parameter estimation procedures. Key steps in the life cycle are inhibited singly and in combination to show the effects on viral replication. The results validate the success of highly active antiretroviral therapy (HAART), and in addition DNA nuclear import is identified as a novel influential therapeutic target.
In this work, the discovery, expression and characterization of new eukaryotic Baeyer-Villiger monooxygenases (BVMOs) from yeasts has been shown. A rational design of one of these enzymes led to the identification of key residues to alter the sulfoxidation activity of this group of enzymes. Additionally, in another rational design approach, the cofactor specificity of the BVMO cyclohexanone monooxygenase from Acinetobacter calcoaceticus could be substantially altered to accept the much cheaper and therefore industrially more relevant cofactor NADH.
Body sensations play a crucial role in the etiology and maintenance of diverse anxiety and health problems (e.g., in panic disorder or respiratory diseases) as they may be perceived as threatening and consequently elicit anxious responses. The factors that may affect the perception of bodily sensations as a threat and thus modulate the anxious response to body sensations have so far rarely been studied. Therefore, the present thesis targeted at elucidating the effect of contextual (i.e., the predictability, expectation, and proximity of a threat) and dispositional factors (i.e., tendency to fear arousal sensations or trait fear of suffocation) on the defensive response to body sensations.
In study 1, it was investigated how a personality factor, that is, fear of suffocation, affects the acquisition of fear to body sensations (i.e., mild dyspnea induced by inspiratory resistive loads) and contexts when faced with a predictable and unpredictable respiratory threat (i.e., severe dyspnea). Study 2 aimed at examining the main and interactive effects of the tendency to fear arousal sensations, again a personality trait factor, and current arousal expectations as varied by situational variables on anxious responding to arousal sensations. In this study, expected and unexpected arousal sensations were induced by administering caffeine in coffee or bitter lemon soda, respectively. Moreover, in study 3, it was explored how subjective anxiety, bodily symptoms, and defensive respiratory responses change and might culminate into active defense behavior (i.e., escape/active avoidance) during increasing dyspnea that was evoked by inspiratory resistive loads increasing in intensity. For a detailed analysis of the factors that contribute to the initiation and maintenance of avoidance of or escape from increasing dyspnea, in study 4 changes in subjective, autonomic, somatic reflex and brain responses were analyzed during repeated avoidance of increasing dyspnea.
In study 1, it was demonstrated that only individuals who fear suffocation learned to fear mild dyspnea preceding the onset of severe dyspnea and developed anxiety during a context of unpredictable respiratory threat. Moreover, the data from study 2 indicate that individuals who fear arousal sensations show an increased attention allocation towards unexpected arousal sensations and higher threat appraisal when expecting arousal sensations. Increasing intensity of dyspnea as provoked in study 3 led to increased defensive respiratory responses that were associated with increased symptom reports in individuals with high compared to low fear of suffocation. Moreover, culminating dyspnea elicited repeated avoidance behavior preceded by increases in defensive respiratory mobilization. The analysis of repeated avoidance of increasing dyspnea in study 4 revealed that physiological fear responses might be involved in the initial initiation of this avoidance behavior while no indication of response preparation and physiological arousal was related to persistent avoidance.
Taken together, the present data suggest that the fear of suffocation, as well as the tendency to fear arousal sensations along with the predictability, expectation, or proximity of interoceptive threat, may increase the perceived threat and thus the anxious response to body sensations. Therefore, contextual and dispositional factors may set the stage for the culmination of body sensations into defensive action and might contribute to the development of pathological anxiety and fear of body sensations. The present findings are integrated into the current literature and discussed in relation to the development and maintenance of pathological anxiety and fear of body sensations.
The M protein of Streptococcus canis (SCM) is a virulence factor and serves as a surface-associated receptor with a particular affinity for mini-plasminogen, a cleavage product of the broad-spectrum serine protease plasmin. Here, we report that SCM has an additional high-affinity immunoglobulin G (IgG) binding activity. The ability of a particular S. canis isolate to bind to IgG significantly correlates with a scm-positive phenotype, suggesting a dominant role of SCM as an IgG receptor. Subsequent heterologous expression of SCM in non-IgG binding S. gordonii and Western Blot analysis with purified recombinant SCM proteins confirmed its IgG receptor function. As expected for a zoonotic agent, the SCM-IgG interaction is species-unspecific, with a particular affinity of SCM for IgGs derived from human, cats, dogs, horses, mice, and rabbits, but not from cows and goats. Similar to other streptococcal IgG-binding proteins, the interaction between SCM and IgG occurs via the conserved Fc domain and is, therefore, non-opsonic. Interestingly, the interaction between SCM and IgG-Fc on the bacterial surface specifically prevents opsonization by C1q, which might constitute another anti-phagocytic mechanism of SCM. Extensive binding analyses with a variety of different truncated SCM fragments defined a region of 52 amino acids located in the central part of the mature SCM protein which is important for IgG binding. This binding region is highly conserved among SCM proteins derived from different S. canis isolates but differs significantly from IgG-Fc receptors of S. pyogenes and S. dysgalactiae sub. equisimilis, respectively. In summary, we present an additional role of SCM in the pathogen-host interaction of S. canis. The detailed analysis of the SCM-IgG interaction should contribute to a better understanding of the complex roles of M proteins in streptococcal pathogenesis.
Abstract
This work reports on the spatio-temporal characterization of the multiple current pulse regime of diffuse barrier discharges driven by sine-wave feeding voltage at a frequency of 2 kHz in helium with small nitrogen admixtures. The discharge gap of 3 mm is bounded by glass plates on both plane electrodes. Priority is given to the lateral discharge inhomogeneities, underlying volume- and surface-memory effects, and the breakdown mechanism. Therefore, relevant processes in the discharge volume and on the dielectric surfaces were investigated by ICCD camera imaging and optical emission spectroscopy in combination with electrical measurements and surface charge diagnostics using the electro-optic Pockels effect of a bismuth silicon oxide crystal. The number of current pulses per half-cycle of the sine-wave voltage rises with increasing nitrogen admixture to helium due to the predominant role of the Penning ionization. Here, the transition from the first glow-like breakdown to the last Townsend-like breakdown is favored by residual species from the former breakdowns which enhance the secondary electron emission during the pre-phase of the later breakdowns. Moreover, the surface charge measurements reveal that the consecutive breakdowns occur alternately at central and peripheral regions on the electrode surface. These spatial inhomogeneities are conserved by the surface charge memory effect as pointed out by the recalculated spatio-temporal development of the gap voltage.
Coastal and marginal seas – like the Baltic Sea – serve as natural reaction sites for the turnover and accumulation of land-derived inputs. The main location for the modification and deposition of the introduced material is, in most cases, not the water mass, but the sediment. Its key function as central reactor in the interaction between land and sea has so far been insufficiently studied and assessed. This study was part of the interdisciplinary SECOS project that aimed to identify and evaluate the service functions of sediments in German coastal seas in the context of human use with a focus on the Baltic Sea. One of its goals was to assess sediment functions related to the intermediate storage or final sink of imported material like nutrients and contaminants, and quantify their inventory as well as their mass accumulation rates on multi-decadal to multi-centennial time scales. For that, a detailed examination of the natural and anthropogenic processes that interfere with sediment accumulation in the south-western Baltic Sea basins is essential.
The four stranded G-quadruplexes are important secondary structures of nucleic acids formed by guanosine-rich sequences. Besides the application as scaffold for technological applications, they are involved in many cellular processes such as gene regulation, replication, or maintenance of chromosomal ends. Characteristically, a large diversity of quadruplex structures is observed, whereas the correlation between sequence and structure is still not fully understood. In this thesis, the effects of modified nucleotides on G-quadruplexes were analyzed using NMR-spectroscopy to gain insight into driving forces determining the folding process. Contrary to DNA quadruplexes, the folding landscape of RNA structures is mostly restricted to parallel topologies. Therefore, ribose moieties were introduced into DNA sequences to isolate the effect of the additional hydroxy group. In this way, sequential CHO hydrogen bonds between the 2′-OH and the H8 of the 3′-neighbored anti conformer were identified and subsequently detected within RNA structures. In a second part, 2′-fluoro-2′-deoxyribose was incorporated at positions with guanosine in unfavored syn orientation. Instead of a changed global fold, the direction of the hydrogen bond network in the modified tetrad was reversed. This first example of tetrad inversion within a unimolecular quadruplex yielded a unique (3+1)-hybrid topology with only homopolar stacking interactions. Additionally, the effect was reproduced for another sequence and high-resolution structures were determined. Unfavored interactions between the 2′-fluorine and the narrow groove of the quadruplex were identified as a reason for different sugar conformations and consequent structural rearrangements.
Foot-and-mouth disease virus (FMDV) is a positive-sense RNA virus of the family Picornaviridae that comprises of seven serotypes and is distinguished by a high contagiosity with the ability of rapid spread. Strategies for abatement and control are based on an early detection, quick initiation of retaliatory actions and mass vaccinations. Therefore, aim of the study was the development of a fast and easy method for genome sequencing as well as an investigation into the causes, why some cell lines that are mainly used for vaccine production, are resistant towards FMDV infection. Finally, adaptive sequence changes in different cell culture systems and associated effects on particle stability and immunogenicity were examined.
In case of an outbreak it is of major importance to detect and rapidly characterize the circulating virus isolate to choose an appropriate vaccine to minimize the viral spread. In addition, comprehensive genome analysis of the outbreak strain provides information about the origin of the virus and allows molecular epidemiology. A universal primer set, covering most parts of the open reading frame of the viral genome, was developed to perform quick sequence analyses, independently of the viral serotype (Paper I). Especially in endemic regions, vaccination of susceptible animal species is the main action to combat foot-and-mouth disease (FMD) in an acute outbreak situation as well as a preventive measure. Reasons, why some baby hamster kidney (BHK) cell lines are resistant towards an infection with FMDV, were examined in a second study that narrowed down the cause for this phenomenon to an impaired attachment of the virus to the cell surface. Furthermore, an alternative approach could be developed to successfully adapt the virus to the resistant vaccine-production cell line by using a FMDV-sensitive “wet-nurse” cell line (Paper II). Adaptive changes in the capsid-coding region of the viral genome caused through cultivation and passaging of the virus in different BHK cell systems were the topics of the third study. It was shown that capsid alterations are rather serotype-specific and dependent on the cell line used than influenced by the cell media. Viral titers and neutralization profiles of the adapted isolates were not affected compared to the original viruses (Paper III).
Overall, this work expanded our knowledge on the control and eradication of FMD and will support the global effort to combat the disease.