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Alternatives for Ovulation
Induction and Superovulation: Serms and Aromatase Inhibitors
By David E. Tourgeman MD, F.A.C.O.G.
Ovulatory
dysfunction is one of the most common causes for
reproductive difficulty in otherwise fertile couples.
Once successful ovulation is achieved, fertility is
often restored. For many years, the first line of pharmacologic
ovulation induction to treat infertility has involved the use of selective
estrogen receptor modulators (SERMs), of which clomiphene
citrate (Clomid) has been most extensively studied.
The first trial of Clomid resulted in successful ovulation
induction in approximately 80% of women, and ultimately
half were able to achieve pregnancy. The use of Clomid
for superovulation in patients with unexplained
infertility, has also been the mainstay when coupled
with intrauterine insemination, IUI.
Yet despite advances in ultrasonographic technology,
hormone assays, and urinary leutinizing hormone kits,
success with Clomid has not changed dramatically. Therefore,
it is important that we evaluate our options for ovulation
induction and superovulation.
SERMs
for Infertility Treatment
SERMs
are structurally diverse non-steroidal compounds (triphenylethlene
derivatives) that bind to estrogen receptors and have
tissue-dependent agonistic and antagonistic effects. Clomid is characterized by agonistic properties when
endogenous estrogen levels are low, and as a competitive
antagonist when levels are high. In anovulatory women,
depletion of estrogen receptors in the hypothalamus
results in normalization of gonadotropin
releasing hormone (GnRH) secretion and hence, secretion
of pituitary follicle
stimulating hormone (FSH) levels are optimized.
This in turn will drive ovarian follicular development,
resulting in ovulation.
The
goal in anovulatory women is mono-ovulation, whereas
with superovulation multiple follicle development is
desired. However, even in anovulatory women, the use
of Clomid
can result in the development of multiple follicles
as the result of prolonged clearance of its isomers.
Thus, the risk of multiple gestation is increased to
8%. Other side effects also limit the usefulness of
Clomid Namely; Clomid exerts undesirable anti-estrogenic
effects in the periphery (endocervix, endometrium, and
ovary) that helps explain the discrepancy between ovulation
and conception rates. Additionally, vasomotor flushes
may occur as frequently as in 10% of cycles. Other side
effects include mood swings, visual disturbances, breast
tenderness, pelvic discomfort, and nausea.
The
use of tamoxifen (TMX), another SERM, for ovulation
induction has been the subject of clinical investigation
since the early 1970s. A recent prospective randomized
controlled trial compared the efficacy of TMX with Clomid in anovulatory women. The overall rates of ovulation
and pregnancy were similar in both groups. Other studies
have suggested that TMX may be superior to Clomid in that
there does not appear to have an adverse impact on the
endometrium. TMX has been shown to be effective in the
treatment of ovulation induction even when Clomid has failed,
but has yet to be tested for superovulation.
Raloxifene,
a structurally related compound, also appears to increase
follicular phase FSH, with resultant elevation in estradiol
levels. However, it has not been evaluated as a potential
ovulation induction agent. In addition, raloxifene may
act primarily as an antagonist at the level of the endometrium.
Other
novel uses of the SERMs have included the combination
of Clomid and TMX. Their combined effects in the treatment
of anovulation appears to result in increased ovulation
rates and pregnancy. Although the combination of Clomid
and human menopausal gonadotropins induces ovulation
in anovulatory, patients undergoing IVF,
and those who have had a poor response to gonadotropins
alone, the combination of the newer SERMs and human
menopausal gonadotropins remains largely uninvestigated.
Aromatase Inhibitors- Drugs
for Infertility Treatment
Aromatase
inhibitors are unique pharmacologic agents whose main
mode of action is to decrease peripheral estradiol production
by the ovary. This is in contrast to the SERMs that
act centrally, nonetheless the end result is similar;
namely, a decrease in central estrogen feedback that
stimulates a compensatory increase in pituitary gonadotropin
release. By reducing circulating estradiol levels, aromatase
inhibitors have been used to treat
endometriosis, estrogen responsive cancers, leiomyomata
uteri, as well as to induce ovulation. Primate studies
have demonstrated that administration of aromatase inhibitors
during the follicular phase results in the development
of mature follicles which, when coupled with hCG
could be shown to ovulate.
Summary
In
women with anovulatory
infertility, the treatment of first choice for induction
of ovulation is most commonly Clomid. However, not all
women will ovulate with Clomid alone or may have impaired
endometrial development. Yet others may have severe
side effects limiting the use of Clomid. In these patients,
the use of other SERMs such as tamoxifen may allow the
achievement of our goals. Yet, the impact of multiple
gestation continues to reduce the appeal of these medications.
With our growing experience, aromatase inhibitors may
help a Clomid accomplish mono-ovulation in this group
of patients. In couples with unexplained
infertility that are undergoing superovulation and
intrauterine insemination, it appears that the SERMs
are most effective in provoking the development of multiple
follicles, and thus remain our primary treatment modality.
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