OBJECTIVETo study the effect of tea saponin in ameliorating nonoxynol(N-9) spermicidal action in vitro.

METHODSAccording to the improved spermicidal test method in vitro recommended by International Planned Parenthood Foundation (IPPF), we evaluated the minimum spermicidal concentration of N-9, tea saponin and their mixed solution in 20 s and 3 min.

RESULTSThe minimum spermicidal concentration of N-9 in the mixed solution was (0.13 +/- 0.05) g/L in 20 s and (0.05 +/- 0.004) g/L in 3 min, and that of the tea saponin in the mixed solution was (2.40 +/- 1.07) g/L in 20 s and (1.27 +/- 0.38) g/L in 3 min, compared with the single ingredient N-9 [(0.48 +/- 0.15) g/L in 20 s, (0.34 +/- 0.079 g/L in 3 min], and tea saponin [(5.78 +/- 1.40) g/L in 20 s, (1.71 +/- 0.176) g/L in 3 min], P < 0.01.

CONCLUSIONTea saponin can improve N-9 spermicidal action in vitro, and tea saponin and nonoxynol have proved of synergic effect.

Animals ; Drug Synergism ; Male ; Nonoxynol ; pharmacology ; Rabbits ; Saponins ; pharmacology ; Spermatocidal Agents ; pharmacology ; Tea

Spermicidal effect of Jieze No. 1 (JZ1) in combination with nonoxynol-9 (N-9) was examined in vitro. The minimum spermicidal concentration of JZ1 decoction, N-9 and their mixture solution in 20 s and 3 min were examined by improved spermicidal test of Sander-cramer in vitro. The percentages of progressively moving spermatozoa, moving spermatozoa and viable spermatozoa were also observed 20 s, 3 min and 30 min after the addition of the liquid medicine. Our results showed that sperms did not recover their activities in a revival test when the minimum spermicidal concentration of either JZ1 decoction, or N-9, or the mixed solution of the two agents, was used. N-9 (JZ1 in the mixed group) showed significant differences in the percentages of progressively moving spermatozoa, moving spermatozoa, and visible spermatozoa in 20 s, 3 min, and 30 min, when compared with N-9 alone (P < 0.01). We are led to conclude that JZ1 decoction can improve N-9 spermicidal action in vitro, and when used in combination with N-9, it has synergic effect.
Drugs, Chinese Herbal/*pharmacology ; Nonoxynol/*pharmacology ; Semen/drug effects ; Spermatocidal Agents/*pharmacology ; Spermatozoa/*drug effects

OBJECTIVETo study the effect of compound nonoxinol on the inhibition of bacteria in vitro.

METHODSThe minimal bactericidal concentration (MBC) and minimal bactericidal time (MBT) of nonoxinol providine iodine and compound nonoxinol, composed of nonoxinol and providine iodine were determined by inhibiting C. albicans and N. gonorrhoeae.

RESULTSNonoxinol alone showed no inhibiting effects on bacteria. The MBT was 2 minutes for both compound nonoxinol and providine iodine, but the MBC of providine iodine was higher than that of compound nonoxinol.

CONCLUSIONCompound nonoxinol works better in inhibiting bacteria than either nonoxinoother or providine iodine used alone.

Anti-Infective Agents, Local ; pharmacology ; Candida albicans ; drug effects ; Dose-Response Relationship, Drug ; Drug Combinations ; Neisseria gonorrhoeae ; drug effects ; Nonoxynol ; pharmacology ; Povidone-Iodine ; pharmacology

Sensitivity to commercial teat dips (nonoxinol-9 iodine complex and chlorhexidine digluconate) of 56 Staphylococcus (S.) aureus strains isolated from quarter milk samples of various German dairy herds treated with different teat dipping schemes was investigated in this study. The minimum inhibitory concentration was determined using a broth macrodilution method according to the German Veterinary Association guidelines. The main objective of the current study was to induce in vitro resistance induction of S. aureus to chemical disinfectants. Ten different strains were repeatedly passed ten times in growth media with sub-lethal concentrations of disinfectants. Nine strains showed a significant reduction in susceptibility to the nonoxinol-9 iodine complex but only one strain developed resistance to chlorhexidine digluconate. Stability of the acquired resistance was observed in all S. aureus strains adapted to the nonoxinol-9 iodine complex and chlorhexidine digluconate. In contrast, simultaneous resistance to different antibiotics was not observed in any of the ten investigated S. aureus strains. However, the isolates exhibited a high degree of resistance to penicillin G. Based on these results, resistance of S. aureus to chemical disinfectants may be more likely to develop if the chemicals are used at concentrations lower than that required for an optimal biocidal effect.
Animals ; Anti-Bacterial Agents/pharmacology ; Cattle ; Chlorhexidine/*pharmacology ; Disinfectants/pharmacology ; Dose-Response Relationship, Drug ; Drug Resistance, Bacterial ; Female ; Germany/epidemiology ; Iodine/chemistry/*pharmacology ; Mastitis, Bovine/epidemiology/*microbiology ; Nonoxynol/*pharmacology ; Staphylococcal Infections/epidemiology/microbiology/*veterinary ; Staphylococcus aureus/classification/*drug effects