SERMs are compounds that modulate the action of estrogen via their effects on the ER. The action of a given selective estrogenic receptor modulator depends on activation of a different hormone-binding domain, which determines an agonist, antagonist, or mixed response. Since estrogen receptors are present on bones and uterine tissue also and modulate different action there, an ideal SERM is a compound that has an antiestrogenic effect in breast and uterine cancer, but has an agonist action on the bones and cardiovascular system. This is the basis of their protective effect on bone mineralization and heart.

AIs are of two types; Letrozole and anastrazole are reversible nonsteroidal AIs, exemestane is irreversible and steroidal AI. They block the peripheral production of estrogens in postmenopausal women by blocking the aromatase enzyme. AIs are not used in premenopausal women because gonadotrophins can reverse the ovarian aromatase blockade [7]. The use of AIs in premenopausal women will be ineffective, unless combined with other modalities to overcoming the gonadotrophin surge. Such treatments include surgical oophorectomy, radiotherapy ablation of ovaries, high-dose progestins, or long-acting GnRH agonists or antagonists. The benefit of “total estrogen blockade” in premenopausal women with ER + breast cancers using GnRH agonist and AIs can also be used. This leads to medical oophorectomy and artificial menopause. There are no outcome differences between the different types of AIs, although a letrozole has better patient acceptance as compared to anastrazole [8]. But this was a small study and the results should be interpreted with care. The dose of anastrazole is 1 mg once daily, letrozole is 2.5 mg once daily, and exemestane is 25 mg once daily. They are used in neoadjuvant, adjuvant, as well as advanced breast cancers [9].

Ovarian ablation (OA) is done for suppression of hormonal function of ovaries, thus reducing the production of estrogens in premenopausal ladies, in whom ovary is the main site of estrogen production [12]. It does not have any effect in postmenopausal women, as the ovaries have already stopped functioning and the postmenopausal estrogen is derived from adrenal glands and peripheral tissues.

Endocrinal therapy is indicated in all patients with detectable estrogen receptor expression, defined as ≥1 % of invasive cancer cells and does not depend on chemotherapy or other targeted therapies.

In adjuvant setting in premenopausal women, Tamoxifen remains the only approved endocrinal agent till date. Tamoxifen enhances the survival of women with ER-positive tumors and also prevents the development of new ER-positive breast cancers. Tamoxifen for 5 years causes 41 % reduction in rate of annual breast cancer recurrence and 34 % reduction in annual death rate according to EBCTCG 2005 analysis [15]. The benefit in terms of absolute risk reduction is greater in women with node-positive disease.

Multiple clinical trials have addressed question whether incorporation of AI improves the outcomes compared to that seen with 5 years of tamoxifen in postmenopausal women with hormone receptor-positive breast cancer. Table below shows major trials in which AI have been used in primary therapy, as switch therapy after 2–3 years of tamoxifen, or as sequential therapy after 5 years of tamoxifen. Disease-free survival (DFS) improved modestly in all these trials with increased overall survival (OS) in some trials due to decreased distant metastasis, ipsilateral and contralateral recurrences (Table 42.1). Looking at the improved outcomes with use of AIs compared to tamoxifen alone, both American Society of Clinical Oncology (ASCO) and National Comprehensive Cancer Network (NCCN) recommend the incorporation of AIs at some point in the treatment of postmenopausal women with hormone-positive breast cancer [14, 23].