Current-Induced Vasodilation Specifically Detects, and Correlates With the Time Since, Last Aspirin Intake: An Interventional Study of 830 Patients

Concentration-dependent microvascular responses to repeated iontophoresis of acetylcholine

BACKGROUND

Iontophoresis studies face challenges due to the unknown absolute drug dose delivered and the possible effect of the current used in drug delivery on the microvessels, known as current-induced vasodilation. This study aimed to investigate how various concentrations of acetylcholine (ACh), delivered through transdermal iontophoresis using repeated current pulses, impact the recovery profile of the microvascular response.

METHODS

The study included fifteen healthy volunteers, and microvascular responses to five concentrations of iontophorised ACh (ranging from 0.0055 mM to 55 mM) and sterile water were assessed at six forearm skin sites using polarized reflectance spectroscopy. Iontophoresis at each concentration involved three consecutive pulses separated 8 recovery periods.

RESULTS

Current-induced responses were more pronounced for lower concentrations of ACh and for sterile water. With repeated pulses, lower concentrations of ACh exhibited a recovery profile more akin to higher concentrations.

PERSPECTIVE

Through repeated iontophoresis of ACh, microvascular responses exhibit variation based on the drug concentration and the number of pulses administered. These variations are likely attributed to changes in skin conductivity and permeability.