Twenty new 2-(cyanoalkyl)tetrazoles (15 and 16) and twenty new 2-(hydroxyalkyl)tetrazoles (17 and 18) were synthesized and investigated in vitro for their abilities to inhibit selectively rat brain monoamine oxidase (MAO) B over MAO A. Most of them were MAO B inhibitors and those bearing a substituted 4-(arylmethoxy)phenyl group in the position 5 of the tetrazole ring had IC50 values between 8 microM for 18d and 2 nM for 16a (30 nM for lazabemide) with a selectivity toward MAO B of 37,000 for 16a. The reversibility of their inhibitory activity was demonstrated by in vitro dialysis tests. The 5-[4-(phenylmethoxy)phenyl]-2-(2-cyanoethyl)tetrazole (16a) its derivative 16h and the 5-[4-(phenylmethoxy)phenyl]-2-(2-hydroxyethyl)tetrazole (18a) and its derivative 18h were found to be potent, in vitro selective, and competitive MAO B inhibitors. Tetrazole 16a can be considered one of the most active and selective competitive MAO B inhibitors known up to now. This compound was selected for ex vivo experiments and was shown to be a strong and reversible MAO B inhibitor with a short duration of action after oral administration at 5 mg/kg. The structure-activity approach gives rise to the great importance of lipophilicity over electronic effects of the compounds in these series.