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  2. Long-term sequelae of tolnidamine on male reproduction and general body metabolism in rabbits

Long-term sequelae of tolnidamine on male reproduction and general body metabolism in rabbits

  • Contraception. 1998 Apr;57(4):271-9. doi: 10.1016/s0010-7824(98)00031-6.
A S Ansari 1 Y Kumar S Srivastava N K Lohiya
Affiliations

Affiliation

  • 1 Department of Zoology, University of Rajasthan, Jaipur, India.
Abstract

The long-term effects of tolnidamine on male reproduction and general body metabolism were studied in rabbits (Oryctolagus cuniculus). The study was divided into three groups of 10 Animals each. The first group (A) received vehicle alone to serve as controls. The second and third groups (B and C) of Animals were administered tolnidamine orally at 50 mg/kg body weight/week and 50 mg/kg body weight/day, respectively, for a period of 150 days. The Animals of group B exhibited a sperm density of 23.60 million/mL +/- 4.87 million/mL (vs 453.00 million/mL +/- 65.30 million/mL in group A) after 150 days of treatment. In group C, all Animals were azoospermic after 135 days of treatment. A reversible impairment of sperm motility, vitality and morphology was noticed. Semen weight, volume, color, pH, libido, and circulatory levels of testosterone remained unchanged. In group B Animals, sperm density did not return to control levels even at 150 days after cessation of treatment (37.40 million/mL +/- 4.46 million/mL, vs 380.00 +/- 40.80 million/mL in group A). However, spermatozoa reappeared in Animals treated daily (group C) after 30 days of recovery but remained < 5 million/mL during the entire recovery period. A reversible, significant depletion was recorded in seminal glycerylphosphorylcholine (GPC) levels. Fertility was unimpaired in group B Animals when compared with those in group A. In group C, fertility was reduced to zero after 150 days of treatment and at 90 days and 150 days after cessation of treatment. No significant alterations were observed in other semen biochemical, hematologic, or blood/serum biochemical parameters with either dose regimen. It is concluded that tolnidamine administration induced dose dependent, irreversible inhibition of sperm production without altering general body metabolism in male rabbits.

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