Clinical Newsletter
Regular updates on our latest clinical studies.
Onze teams van Onderzoek en Ontwikkeling zijn wereldwijd werkzaam, en creëren synergieën met onze deskundigheid en verwante vakdisciplines. Wij wisselen internationaal veel van gedachten met onafhankelijke, gespecialiseerde instituten, belangrijke opinieleiders en kennisverspreiders om zo samenwerkings- en kennismanagement op het hoogste niveau te kunnen garanderen. In het kader daarvan voeren wij grote studies uit die voortdurend op congressen in de vorm van posters of lezingen van onze partners, op symposia en in workshops worden gepresenteerd, en ook in befaamde wetenschappelijke tijdschriften worden gepubliceerd. De voor het grootste deel door onafhankelijke deskundigen beoordeelde, op bewijs gebaseerde vakpublicaties stellen wij u graag in deze databank ter beschikking:
In the treatment of chronic wounds, it is necessary to establish a physiological wound milieu to improve healing. Application of collagen as wound dressing has been described as beneficial as it possesses the ability to reduce elevated levels of proteases, cytokines, and free radicals. Consequently, a wide range of wound dressings based on collagen have been developed. Native collagen is susceptible to alterations because of influences during the production process; to minimize effects on the molecule itself collagen wound dressings are usually aseptically produced. Common sterilization methods (autoclaving, irradiation, and ethylene oxide (EtO) treatment) can induce changes in the protein chemistry and physical properties, potentially affecting the absorption rate, mechanical strength, or performance. In this study, we have evaluated the influence of gamma- and beta-irradiation as well as EtO sterilization on the binding capacity of collagen type I for selected proteases and cytokines associated with nonhealing wounds. Although a pronounced effect on the physical properties of the collagen was found, there was no significant loss in the binding affinity for polymorphonuclear elastase, matrix metalloproteinase-2, and interleukin-1beta, or in the antioxidant capacity.
Wound healing is compromised by critical colonization and infection with bacteria. Hence, antimicrobial agents are used clinically to decrease the bacterial load and promote wound healing. Polihexanide (PHMB) has been found to be effective against a broad spectrum of micro-organisms and is increasingly utilized in rinsing solutions or in combination with wound dressings because of its good biocompatibility. In the present study, a co-culture of human keratinocytes and Staphylococcus aureus was established to serve as an in vitro model for infected wounds. Incubation of keratinocytes with increasing concentrations of S. aureus led to a dose-dependent decline of cell viability and proliferation. Lactate dehydrogenase release and interleukin-8 liberation were found to be elevated under these conditions. Polihexanide dose-dependently was able to protect keratinocytes from bacterial damage and re-establish normal human cell proliferation in vitro. Furthermore, a dressing consisting of biocellulose derived from Acetobacter xylinum with the addition of polihexanide was adept to safeguard keratinocytes against S. aureus. In conclusion, the co-culture system presented embodies a valuable tool as a model system for infected cells in a non-healing wound. Furthermore, the results obtained support the favorable function of polihexanide in the treatment of infected chronic wounds.
Infection may lead to the formation of a chronic wound or is a common complication during their treatment. Rather than relying on just debriding and cleansing the wound, additional therapeutic strategies are commonly applied in an attempt to prevent infection. Therefore, wound dressings combined with antimicrobial agents such as silver, povidine iodine, or polihexanide are increasingly utilized in the treatment of critical colonized or infected chronic wounds. Polihexanide is regarded first choice as therapy option because of its good skin tolerance beside its antimicrobial effects. Furthermore, a positive influence of polihexanide on wound closure was observed in a study with aseptic wounds in piglets. Moreover, polihexanide is able to induce cell proliferation in vitro. In vitro test systems provide valuable tools in the study of substance or material effects on cells. They use highly defined culture conditions and avoid the complex mechanisms which occur in vivo and thus allow the direct measurement of the influence on cell viability and proliferation. For instance, the anti-oxidative effect can be determined and the antimicrobial activity measured in vitro. Furthermore, a co-culture system of HaCaT keratinocytes and Staphylococcus aureus was used to test the capacity of polihexanide to protect the cells from the bacterial damage. Although antiseptics have a lower potency to induce bacterial resistance than antibiotics, concerns have been expressed regarding the overuse of antiseptics and the possible emergence of bacterial adaptation. Hence, an experimental system using microplatelaser-nephelometry was employed to test the adaptation capacity of Staphylococcus aureus during repeated treatment with polihexanide.
Patients with chronic venous insufficiency and ulceration can have additional problems with chronic oedema, if a combination of venous and lymphatic insufficiency is present. Standard leg ulcer bandaging systems may not be suitable for reducing chronic oedema. This article provides the opportunity for practitioners to learn more about oedema in patients with CVI and to reflect on their current bandaging practice.
A clinical pathway (CP) was developed and implemented to improve treatment outcomes for patients with venous leg ulcers. The CP and products (Rosidal® sys, Suprasorb® A, Suprasorb® P, and Suprasorb® C, Lohmann & Rauscher GmbH, Rengsdorf, Germany) were tested by case evaluation. Patients from the center were examined to determine his or her general condition, associated factors, wound type and stage, wound evolution, quality of life (QOL), treatment efficacy, and costs. Patients with venous leg ulceration (N = 20) were recruited to the clinical evaluation. Examination was performed upon presentation, and then at 2-week intervals for 12 weeks. The patients were then followed until ulcer closure. The outcome of the study group (SG) was compared to the results of a randomly selected patient control group (CG) at the center before implementing the clinical pathway. Statistic evaluation was performed using StatXact 5.0, double sided (α = 0.05) for paired and Wilcoxon test, and unpaired with Mann-Whitney (N = 20, [10/10]). After implementation, a statistically significant (P < 0.005) shorter period for ulcer closure was demonstrated for the SG when compared to previous treatment given to the CG. In the SG, 5/10 ulcers closed within 12 weeks versus 3/10 in the CG. An improvement in QOL was noted for the SG (P < 0.05 for the combined parameters, and P < 0.005 for pain), as well as cost savings (P < 0.05). The CP applied throughout the complete care chain improved quality of treatment outcomes and made effective use of resources and materials.