Advanced search
ToC Feed |

K. Rossiter, A.J. Cooper, D. Voegeli, B.A. Lwaleed
Journal of Wound Care, Vol. 19, Iss. 10, 14 Oct 2010, pp 440 - 446

Objective: To investigate possible effects of honey on angiogenesis, using in vitro analogues of
angiogenesis and an endothelial proliferation assay.
Method: Using an in vitro rat aortic ring assay we compared pseudotubule formation by medicinal honey (Activon), supermarket honey (Rowse) and a honey-based ointment (Mesitran), with that of artificial honey (70% w/w sugar glucose/fructose). Pseudotubules were analysed using TCS Cellworks AngioSys software. The Angiokit sytem was used to validate the results. Using the MTT [3-(4,5-Dimethylthiazol-2-yl)-2,5-Diphenyltetrazolium. Bromide] assay, toxicity was also assessed on human umbilical vein endothelial cells (HUVEC) directly adherent to plastic.
Results: All honey preparations stimulated pseudotubule formation, maximal at around 0.2% honey. Medicinal honeys were more active than Rowse. The effect was not attributable to the sugar content. Among the honeys tested, the Manuka-based Activon preparation reduced residual viable biomass compared with a sugar control at >0.32% v/v concentration. Rowse had a similar effect only at 2.5%, the highest dose tested.
Conclusion: The influence of honey constituents on angiogenesis in a wound dressing context is likely to be positive, but would depend on the effective dilution of the honey and the penetration of the active constituents against an osmotic gradient. The extent to which this occurs has yet to be established.
Conflict of interest: This work was conceived, designed and executed by the authors. Medical honey preparations were supplied unconditionally but free of charge by the distributors.

Return to article listing

To view this article

information You cannot access this article because you do not have a valid subscription. Please use the options below to create a subscription. If you have any queries about your account please contact our subscriptions department or telephone free 0800 137201 (UK callers only) or +44 (0)1722 716997 for callers outside the UK.

Existing users sign in Personal subscription 24 Hour access Pay per article