Although the transdermal administration of drugs has gained considerable importance, reliable methods for the quantitative assessment of transdermal drug penetration are scarce. The aim of the present study was therefore to evaluate the scopes and limits of the minimal trauma tissue biopsy (MTTB) technique for the in vivo characterization of the transdermal penetration process and the assessment of dermal drug kinetics in humans following topical drug application. Nicotine TTS (21 mg/24 h) was administered transdermally to 13 healthy volunteers. Repeated minimally invasive dermal and subdermal tissue biopsies were obtained at defined time points from defined skin layers directly underlying the TTS. The position of the biopsy needle and depth of biopsate were determined by 2D ultrasound scanning. The biopsy procedure was well tolerated by all volunteers and up to six biopsies within a period of 10 h were easily accepted. Dermal pharmacokinetic profiles for nicotine were obtained in all experiments and corresponded well to the values measured in previous studies on transdermal nicotine penetration. Mean area under the nicotine concentration time curve (AUC) in subepidermal layers underneath the application site of the TTS was 70.0+/-55.1 microg/g per h. There was a correlation between the depth of biopsy sampling and dermal nicotine concentrations at steady state (r=0.7). The MTTB is a suitable, well tolerated technique for the detection of transdermally applied compounds in defined subepidermal tissue layers and could therefore become a valuable tool in the development and assessment of transdermal dosage forms.