Ideal dressings of surgical wounds should provide moist, semi‐permeable, and antiseptic environments for optimal wound healing. To maximise patient comfort, surgical dressings must be hypoallergenic, not restrict movement, and allow patients to manage their personal hygiene. From the aspect of health care personnel, dressings should enable visual monitoring of the wound without the need for removing them, thus reducing the number of dressing changes. The active antimicrobial effect of silver cations has been demonstrated by many studies. StopBac is a unique surgical dressing based on the sol‐gel process. Silver cations are bound in a colloidal solution in an organic‐inorganic hybrid organosilicate oligomer. This gel is deposited on a pad using spray atomisation. The result is a polymer nanolayer matrix with prolonged and controlled release of silver ions. This pad forms part of a waterproof hypoallergenic transparent adhesive bandage. The goal of this study was to prospectively evaluate the ability of StopBac to prevent surgical site infections (SSIs) in patients after abdominal surgery. The secondary goal was to compare costs and determine the properties of this new material. A total of 32 patients were included in the study. The patients were followed up until their surgical wounds healed completely. An SSI occurred only in one patient.
In this work we have prepared and characterized several types of nanofibers to create unique nanofiber substrates as a medical device for long-term non-healing wound treating using cellular products. Our nanofibers are based on biodegradable polymers such as polycaprolactone (PCL), poly(lactide-cocaprolactone) (PLCL), poly(vinyl)alcohol (PVA), polyethyleneimine (PEI) and hyaluronic acid. Prepared nanofiber carriers were specifically adjusted for the autologous MSCs (mesenchymal stromal cells) applications on the chronic wound. In addition, the nanofiber sheets were constructed as a biodegradable material to guarantee proper timing of its resorption in a chronic wound during the healing process. Furthermore, the effect of growth factors on MSC proliferation was tested. The release of bFGF from adsorbed lipid particles was tested. The results show increased proliferation of MSCs. Despite fast increasing advanced technologies in healthcare, chronic wound treating tends to be still very difficult and challenging. Our developed nanofiber-based dressings are very promising for poorly healing wound therapy using MSCs. The main goal is to make chronic wound healing more effective and decrease a time of healing process.
Chronic wounds represent a significant socio-economic problem, and the improvement of their healing is therefore an essential issue. This paper describes the preparation and biological properties of a novel functionalized nanofiber wound dressing consisting of a polycaprolactone nanofiber carrier modified by a drug delivery system, based on the lipid particles formed by 1-tetradecanol and encapsulated gentamicin and tocopherol acetate. The cytotoxicity of extracts was tested using a metabolic activity assay, and the antibacterial properties of the extracts were tested in vitro on the bacterial strains Staphylococcus aureus and Pseudomonas aeruginosa. The effect of the wound dressing on chronic wound healing was subsequently tested using a mouse model. Fourteen days after surgery, the groups treated by the examined wound cover showed a lower granulation, reepithelization, and inflammation score compared to both the uninfected groups, a lower dermis organization compared to the control, a higher scar thickness compared to the other groups, and a higher thickness of hypodermis and bacteria score compared to both the uninfected groups. This work demonstrates the basic parameters of the safety (biocompatibility) and performance (effect on healing) of the dressing as a medical device and indicates the feasibility of the concept of its preparation in outpatient conditions using a suitable functionalization device.
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