Oncologists should address the possibility of infertility with patients treated during their reproductive years. Fertility preservation is often possible, but to preserve the full range of options, fertility preservation approaches should be considered as early as possible during treatment planning.
Summary of Fertility Preservation Options in Males
Intervention |
Definition |
Comment |
Considerations |
Sperm cryopreservation (S) after masturbation |
Freezing sperm obtained through masturbation |
The most established technique for fertility preservation in men; large cohort studies in men with cancer |
- Outpatient procedure
- Approximately $1,500 for three samples stored for 3 years, storage fee for additional years*
|
Sperm cryopreservation (S) after alternative methods of sperm collection |
Freezing sperm obtained through testicular aspiration or extraction, electroejaculation under sedation, or from a post-masturbation urine sample |
Small case series and case reports |
Testicular sperm extraction outpatient surgical procedure |
Gonadal shielding during radiation therapy (S) |
Use of shielding to reduce the dose of radiation delivered to the testicles |
Case series |
- Only possible with selected radiation fields and anatomy
- Expertise is required to ensure shielding does not increase dose delivered to the reproductive organs
|
Testicular tissue cryopreservation; Testis xenografting; Spermatogonial isolation (I) |
Freezing testicular tissue or germ cells and reimplantation after cancer treatment or maturation in animals |
Has not been tested in humans; successful application in animal models |
Outpatient surgical procedure |
Testicular suppression with gonadotropin-releasing hormone (GnRH) analogs or antagonists (I) |
Use of hormonal therapies to protect testicular tissue during chemotherapy or radiation therapy |
Studies do not support the effectiveness of this approach |
|
Abbreviations: S, standard; I, investigational
*Costs are estimates.
Quality of Evidence Supporting Current and Forthcoming Options for Preservation of Fertility in Males
Sperm cryopreservation. Sperm cryopreservation is effective, and oncologists should discuss sperm banking with appropriate patients. It is strongly recommended that sperm be collected before initiation of cancer therapy because the quality of the sample and sperm DNA integrity may be compromised even after a single treatment session. Although planned chemotherapy may limit the number of ejaculates, intracytoplasmic sperm injection allows the successful freezing and future use of a very limited amount of sperm.
Hormonal gonadoprotection. Hormonal therapy in men is not successful in preserving fertility when highly sterilizing chemotherapy is administered.
Other considerations. Men should be advised of a potentially higher risk of genetic damage in sperm stored after initiation of therapy. Testicular tissue or spermatogonial cryopreservation and transplantation or testis xenografting have not yet been tested successfully in humans. Of note, such approaches are also the only methods of fertility preservation potentially available to prepubertal boys.
Fertility Preservation Options in Females
Intervention |
Definition |
Comment |
Considerations* |
Embryo cryopreservation (S) |
Harvesting eggs, in vitro fertilization (IVF), and freezing of embryos for later implantation |
The most established technique for fertility preservation in women |
- Requires 10-14 days of ovarian stimulation from the beginning of menstrual cycle
- Outpatient surgical procedure
- Requires partner or donor sperm
- Approximately $8,000 per cycle, $350 per year storage fees
|
Oocyte cryopreservation (I) |
Harvesting and freezing of unfertilized eggs |
Small case series and case reports; as of 2005, 120 deliveries reported, approximately 2% live births per thawed oocyte (3-4 times lower than standard IVF) |
- Requires 10-14 days of ovarian stimulation from the beginning of menstrual cycle
- Outpatient surgical procedure
- Approximately $8,000 per cycle, $350/yr storage fees
|
Ovarian cryopreservation and transplantation (I) |
Freezing of ovarian tissue and reimplantation after cancer treatment |
Case reports; as of 2005, two live births reported |
- Not suitable when risk of ovarian involvement is high
- Same day outpatient surgical procedure
|
Gonadal shielding during radiation therapy (S) |
Use of shielding to reduce the dose of radiation delivered to the reproductive organs |
Case series |
- Only possible with selected radiation fields and anatomy
- Expertise is required to ensure shielding does not increase dose delivered to the reproductive organs
|
Ovarian transposition (oophoropexy) (S) |
Surgical repositioning of ovaries away from the radiation field |
Large cohort studies and case series suggest approximately 50% chance of success due to altered ovarian blood flow and scattered radiation |
- Same day outpatient surgical procedure
- Transposition should be performed just before radiation therapy to prevent return of ovaries to former position
- May need repositioning or IVF to conceive
|
Trachelectomy (S) |
Surgical removal of the cervix while preserving the uterus |
Large case series and case reports |
- Inpatient surgical procedure
- Limited to early stage cervical cancer; no evidence of higher cancer relapse rate in appropriate candidates
- Expertise may not be widely available
|
Other conservative gynecologic surgery (S/I) |
Minimization of normal tissue resection |
Large case series and case reports |
- Expertise may not be widely available
|
Ovarian suppression with GnRH analogs or antagonists (I) |
Use of hormonal therapies to protect ovarian tissue during chemotherapy or radiation therapy |
Small randomized studies and case series. Larger randomized trials in progress |
- Medication given before and during treatment with chemotherapy
- Approximately $500/mo
|
Abbreviations: S, standard; I, investigational; IVF, in vitro fertilization
*Costs are estimates
Quality of Evidence Supporting Current and Forthcoming Options for Preservation of Fertility in Females
Embryo cryopreservation. Embryo cryopreservation is considered an established fertility preservation method because it has routinely been used for storing surplus embryos after in vitro fertilization. Approximately 2 weeks of ovarian stimulation with daily injections of follicle-stimulating hormone is required and must be started within the first 3 days of the menstrual cycle.
Cryopreservation of unfertilized oocytes. Cryopreservation of unfertilized oocytes is an option, particularly for patients without a partner or those with religious or ethical objections to embryo freezing. Ovarian stimulation is required as described in the preceding section. Oocyte cryopreservation should only be performed in centers with the necessary expertise, and the Panel recommends participation in institutional review board (IRB)-approved protocols.
Ovarian tissue cryopreservation. Ovarian tissue cryopreservation and transplantation procedures should be performed only in centers with the necessary expertise under IRB-approved protocols that include follow-up for recurrent cancer. A concern with reimplanting ovarian tissue is the potential for reintroducing cancer cells, although in fewer than 20 procedures reported thus far, there are no reports of cancer recurrence.
Ovarian suppression. Currently, there is insufficient evidence regarding the safety and effectiveness of GnRH analogs and other means of ovarian suppression on fertility preservation. Women interested in this technique are encouraged to participate in clinical trials.
Ovarian transposition. Ovarian transposition (oophoropexy) can be offered when pelvic radiation is administered as cancer treatment. Because of the risk of remigration of the ovaries, this procedure should be performed as close to the radiation treatment as possible.
Conservative gynecologic surgery. It has been suggested that radical trachelectomy be restricted to stage IA2-IB disease with diameter less than 2 cm and invasion less than 10 mm. In the treatment of other gynecologic malignancies, interventions to spare fertility have generally centered on doing less-radical surgery and/or lower-dose chemotherapy with the intent of sparing the reproductive organs as much as possible.
Other considerations. Of special concern in breast and gynecologic malignancies is the possibility that fertility preservation interventions and/or subsequent pregnancy may increase the risk of cancer recurrence. Although several studies have not shown a decrement in survival or an increase in risk of breast cancer recurrence with pregnancy, the studies are all limited by significant biases, and concerns remain for some women and their physicians.
Special Considerations: Fertility Preservation in Children
Use of established methods of fertility preservation (semen cryopreservation and embryo freezing) in postpubertal minor children requires patient assent and parental consent. The modalities available to prepubertal children to preserve their fertility are limited by the sexual immaturity of the children and are essentially experimental. Efforts to preserve fertility of children using experimental methods (e.g., gonadal tissue cryopreservation) should be attempted only under IRB approved protocols.
The Role of the Oncologist in Advising Patients About Fertility Preservation Options
As with other potential complications of cancer treatment, oncologists have a responsibility to inform patients about the risk that their cancer treatment will permanently impair fertility. An algorithm for triaging fertility preservation referrals is presented in the original guideline document and suggested talking points are illustrated in a sidebar.
Oncologists should answer basic questions about whether fertility preservation options decrease the chance of successful cancer treatment, increase the risk of maternal or perinatal complications, or compromise the health of offspring. Patients should be encouraged to participate in registries and clinical studies as available to define further the safety of these interventions and strategies. Currently, women with a history of cancer and cancer treatment should be considered high risk for perinatal complications and would be prudent to seek specialized perinatal care.
Oncologists should refer interested and appropriate patients to reproductive specialists as soon as possible. Referral to psychosocial providers may be beneficial when a patient has moderate to severe distress about potential infertility.