“I’ve been told that my cancer is now cured… how do I get my fertility back?
Patients ask me this question weekly all the time and I am glad to help. Some of the most satisfying medical moments I’ve had are associated with these patients.
But when I hear this call for help, it also reminds me how medicine has been remiss in preventing the infertility in the first place. We can do better and we can do it right now.
The topic of fertility preservation is the substance of my recent lecture at the annual meeting of the American Society of Reproductive Medicine (ASRM) in Orlando, Florida. This well-attended course focused on the prevention, treatment and restoration of male fertility in the setting of sterilizing treatments typical of cancer therapy.
The goal of my lecture was to review and update providers on current and future strategies for the preservation and restoration of male fertility. Here are some of the ideas discussed. I’ve also included a link to the lecture slides if you are so inclined.
Preserving Male Infertility
- Sperm banking. A 200-year old technique that is the purest form of preventative medicine, it is vastly underutilized, not covered by insurance, and not routinely offered to many cancer patients before treatment. What gives? Here is where we need to do the most work in this field.
- Sperm Harvest. For 15 years, it has been possible, nay routine, to harvest sperm from men who want children after having a vasectomy without reversing the vasectomy. This same technology is easily applied to men before, during and after sterilizing cancer treatments. One very successful example of this in my practice is fine needle aspiration “mapping” of testicles for sperm in cancer survivors. Indeed, no-touch, metabolic imaging for sperm may be the ultimate iteration of this concept.
- Electroejaculation. Based on decades of successful use in spinal cord injured men, artificial stimulation of ejaculation can be a very effective way to bank sperm or restore fertility in men or post pubertal teens who have had nerve damage to reproductive organs from cancer surgery.
- Shielding Sperm Production. Physical shields are routinely used to block the effects of aberrant X-rays from hurting sperm production during treatment. In animal models, hormonally induced shut down of sperm production can protect the testicle during the storm of chemotherapy as well.
Restoring Male Infertility
- Stem cell transplantation. Currently possible in animal models, this involves taking the delicate testicle stem cells from either pre- or post-pubertal boys or men and freezing the cells before cancer treatment. Subsequently, the stem cells are thawed and replaced back into the testicle to restore sperm production after the cancer is cured.
- Sperm Maturation in a Dish. A variant of the above, also demonstrated in animal models, this technique involves maturing stem cells harvested from the testicle before cancer treatment in the laboratory all the way to their final form: a sperm with a tail.
- Sperm from Stem Cells. Yet another variant of the above that has been demonstrated in animals, this involves growing usable sperm from early, pluripotent stem cells such as embryonic or adult pluripotent stem cells. One example would be to take a skin biopsy from a sterile man, coercing them to become adult stem cells and then push those cells to sperm in a dish. Truly, a fantastic outcome of America’s investment in stem cell technology.