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The exact qualitative and quantitative analysis of wound healing processes is a decisive prerequisite for optimizing wound care and for therapy control. Transepidermal water loss (TEWL) measurements are considered to be the standard procedure for assessing the progress of epidermal wound healing. The damage to the stratum corneum correlates with an increased loss of water through the skin barrier. This method is highly susceptible to failure by environmental factors, in particular by temperature and moisture. This study was aimed at comparing TEWL measurements and in vivo laser scanning microscopy (LSM) for the characterization of the epidermal wound healing process. LSM is a high-resolution in vivo method permitting to analyze the kinetics and dynamics of wound healing at a cellular level. While the TEWL values for the individual volunteers showed a wide scattering, LSM permitted the wound healing process to be clearly characterized at the cellular level. However, a comparison between the two methods was very difficult, because the results provided by LSM were images and not numerical. Therefore, a scoring system was set up which evaluates the stages of wound healing. Thus, the healing process could be numerically described. This method is independent of any environmental factors. Providing morphologically qualitative and numerically quantitative analyses of the wound healing process and being far less vulnerable to failure, LSM is advantageous over TEWL.
The effect of water-filtered infrared-A radiation (wIRA) on normal skin flora was investigated by generating experimental wounds on the forearms of volunteers utilizing the suction blister technique. Over 7 days, recolonization was monitored parallel to wound healing. Four groups of treatment were compared: no therapy (A), dexpanthenol cream once daily (B), 20 min wIRA irradiation at 30 cm distance (C), and wIRA irradiation for 30 min once daily together with dexpanthenol cream once daily (D). All treatments strongly inhibited the recolonization of the wounds. Whereas dexpanthenol completely suppressed recolonization over the test period, recolonization after wIRA without (C) and in combination with dexpanthenol (D) was suppressed, but started on day 5 with considerably higher amounts after the combination treatment (D). Whereas the consequence without treatment (A) was an increasing amount of physiological skin flora including coagulase-negative staphylococci, all treatments (B–D) led to a reduction in physiological skin flora, including coagulase-negative staphylococci. In healthy volunteers, wIRA alone and in combination with dexpanthenol strongly inhibited bacterial recolonization with physiological skin flora after artificial wound setting using a suction-blister wound model. This could support the beneficial effects of wIRA in the promotion of wound healing.
Currently, there are no generally accepted definitions for wounds at risk of infection. In clinical practice, too many chronic wounds are regarded as being at risk of infection, and therefore many topical antimicrobials – in terms of frequency and duration of use – are applied to wounds. Based on expert discussion and current knowledge, a clinical assessment score was developed. The objective of this wounds at risk (W.A.R.) score is to allow decision-making on the indication for the use of antiseptics on the basis of polihexanide. The proposed clinical classification of W.A.R. shall facilitate the decision for wound antisepsis and allow an appropriate general treatment regimen with the focus on the prevention of wound infection. The W.A.R. score is based on a clinically oriented risk assessment using concrete patient circumstances. The indication for the use of antiseptics results from the addition of differently weighted risk causes, for which points are assigned. Antimicrobial treatment is justified in the case of 3 or more points.
Chromosomal abnormalities, like deletions, amplifications, inversions or translocations, are recurrent features in haematological malignancies. However, the precise molecular breakpoints are frequently not determined. Here we describe a rapid analysis of genetic imbalances combining fine tiling comparative genomic hybridization (FT-CGH) and ligation-mediated PCR (LM-PCR). We clarified an inv(14)(q11q32) in a case of T cell acute lymphoblastic leukaemia with a breakpoint in the TRA/D in 68% of cells detected by fluorescence in situ hybridization. FT-CGH showed several mono- and biallelic losses within TRA/D. LM-PCR disclosed a TRA/D rearrangement on one allele. The other allele revealed an inv(14)(q11q32), joining TRDD2 at 21,977,000 of 14q11 together with the IGH locus at 105,948,000 and 3′-sequence of TRAC at 22,092,000 joined together with IGHV4–61 at 106,166,000. This sensitive approach can unravel complex chromosomal abnormalities in patient samples with a limited amount of aberrant cells and may lead to better diagnostic and therapeutic options.
Self-similar sets are a class of fractals which can be rigorously defined and treated by mathematical methods. Their theory has been developed in n-dimensional space, but we have just a few good examples of self-similar sets in three-dimensional space. This thesis has two different aims. First, to extend fractal constructions from two-dimensional space to three-dimensional space. Second, to study some of the properties of these fractals such as finite type, disk-likeness, ball-likeness, and the Hausdorff dimension of boundaries. We will use the neighbor graph tool for creating new fractals, and studying their properties.
Aim: The efficacy of antimicrobial compounds included in wound dressings has been determined using the quantitative suspension test according to EN 13727 before. However, as suspension tests are not an accurate reflection of the conditions under which wound antiseptics are used, it was investigated if a disc carrier test would yield results simulating practical conditions on wound surfaces. A silver-leaching foam wound dressing was used for evaluation of the disc carrier test method. Method: The disc carriers consisted of circular stainless-steel discs measuring 2 cm in diameter and 1.5 mm in thickness, complying with the requirements of EN 10088-2. Carriers were contaminated with Staphylococcus aureus, methicillin-resistant S. aureus or Pseudomonas aeruginosa, respectively, together with an artificial wound secretion and left to dry at room temperature for 30 min. The wound dressings being tested were placed on the discs for the length of the exposure time, and after neutralization by thioglycolate in phosphate-buffered saline the number of surviving test organisms was then counted. The logarithmic reduction factor was calculated from the difference between the initial inoculum and the number of recovered test organisms. Results: The disc carrier test allowed determination of an antimicrobial efficacy in a realistic setting. It also imposed more stringent requirements on efficacy over time than the quantitative suspension test. The silver foam wound dressing showed a time-dependent antimicrobial efficacy. After 24-hour application time, the reduction factors against S. aureus, P. aeruginosa and the methicillin-resistant S. aureus were 1.9 ± 0.15, 2.1 ± 0.14 and 3.1 ± 0.18, respectively. Conclusion: The disc carrier test was a useful method for testing the antimicrobial efficacy of a foam silver dressing. The antimicrobial dressing exhibited an antimicrobial effect after 3 h and achieved a reduction >2 log against the tested bacterial strains in the presence of a simulated wound secretion after 24 h.
Triple helix-forming oligonucleotides (TFOs) are one of the most specific DNA duplex binding agents and offer new perspectives towards oligonucleotide-mediated gene regulation and manipulation. However, the poor thermodynamic stability of DNA triplexes under physiological conditions limits a successful application in the antigene strategy. Thus, the conjugation of TFOs with small triplex-specific binding ligands is a promising approach to stabilize the formed complexes and to enhance their overall binding affinity. The present study focused on the synthesis of novel TFO conjugates with triplex-binding indolo[3,2-b]quinoline derivatives (PIQ) and on their ability to form and stabilize intermolecular triplexes through their recognition of a duplex target. During the course of the work the thermodynamics of conjugate binding and structural aspects of drug-DNA interactions have been characterized by a variety of spectroscopic and calorimetric techniques.
Protein quality control systems are essential for the viability and growth of all living organisms. They protect the cell from irreversible protein aggregation. Because the frequency of protein misfolding, which ultimately results in protein aggregation, varies with the environmental conditions, the amount and activity of protein quality systems have to be accurately adapted to the rate of protein misfolding. The main goal of this thesis was to gain detailed molecular insights into the transcriptional and post-translational regulation of these protein quality control networks in the ecologically, medically and industrially important phylum of low GC, Gram-positive bacteria. In these bacteria the core protein quality control systems are under the transcriptional control of the global repressor CtsR. In a first study it was demonstrated that the arginine kinase McsB is not responsible for the regulation of CtsR activity during heat stress, as was concluded by others on the basis of previous in vitro data. Rather, it was demonstrated that CtsR acts as an intrinsic thermosensor that adapts its activity to the surrounding temperature. CtsR displays a decreased DNA binding at higher temperatures, which leads to induction of transcription of the protein quality control systems under these conditions. This CtsR feature is conserved in all low GC, Gram-positive bacteria. However, the CtsR proteins of various low GC, Gram-positive species do not have the same temperature optima. CtsR responds to heat in a species-specific manner according to their corresponding growth temperature. Detailed analysis revealed that a highly conserved tetra-glycine loop within the winged helix-turn-helix domain of CtsR is responsible for thermosensing. Dual control of CtsR activity during different stresses was demonstrated for the first time in this work. In addition to heat-dependent de-repression, CtsR is inactivated by thiol-specific stress conditions. This latter de-repression depends on a molecular redox-switch that is independent of CtsR auto-regulation. In Bacillus subtilis and its closest relatives the McsA/McsB stress-sensing complex is responsible for CtsR de-repression during redox stress conditions. McsA is able to sense the redox state of the cell via its highly conserved cysteine residues. When these cysteines are reduced, McsA is able to bind and inhibit McsB. But when these cysteine residues are oxidized, McsB is released from McsA. Thereby, McsB is activated and removes CtsR from the DNA. However, the McsA/McsB complex is not present in all low GC, Gram-positive bacteria. In the species lacking this complex, ClpE is able to act as a redox-sensor probably via its highly conserved N-terminal zinc finger domain. When these cysteine residues are oxidized, ClpE is activated which results in CtsR de-repression. In addition to the transcriptional regulation of CtsR low GC, Gram-positive protein quality control systems are regulated post-transcriptionally. The expression of the McsA/McsB adaptor pair is regulated by CtsR. However, McsB activity is also tightly regulated by three different regulatory proteins (McsA/ClpC/YwlE). McsB is needed to target specific substrates to ClpC, either for refolding or degradation by the ClpCP protease. It was demonstrated that only the auto- phosphorylated form of McsB is able to bind to its substrates. This McsB function is inhibited in non-stressed cells by a direct interaction with ClpC. Consequently, McsB is activated by a release from ClpC during protein stress. In addition, McsB activation depends on the presence of its activator McsA. Accordingly, McsB cannot be activated as an adaptor protein during thiol-specific stress because McsA is no longer able to bind to McsB under these conditions. However, also active McsB is subject to post-translational control. Activated McsB is either de-phosphorylated by McaP or degraded by ClpCP ensuring an appropriate shut-down of the McsB adaptor. Both McaP and ClpC inhibit McsB activity with different intensities. ClpC possesses a stronger impact on McsB activity than McaP but both proteins are needed for an adequate silencing of McsB activity. In addition, it was shown for the first time that B. subtilis McsB is a global adaptor that influences the stability of multiple proteins. The B. subtilis ClpC protein is unlike most members of the Hsp100 family because it not only requires several adaptor proteins for substrate recognition but also for its general ATP- dependent activity. Biochemical analysis revealed how ClpC is activated by distinct adaptor proteins. McsB modulates ClpC activity by regulatory phosphorylation of arginine residues. Moreover, McaP (formerly YwlE) was identified as an arginine phosphatase that modulates the McsB mediated ClpC activity. MecA, another known adaptor protein for ClpC, activates ClpC independently of these arginine phosphorylations, which demonstrates the existence of multiple pathways for ClpC activation.