New technique could sustain cancer patients' fertility
Jul 14, 2009 - 4:00:00 AM
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Developed by Teresa K. Woodruff, Ph.D. and Lonnie D. Shea, Ph.D., of Northwestern University's Feinberg School of Medicine, and their colleagues, the new technique would avoid both concerns.
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By NIH/National Institute of Child Health and Human Development,
[RxPG]
Researchers funded by the National Institutes of Health have completed a critical first step in the eventual development of a technique to retain fertility in women with cancer who require treatments that might otherwise make them unable to have children.
The researchers have developed a method to advance undeveloped human eggs to near maturity, in laboratory cultures maintained outside the body. The technique focuses on the follicle, a tiny sac within the ovary that contains the immature egg. The researchers were able to grow human follicles in the laboratory for 30 days, until the eggs they contained were nearly mature.
The research seeks to provide women who require a fertility-ending treatment with options for reproduction after their treatment is complete. Men facing such treatments can freeze their sperm for use at a later date. Female cancer patients have fewer options. Unlike sperm, eggs rarely survive freezing and thawing.
The accomplishment represents the successful completion of the first of three steps needed to preserve a woman's fertility after radiation treatments or chemotherapy. For the next step, researchers will need to induce the egg's final division, so that it contains only half the genetic material of its precursors. Finally, the researchers will have to demonstrate that they can freeze and thaw human follicles before growing them in culture.
The new technique could provide an option for women and girls who have cancer and are not yet ready to start families, said Duane Alexander, M.D., director of NIH's Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD), which funded the research as part of the NIH Roadmap Interdisciplinary Research Consortium program. An additional benefit is that it will allow researchers to more closely follow the process by which immature eggs grow and mature. In turn, these observations may lead to new advances for treating other forms of infertility.
The best option currently for a female cancer patient to preserve fertility is to collect eggs, fertilize them with sperm, and freeze the resulting embryos. But that technique may not be acceptable to all female cancer patients.
Researchers have already identified experimental methods to freeze entire ovaries or strips of ovarian tissue and implant them in a woman's body when she is ready to have children. This is a good option for some patients, but it is possible that some cancer cells may hitch hike on the ovarian tissue and result in a new cancer after treatment is completed.
Developed by Teresa K. Woodruff, Ph.D. and Lonnie D. Shea, Ph.D., of Northwestern University's Feinberg School of Medicine, and their colleagues, the new technique would avoid both concerns.
The findings were published online in
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