Infertility: Nonsurgical Management
See 2015 CUA Azoospermia Guideline Notes
General Principles§[edit | edit source]
- May use aromatase inhibitors (AIs), hCG, selective estrogen receptor modulators (SERMs), or a combination thereof for infertile men with low serum testosterone
- For the male interested in current or future fertility, testosterone monotherapy should not be prescribed.
- The infertile male with hyperprolactinemia should be evaluated for the etiology and treated accordingly.
- Clinicians should inform the man with idiopathic infertility that the use of SERMs has limited benefits relative to results of ART.
- Clinicians should counsel patients that the benefits of supplements (e.g., antioxidants, vitamins) are of questionable clinical utility in treating male infertility. Existing data are inadequate to provide recommendation for specific agents to use for this purpose.
- For men with idiopathic infertility, a clinician may consider treatment using an FSH analogue with the aim of improving sperm concentration, pregnancy rate, and live birth rate
- Patients with NOA should be informed of the limited data supporting pharmacologic manipulation with SERMs, AIs, and gonadotropins prior to surgical intervention.
Selective estrogen receptor modulators (e.g. clomophene (clomid), tamoxifen)[edit | edit source]
- MOA: acts as an agonist or antagonist on different estrogen receptors.
- Agonists on receptors in bone, improving bone health
- Antagonists on receptors on the hypothalamus and pituitary, resulting in increased GnRH and ultimately increased LH, FSH, and intratesticular testosterone.
- In men normal binding of estrogen at these receptors functions as an indirect negative feedback mechanism of endogenous testosterone production to down-regulate GnRH and subsequently pituitary gonadotropin production.
- Benefits
- Increased testosterone
- Testosterone increase is more than that achieved with anastrazole
- Increased sperm counts
- See Risk Calculator for expected changes for men with infertility who are given clomiphene citrate
- Increased testosterone
- Indications
- Currently, no FDA approval for using SERMs for male hypogonadism
- Clomiphene citrate is the most commonly used SERM for treating hypogonadism when fertility must be maintained. However, this remains an off-label use.
- Enclomiphene citrate, the functional stereoisomer of clomiphene citrate, is currently in commercial development. Its potential advantage is avoidance of the estrogenic side effects of its enantiomer zuclomiphene.
- Clomiphene citrate is the most commonly used SERM for treating hypogonadism when fertility must be maintained. However, this remains an off-label use.
- Consider in patients with low testosterone, borderline high/high FSH (lazy pituitary)
- Currently, no FDA approval for using SERMs for male hypogonadism
- Administration
- Typically dosing starts at 25 mg daily and can be increased up to 100 mg daily.
- Adverse events
- No specific adverse effects attributed to clomiphene or enclomiphene citrate in males.
- Same theoretical risk of testosterone replacement exists
Aromatase inhibitors (anastrazole or letrozole)[edit | edit source]
- MOA: inhibit aromatase from converting testosterone to estradiol (E2)
- Estradiol is an indirect mediator of testosterone feedback inhibition of the HPT axis. Therefore, aromatase inhibition in men can result in decreased estrogen levels and ultimately increased gonadotropin production
- May restore FSH, LH, and testosterone levels in patients with elevated estradiol (T/E ratios <10), such as those with obesity or Klinefelter syndrome (tend to have more adipose tissue)
- Limited data to improve sperm parameters
- Adverse events
- Theoretical risk of decreasing bone mineral density as they decrease E2.
- Same theoretical risk of testosterone replacement exists
Hormones (gonadotropins (hCG, FSH)[edit | edit source]
- The advantage of injectable gonadotropin vs pulsatile GnRH for the treatment of hypogonadotropic hypogonadism is that the injectable gonadotropin bypasses the need for a pump and screening for functionality of the pituitary gland.
- hCG
- MOA: stimulate testosterone production by mimicking LH
- hCG has the same structure as the beta unit for LH
- When used in conjunction with exogenous testosterone administration, may reverse azoospermia and maintain elevated intratesticular testosterone levels
- By directly stimulating Leydig cells, intratesticular testosterone increases regardless of the extent of negative feedback on the HPG axis, improving spermatogenesis.
- Greater effect seen in males with initial testes length >4cm
- Effect improved with addition of FSH or hMG
- Most experts treat with hCG alone for 3 to 6 months after which spermatogenesis induction occurs in some cases.
- For patients without adequate spermatogenesis induction, treatment proceeds with the addition of FSH
- FDA approved for treatment of pituitary hypogonadism in males
- Classically used to treat hypogonadotropic hypogonadism, such as Kallmann syndrome.
- MOA: stimulate testosterone production by mimicking LH
- FSH
- When given alone or in combination with testosterone, has proven unsuccessful at inducing spermatogenesis or maintaining spermatogenesis in those previously induced with hCG/FSH, confirming the need for maintenance of elevated intratesticular testosterone.
- Not used frequently due to cost
- hCG is more expensive than clomiphene citrate and anastrozole, and requires multiple weekly subcutaneous injections.
- Adverse events
- hCG is generally well tolerated but there are reports of gynecomastia in up to a third of the patients, which should be monitored.
- If gynecomastia does occur, anastrazole would be the first line treatment option.
- Same theoretical risk of testosterone replacement exists
- hCG is generally well tolerated but there are reports of gynecomastia in up to a third of the patients, which should be monitored.
Growth Hormone (GH)[edit | edit source]
- Also known as somatotropin
- Single most important hormone for normal growth.
- Acts through its mediator, insulin-like growth factor-1 (IGF-1)
- GH and IGF-1 regulate gonadal steroidogenesis and spermatogenesis via receptors on pituitary gonadotrophs, Sertoli cells, Leydig cells and germ cells. GH and IGF1 also reduce SHBG levels, potentially increasing androgen bioavailability.
- GH for androgen replacement is off-label.
Vitamins[edit | edit source]
- Little evidence to support the routine use of vitamins to improve pregnancy rates
References[edit | edit source]
- Wein AJ, Kavoussi LR, Partin AW, Peters CA (eds): CAMPBELL-WALSH UROLOGY, ed 11. Philadelphia, Elsevier, 2015, chap 24
- Khan MA, Pagani RL, Ohlander SJ. 2019 AUA Update: Exogenous Testosterone and Male Reproduction
- Gupta N, David M, Kohler TS. 2017 AUA Update: Treatment of Male Hypogonadism: Alternatives to Testosterone