Toxicity of chemotherapy and radiation on female reproduction.

One of the most devastating consequences of cancer treatment in the young female population is ovarian damage, resulting in diminished fertility potential. The extent of damage is related to age, chemotherapeutic regimen, and dose of pelvic radiation received. It is crucial that physicians know the impact each of these factors has on future fertility to advice patients on fertility preservation options. Anticancer drugs injure the female reproductive system through ovarian follicular and stromal damage. Although the exact mechanisms of damage remain unclear, it is essential to better understand these mechanisms to develop methods to diminish ovarian injury.

The effect of semen processing on sperm DNA integrity: comparison of two techniques using the novel Toluidine Blue Assay.

OBJECTIVE: The first goal of this study was to determine the effect that semen processing has on sperm DNA integrity. The second goal was to assess which processing technique (modified swim-up versus density gradient centrifugation) results in a superior sample. DNA integrity was measured using a novel Toluidine Blue Assay. STUDY DESIGN: Side-by-side comparison. MATERIALS AND METHODS: Raw semen samples were collected from thirty-two male individuals and scored for routine semen analysis. Prior to discarding the specimens identical aliquots were divided and processed by density gradient centrifugation and a modified swim-up technique. The Toluidine Blue Assay was used to analyze raw and processed samples. RESULTS: Both density gradient centrifugation and the modified swim-up improved DNA quality compared to the unprocessed sample. However, the modified swim-up technique proved superior. CONCLUSIONS: The swim-up technique generates a sperm sample with better DNA integrity. Should DNA integrity correlate with better pregnancy rates in IUI and IVF, respectively, the swim-up may be the sperm processing technique of choice for these procedures.