Sumatriptan absorption from different regions of the human gastrointestinal tract.

Sumatriptan exhibits low oral bioavailability partly due to presystemic metabolism, which may vary with regional differences in metabolic activity throughout the gastrointestinal tract. This study evaluated sumatriptan absorption in humans after administration orally and by oroenteric tube into the jejunum and cecum. Because the site of cecal administration varied, pharmacokinetic parameters for sumatriptan and its major metabolite were compared statistically only after oral and jejunal administration. One-half of the oral dose was recovered in the urine as parent (3%) and metabolite (46%). Sumatriptan was absorbed throughout the gastrointestinal tract; absorption was similar after oral and jejunal administration, and less after cecal administration. The metabolite AUC and the AUC ratio (metabolite/parent) were significantly lower after jejunal compared to oral administration; the AUC ratio was two-fold lower after cecal administration. Results suggest that presystemic metabolism of sumatriptan varies throughout the gastrointestinal tract and/or regional differences exist in the absorption of metabolite formed within the gastrointestinal tract.

Effects of probenecid on the pharmacokinetics and pharmacodynamics of adinazolam in humans.

The effects of probenecid (2 gm) on the pharmacokinetics, pharmacodynamics, and uricosuric effects of adinazolam and N-desmethyladinazolam were assessed after single dose administration of adinazolam mesylate sustained-release tablets (60 mg) in a randomized, four-way crossover, double-blind study involving 16 healthy male volunteers. Probenecid decreased adinazolam oral clearance, renal N-desmethyladinazolam clearance, and the amount of N-desmethyladinazolam excreted in the urine. Probenecid increased the N-desmethyladinazolam/adinazolam AUC ratio, adinazolam maximum concentration (Cmax), N-desmethyladinazolam Cmax, and N-desmethyladinazolam time to reach Cmax. Uric acid renal clearance was increased significantly by adinazolam or probenecid administration compared with placebo; however, coadministration of adinazolam plus probenecid had no additive effect on uric acid clearance. Psychomotor performance was decreased in the adinazolam plus probenecid treatment compared with the adinazolam treatment. Probenecid potentiated the psychomotor effects of adinazolam after coadministration of the compounds, predominantly because of alterations in N-desmethyladinazolam pharmacokinetics. Therefore the adinazolam dose may need to be reduced when coadministered with probenecid.

Factors influencing the success of sperm-cervical mucus interaction in patients exhibiting unexplained infertility.

The factors regulating the success of sperm-cervical mucus interaction in 46 patients exhibiting unexplained infertility were analyzed. Within this group of patients, considerable variation in the degree of mucus penetration, which appeared to be related to the properties exhibited by the spermatozoa rather than the quality of the mucus itself, was observed. The ability of the spermatozoa to fuse with zona-free hamster oocytes reflected their capacity for mucus penetration, regardless of whether human or bovine cervical mucus was used as the target. Multiple regression analysis also indicated the importance of the movement characteristics exhibited by the spermatozoa, which alone could account for up to 85% of the variability in mucus penetration. The concentration of motile spermatozoa and their linear velocity of progression influenced the number of spermatozoa penetrating the mucus in unit time, presumably through an effect on the frequency of collisions at the cervical mucus interface. Whether these collisions resulted in mucus penetration depended upon the movement characteristics of the spermatozoa and was positively associated with a "rolling" mode of progression and the amplitude of lateral sperm head displacement.