Past and present postgraduate students


| MPharm | 2005 -2006
The percutaneous absorption and total anti-oxidant activity of Rooibos Tea Aspalathus linearis flavonoids.

The aqueous extract of rooibos has been used for more than three hundred years since its discovery by the indigenous people. Currently, rooibos is gaining popularity in the cosmetic industry and incorporation of rooibos extracts in topical cosmetic formulations has become a trend in benefiting from rooibos. Both topical and intestinal absorption of rooibos tea were investigated. The transport of aspalathin in the unfermented (green) rooibos aqueous extracts and aqueous solution of pure aspalathin were studied.

The percutaneous permeation experiments were conducted by vertical Franz diffusion cells using human female abdominal skin obtained from patients underwent cosmetic surgery. The green rooibos extract and pure aspalathin solution buffered in phosphate buffer system (pH 5.5) were applied on to the skin for 12 hours. Samples of the permeants were obtained from the receptor fluid phase and from the stratified layers of the skin by using the tape-stripping technique and analysed by HPLC.

In vitro intestinal epithelial transport experiments were carried out by using Caco-2 cell monolayers, isolated and culture from human colonic adenocarcinoma cells, in a six-well transwell system. The green rooibos extract and pure aspalathin solution buffered in phosphate buffer system (pH 7.4) were applied on to the cell monolayers and incubated for 2 hours. Samples were obtained from the basolateral phase at time intervals predetermined and analysed by HPLC.

Less than 0.1 % of the applied dose of aspalathin permeated the skin. Most of the permeated aspalathin accumulated in the stratum corneum. Up to almost 100 % transport of aspalathin occurred across the Caco-2 cell monolayers at a concentration dependent manner. Better absorption was observed with the green rooibos extract than with the pure aspalathin solution across the Caco-2 cell monolayers. A greater amount of aspalathin transport occurred across the in vitro intestinal epithelium than the skin.



Aspalathus linearis | Fabaceae | rooibos | flower | botanical  - Clanwilliam, South Western Cape, South Africa [2009 © alvaroviljoen.com]