Abstract
BackgroundEnhancement of antimicrobial plant products e.g. pomegranate extract by copper (II) sulphate is known. Such combinations have applications in various settings, including the identification of novel compositions to study, treat and control infection.MethodsA combination of white tea (WT) (made allowing 10 minutes infusion time at 100°C) was combined with 4.8 mM copper (II) sulphate and tested for antimicrobial effect on the viability of Staphylococcus aureus NCTC 06571. Comparisons were made with green (GT) and black (BT) teas. A WT sub-fraction (WTF < 1000 Da) was tested with copper (II) sulphate and 4.8 mM vitamin C. pH measurements of samples were taken for controls and to observe any changes due to tea/agent interaction. Catalase was used to investigate hydrogen peroxide release. UV-vis. was used to compare WT and WTF.ResultsA 30 minute incubation at room temperature of copper (II) sulphate alone and combined with WT reduced the viability of S. aureus NCTC 06571 by c.a 1 log10 cfu mL-1. GT and BT with copper (II) sulphate negated activity to buffer values. Combined with copper (II) sulphate, vitamin C, WTF and, vitamin C plus WTF all reduced the viability of S. aureus NCTC 06571 by c.a. 3.5 log10 cfu mL-1. Independent experiments showed the results were not due to pH effects. Adding WT or WTF to copper (II) sulphate resulted in increased acidity. Copper (II) sulphate alone and combined with WT required c.a 300 μg mL-1 (final concentration) catalase to restore S. aureus viability, WTF with copper (II) sulphate and added vitamin C required c.a 600 μg mL-1. WT and WTF UV-visible spectra were similar.ConclusionsWT showed no efficacy in the combinations tested. WTF was enhanced with copper (II) sulphate and further with vitamin C. WT and WTF increased acidity of copper (II) sulphate possibly via the formation of chemical complexes. The difference in WT/WTF absorbance possibly represented substances less concentrated or absent in WTF. Investigations to establish which WTF component/s and in what proportions additives are most effective against target organisms are warranted.
Highlights
Enhancement of antimicrobial plant products e.g. pomegranate extract by copper (II) sulphate is known
GT and BT reduced the antimicrobial efficacy of copper (II) sulphate when compared to a copper (II) sulphate control whereas white tea (WT)
Levels of copper found in white tea & antimicrobial efficacy of the same and higher levels of copper (II) sulphate Following analysis of 17 different white tea samples the levels of copper found were shown to have a range of 0.12 - 0.17 mg L-1 and a mean of 0.14 mg L-1 (± 0.03) similar to levels in other studies cited by Karak & Bhagat [20] (Table 1)
Summary
Enhancement of antimicrobial plant products e.g. pomegranate extract by copper (II) sulphate is known Such combinations have applications in various settings, including the identification of novel compositions to study, treat and control infection. Considerable efforts are being made to combat hospital and community acquired infections worldwide as well as reducing contamination within a range of settings The incidences of both methicillin-resistant Staphylococcus aureus (MRSA) and other organisms e.g. Clostridium difficile demonstrate the requirement for an improved approach to preventing and rapidly controlling these and other important infections and sources of contamination [1,2]. This approach is driven by the potential imminent failure of current therapies against a range of resistant pathogens and by the necessity to develop low cost preparations for use in diverse geographical locations
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
