A rapid and simple method for the determination of potyhexamethylene biguanide (polyhexanide, PHMB) in liquid and gel-like pharmaceutical formulations by means of high performance liquid chromatography coupled to di...A rapid and simple method for the determination of potyhexamethylene biguanide (polyhexanide, PHMB) in liquid and gel-like pharmaceutical formulations by means of high performance liquid chromatography coupled to diode-array detection (HPLC DAD) was devel- oped. Best separation was achieved using a cyanopropyl bonded phase (Agilent Zorbax Eclipse XDB-CN column 4.6mm x 75 mm with particle size of 3.5 μm) as well as gradient elution consisting of acetonitrile/deionized water at a flow rate of 1.0 mL/min. The optimized and applied chromatographic conditions permitted separation of polyhexanide from interacting raatrix with subsequent detection at a wavelength of 235 nm with good sensitivity. The method validation was carried out with regard to the guidelines for analytical procedures demanded by the International Conference on Harmonisation (ICH). Mean recoveries of 102% and 101% for gel-like as well as liquid preparations were obtained. Suitable repeatability as well as intermediate precision could bc achieved with limits of detection ≤0.004 mg/mL for both formulations, equivalent to ≤0.004% PHMB concerning sample preparation. Determination of PHMB was accomplished without tedious sample preparation. Interacting matrix could be eliminated by the chromatographicprocedure with excellent performance of system suitability. All analytical requirements were fulfilled permitting a reliable and precise determination of PHMB in pharmaceuticals. Further- more, the developed method was applied to stability testing of pharmaceutical preparations containing PHMB.展开更多
In this study,we used citric acid(CA)as a crosslinking agent,mixed with polyhexamethylene biguanide,to perform a pad-dry-cure treatment on wool fabrics to study its antimicrobial effects and physical properties.
Background:Hard-to-heal wounds are often compromised by the presence of biofilm.This presents an infection risk,yet traditional antimicrobial wound care products and systemic antibiotics are often used despite the unc...Background:Hard-to-heal wounds are often compromised by the presence of biofilm.This presents an infection risk,yet traditional antimicrobial wound care products and systemic antibiotics are often used despite the uncertainty of therapeutic success and wound progression.The aim of this study was to investigate the clinical impact of a next-generation anti-biofilm Hydrofiber wound dressing(AQUACEL Ag+Extra[AQAg+E])in hard-to-heal wounds that had previously been treated unsuccessfully with traditional silver-,iodine-or polyhexamethylene biguanide(PHMB)-containing dressings and products and/or systemic antibiotics.Methods:Clinical case study evaluations of the anti-biofilm dressing were conducted,where deteriorating or stagnant wounds were selected by clinicians and primary dressings were replaced by the anti-biofilm dressing for up to 4 weeks,or as deemed clinically appropriate,with monitoring via case report forms.The data was stratified for cases where traditional silver-,iodine-or PHMBcontaining products,or systemic antibiotics,had been used prior to the introduction of the antibiofilm dressing.Results:Sixty-five cases were identified for inclusion,wounds ranging in duration from 1 week to 20 years(median:12 months).In 47(72%)cases the wounds were stagnant,while 15(23%)were deteriorating;3 wounds were not recorded.After an average of 4.2 weeks of management with the anti-biofilm dressing(range:1–11 weeks),in 11(17%)cases the wounds had healed(i.e.complete wound closure),40(62%)wounds improved,9(14%)wounds remained the same and 5(8%)wounds deteriorated.Conclusions:The introduction of this anti-biofilm dressing into protocols of care that had previously involved wound management with traditional antimicrobial products and/or antibiotics was shown to facilitate improvements in the healing status of most of these hard-to-heal wounds.Dressings containing proven anti-biofilm technology,in combination with antimicrobial silver and exudate management technology,appear to be an effective alternative to traditional antimicrobial products and antibiotics in the cases presented here.The use of antimicrobial wound dressings that contain anti-biofilm technology may have a key role to play in more effective wound management and antibiotic stewardship.展开更多
文摘A rapid and simple method for the determination of potyhexamethylene biguanide (polyhexanide, PHMB) in liquid and gel-like pharmaceutical formulations by means of high performance liquid chromatography coupled to diode-array detection (HPLC DAD) was devel- oped. Best separation was achieved using a cyanopropyl bonded phase (Agilent Zorbax Eclipse XDB-CN column 4.6mm x 75 mm with particle size of 3.5 μm) as well as gradient elution consisting of acetonitrile/deionized water at a flow rate of 1.0 mL/min. The optimized and applied chromatographic conditions permitted separation of polyhexanide from interacting raatrix with subsequent detection at a wavelength of 235 nm with good sensitivity. The method validation was carried out with regard to the guidelines for analytical procedures demanded by the International Conference on Harmonisation (ICH). Mean recoveries of 102% and 101% for gel-like as well as liquid preparations were obtained. Suitable repeatability as well as intermediate precision could bc achieved with limits of detection ≤0.004 mg/mL for both formulations, equivalent to ≤0.004% PHMB concerning sample preparation. Determination of PHMB was accomplished without tedious sample preparation. Interacting matrix could be eliminated by the chromatographicprocedure with excellent performance of system suitability. All analytical requirements were fulfilled permitting a reliable and precise determination of PHMB in pharmaceuticals. Further- more, the developed method was applied to stability testing of pharmaceutical preparations containing PHMB.
文摘In this study,we used citric acid(CA)as a crosslinking agent,mixed with polyhexamethylene biguanide,to perform a pad-dry-cure treatment on wool fabrics to study its antimicrobial effects and physical properties.
文摘Background:Hard-to-heal wounds are often compromised by the presence of biofilm.This presents an infection risk,yet traditional antimicrobial wound care products and systemic antibiotics are often used despite the uncertainty of therapeutic success and wound progression.The aim of this study was to investigate the clinical impact of a next-generation anti-biofilm Hydrofiber wound dressing(AQUACEL Ag+Extra[AQAg+E])in hard-to-heal wounds that had previously been treated unsuccessfully with traditional silver-,iodine-or polyhexamethylene biguanide(PHMB)-containing dressings and products and/or systemic antibiotics.Methods:Clinical case study evaluations of the anti-biofilm dressing were conducted,where deteriorating or stagnant wounds were selected by clinicians and primary dressings were replaced by the anti-biofilm dressing for up to 4 weeks,or as deemed clinically appropriate,with monitoring via case report forms.The data was stratified for cases where traditional silver-,iodine-or PHMBcontaining products,or systemic antibiotics,had been used prior to the introduction of the antibiofilm dressing.Results:Sixty-five cases were identified for inclusion,wounds ranging in duration from 1 week to 20 years(median:12 months).In 47(72%)cases the wounds were stagnant,while 15(23%)were deteriorating;3 wounds were not recorded.After an average of 4.2 weeks of management with the anti-biofilm dressing(range:1–11 weeks),in 11(17%)cases the wounds had healed(i.e.complete wound closure),40(62%)wounds improved,9(14%)wounds remained the same and 5(8%)wounds deteriorated.Conclusions:The introduction of this anti-biofilm dressing into protocols of care that had previously involved wound management with traditional antimicrobial products and/or antibiotics was shown to facilitate improvements in the healing status of most of these hard-to-heal wounds.Dressings containing proven anti-biofilm technology,in combination with antimicrobial silver and exudate management technology,appear to be an effective alternative to traditional antimicrobial products and antibiotics in the cases presented here.The use of antimicrobial wound dressings that contain anti-biofilm technology may have a key role to play in more effective wound management and antibiotic stewardship.
