Effects of Glycyrrhetic Acid and other Chemical Components of Shakuyakukanzoto on Cutaneous Microcirculation in Humans

The purpose of this study was to explore dose dependent vasodilation responses of the individual compounds of Shakuyakukanzoto (SKT), a 1:1 combination of extracts from Paeony and Licorice roots: glycyrrhetic acid (GA), paeoniflorin (PF), and isoliquiritigenin (ISO). 20 young, healthy participants (13M/7W) had four intradermal microdialysis fibers placed in the forearm skin for local delivery of: 1) control (diluent), 2) GA, 3) PF, or 4) ISO at doses of 1, 10, 50, or 100 μm. Cutaneous red cell flux, an index of skin blood flow, was measured by laser‐Doppler flowmetry. Blood pressure (BP) was monitored continuously during fixed measurement periods via finger photo‐plethsmography (Finapres). Cutaneous vascular conductance (CVC) was derived as red cell flux divided by BP and was normalized as a percentage of baseline (%CVCbl, saline at 4 μl/min) and the maximum CVC (%CVCmax, 28mM sodium nitroprusside at 4 μl/min, local temperature 43°C). Mean CVC did not statistically differ between baseline and individual compound plateau (average of last 5 minutes of infusion) at any dose. The peak flux was significantly higher from baseline at doses 50 and 100 μm for control (56.17±13.32 vs. 96.73±20.32 and 44.64±5.68 vs. 80.21±9.54), PF (62.70±10.09 vs. 115.72±16.16 and 62.37±16.2 vs. 150.21±34.26), GA (48.37±4.41 vs. 71.76±7.16 and 58.36±13.68 vs. 91.51±3.41), and ISO (96.50±23.20 vs. 128.57±27.90 and 44.95±8.78 vs. 91.18±20.37) (p<0.05). However, peak CVC was significantly higher only for GA at dose 50 μm, as well as for control and PF at dose 100 μm compared to their respected baselines (GA: 0.60±0.06 vs. 1.01±0.11, control: 0.61±0.09 vs.1.55±0.61, PF: 0.81±0.20 vs. 1.30±0.30, p<0.05). There were no other significant differences between the control and the compounds for change in CVC from baseline to peak (ΔCVC), %CVCbl, or %CVCmax. There were no significant differences between doses 1, 10, or 50 as compared to 100 μm for other variables. These results suggest that the doses may be lower or below the threshold to cause a vasodilatory effect. Future studies that investigate higher doses of these compounds may be needed. Support or Funding Information The University of Oxford Systems Biology Project sponsored by Tsumura.