https://www.selleckchem.com/products/IC-87114.html Low current intensity iontophoresis treatments have increased skin perfusion over 700% from baseline potentially altering drug clearance from or diffusion to the targeted area. To determine the effects of a preceding 10-minute ice massage on subcutaneous dexamethasone sodium phosphate (Dex-P) concentration and skin perfusion during and after a 4-mA iontophoresis treatment. Controlled laboratory study. Research laboratory. Twenty-four participants (male = 12, female = 12; age = 25.6 [4.5]y, height = 173.9 [8.51]cm, mass = 76.11 [16.84]kg). Participants were randomly assigned into 2 groups (1)pretreatment 10-minute ice massage and (2)no pretreatment ice massage. Treatment consisted of an 80-mA·minute (4mA, 20min) Dex-P iontophoresis treatment. Microdialysis probes (3 mm deep in the forearm) were used to assess Dex-P, dexamethasone (Dex), and its metabolite (Dex-Met) concentrations. Skin perfusion was measured using laser Doppler flowmetry. Microdialysis samples were collected at baseline, at conclusion of treatment, and every 20 minutes posttreatment for 60minutes. Samples were analyzed to determine Dex-Total (Dex-Total = Dex-P + Dex + Dex-Met). Skin perfusion was calculated as a percentage change from baseline. A mixed-design analysis of variance was used to determine Dex-Total and skin perfusion difference between groups overtime. There was no difference between groups (P = .476), but [Dex-Total] significantly increased over the course of the iontophoresis and posttreatment time (P < .001). Dex-P was measured in 18 of 24 participants with a mean concentration of 0.67 (1.09)μg/mL. Skin perfusion was significantly greater in the no ice treatment group (P = .002). Peak skin perfusion reached 27.74% (47.49%) and 117.39% (103.45%) from baseline for the ice and no ice groups, respectively. Ice massage prior to iontophoresis does not alter the tissue [Dex-Total] even with less skin perfusion. Ice massage prior to iontophor