Overall Safety of Ospemifene in Postmenopausal Women from Placebo-Controlled Phase 2 and 3 Trials.

OBJECTIVE: To evaluate the safety of daily oral ospemifene 60 mg, estrogen agonist/antagonist, used to treat moderate-to-severe dyspareunia due to postmenopausal vulvovaginal atrophy, which is part of genitourinary syndrome of menopause.
METHODS: Post hoc analysis of safety data (treatment-emergent adverse events [TEAEs]) pooled from six phase 2 and 3 randomized, double-blind, multicenter placebo-controlled studies, evaluating the effects of ospemifene 60 mg on the breast, cardiovascular system, and bone in postmenopausal women.
RESULTS: At least one TEAE was reported by 67.6% (840/1242) and 54.1% (518/958) of women taking ospemifene 60 mg and placebo, respectively. Most TEAEs were mild or moderate and occurred within 4 to 12 weeks. The most commonly reported TEAEs with ospemifene were hot flush (8.5% vs. 3.3% for placebo) and urinary tract infection (6.5% vs. 4.8%). Discontinuation due to TEAEs was 7.6% with ospemifene and 3.8% with placebo. Most women discontinued treatment due to adverse events (AEs): hot flushes, muscle spasms, headache, and vaginal discharge. Serious AEs occurred infrequently (ospemifene, 2.6%; placebo, 1.8%); most were not considered related to treatment. Breast cancer and other breast-related TEAE incidences were comparable between ospemifene (2.5%) and placebo (2.2%), and cardiovascular TEAE incidence, including deep vein thrombosis, was low with ospemifene (0.3%) and placebo (0.1%).
CONCLUSION: No unexpected safety signals were reported, and discontinuation due to TEAEs was low, with use of ospemifene 60 mg versus placebo in six phase 2 and 3 trials, suggesting a lack of detrimental effects on the breast, bone, and cardiovascular health of postmenopausal women when ospemifene is used to effectively treat moderate-to-severe postmenopausal dyspareunia.

RCT Entities:   Population Interventions Outcomes

Introduction

Vulvar and vaginal atrophy (VVA) resulting from estrogen loss at the onset of menopause is a chronic and progressive condition affecting ∼45% to 57% of postmenopausal women.[1-3] Considered to be a component of genitourinary symptom of menopause (GSM),[4] VVA is commonly accompanied by physiological changes to the vulva and vagina (i.e., dryness or pallor of vaginal mucosa, thinning of vaginal rugae, or petechiae) and is associated with symptoms of vaginal dryness and dyspareunia.[3] Vaginal dryness was recently found to be the most common menopausal symptom in North American and European women with vaginal symptoms.[5] VVA symptoms are persistent, progressive, and may have an adverse effect on quality of life.[3,6] Surveys of women with VVA and their partners also show that vaginal discomfort negatively impacts intimate relationships.[7,8]

Even though VVA is persistent and worsens in severity if left untreated, less than one-third of postmenopausal women seek treatment for their symptoms.[9] Over-the-counter vaginal lubricants and moisturizers are often the first-line treatments for postmenopausal VVA, but they do not address the underlying atrophy due to changes in proportions of vaginal cells (decrease in superficial cells and increase in parabasal cells), and have been perceived as messy and inconvenient by many women.[6,10] Hormone therapy (HT), either vaginal or systemic, is available to women suffering from moderate-to-severe VVA or GSM.[6] However, HT use has been limited by women's safety concerns associated with systemic exposure to estrogens and concerns raised by the black boxed warning required by the United States Food and Drug Administration (FDA) for systemic and vaginal estrogen therapies.[9,11,12]

Ospemifene is an orally administered, estrogen receptor agonist/antagonist (also known as a selective estrogen receptor modulator [SERM]) approved in the United States for the treatment of moderate-to-severe dyspareunia due to postmenopausal VVA[13] and in Europe for the treatment of moderate-to-severe symptomatic VVA in postmenopausal women who are not candidates for local vaginal estrogen therapy.[14] Clinical studies have shown that ospemifene, at the approved dose of 60 mg, significantly reduces the severity of dyspareunia and has a beneficial effect on vaginal dryness.[15-21] Hot flushes are a commonly reported adverse event (AE) with ospemifene 60 mg[15,18,19]; however, a recently published pooled analysis of hot flush treatment-emergent adverse events (TEAEs) found that the frequency of hot flushes declined after 4 weeks of ospemifene treatment.[22] In addition, while ospemifene has been shown to have estrogen-like effects on the vaginal epithelium, it has a neutral effect on the endometrium, with no reported cases of endometrial cancer or atypical endometrial hyperplasia over a treatment period of 52 weeks.[16] However, the label for ospemifene has a black box warning about estrogen agonism in the endometrium.[13] A previously reported post hoc analysis of safety data also revealed that ospemifene does not have detrimental effects on the lipid and coagulation parameters in postmenopausal women.[23] Finally, preclinical and clinical data demonstrated that ospemifene 60 mg has a beneficial estrogenic effect on bone[24-28] and antiestrogenic effect on breast tissue.[21,25,26,28-32]

In this study, we report results from an integrated safety analysis of pooled data from six phase 2 and 3 clinical trials evaluating the effect of ospemifene 60 mg on the breast, cardiovascular system, and bone in postmenopausal women.

Materials and Methods

Study design

Clinical safety data were pooled from six phase 2 and 3, double-blind placebo-controlled studies (studies 15-50717, 15-50615,[22] 1506002,[30] 15-50821,[17,18] 15-5031015/15-50310x,[20] 15-5071821; Table 1). The pooled population for this safety analysis had been randomized to either placebo or ospemifene 5–90 mg/day, with the majority of ospemifene-treated women (73.2%; 1242/1696) receiving the FDA-approved dose of 60 mg. This report presents the safety data for ospemifene 60 mg/day. The duration of treatment ranged from 6 to 52 weeks in length.

1.

Descriptions of the Six Phase 2 and 3 Clinical Trials Included in This Safety Analysis

Study no.	Study design	Study duration	Treatment administered	Inclusion criteria	Efficacy endpoints
15-50717	Phase 2, placebo-controlled	12 weeks	Ospemifene 5 mg/day (n = 98) 15 mg/day (n = 98) 30 mg/day (n = 98)	Postmenopausal women (40–80 years) with BMI <37 kg/m2 diagnosed with VVA	Primary • Change from baseline to week 12 in % parabasal cells, % superficial cells, and vaginal pH
			Placebo (n = 98)		Secondary • Change from baseline to weeks 4 and 12 in visual evaluation of vagina • Change from baseline to week 4 in % parabasal cells, % superficial cells, and vaginal pH • Change from baseline to weeks 4 and 12 in serum hormone levels
15-5061522	Phase 2, placebo-controlled	6 weeks	Ospemifene 60 mg/day (n = 100)	Postmenopausal women (40–70 years) with ≥7 moderate to very severe hot flush per day or 50 per week	Primary • Change in frequency and severity of moderate to very severe hot flush from baseline to week 6
			Placebo (n = 98)		Secondary • Change in frequency and severity of mild to very severe hot flush from baseline to week 6
150600230	Phase 2, placebo-controlled	12 weeks	Ospemifene 30 mg/day (n = 40) 60 mg/day (n = 40) 90 mg/day (n = 40)	Healthy, postmenopausal women (45–65 years) with BMI ≤30 kg/m2	Primary • Biochemical markers for bone turnover from baseline to 12 weeks • Change in Kupperman index and single climacteric symptoms from baseline to weeks 4 and 12
			Placebo (n = 40)		Secondary • Change from baseline to week 12 in lipid/coagulation factors, endometrial biopsy and thickness, and glucose tolerance
15-5082117,18	Phase 3, placebo-controlled	12 weeks	Ospemifene 60 mg/day (n = 463)	Postmenopausal women (40–80 years) with BMI <37 kg/m2, and diagnosed with VVA and self-reported MBS of either dyspareunia or vaginal dryness	Primary • Change from baseline to week 12 in % parabasal cells, % superficial cells, vaginal pH, and severity of MBS
			Placebo (n = 456)		Secondary • Change from baseline to week 4 in % parabasal cells, % superficial cells, vaginal pH, and severity of MBS • Responder analysis at week 12 • Change in sexual activity and lubricant use from baseline to weeks 1 and 12
15-5031015/15-50310x20a	15-50310: Phase 3, placebo-controlled	12 weeks	Ospemifene 30 mg/day (n = 282) 60 mg/day (n = 276)	Postmenopausal women (40–80 years) with BMI <37 kg/m2, diagnosed with VVA and either dyspareunia or vaginal dryness as the self-reported MBS	Primary • Change from baseline to week 12 in % parabasal cells, % superficial cells, vaginal pH, and severity of MBS
			Placebo (n = 268)		Secondary • Change from baseline to week 4 in % parabasal cells, % superficial cells, vaginal pH, and severity of MBS; lubricant use
	15-50310x: Phase 3, placebo-controlled, safety study	40 weeks extension	Ospemifene 30 mg/day (n = 62) 60 mg/day (n = 69)	Postmenopausal women from study 15-50310 with an intact uterus	Only safety assessments conducted
			Placebo (n = 49)
15-5071821	Phase 3, placebo-controlled safety study	52 weeks	Ospemifene 60 mg/day (n = 363)	Postmenopausal women (40–80 years) with an intact uterus, BMI <30 kg/m2, diagnosed with VVA, and either dyspareunia or vaginal dryness as the self-reported MBS	Primary • Change from baseline to week 12/LOCF in % parabasal cells, % superficial cells, and vaginal pH
			Placebo (n = 63)		Secondary • Changes from baseline to weeks 12, 26, and 52 in % parabasal cells and % superficial cells, vaginal pH, visual evaluation of the vagina, and serum hormone levels

15-50310 and 15-5310x are considered as one clinical study.

BMI, body mass index; LOCF, last observation carried forward; MBS, most bothersome symptom; VVA, vulvar and vaginal atrophy.

Briefly, all studies randomized participants 1:1 except for the 52-week, long-term safety study (15-5071821), which randomized women 6:1 to receive ospemifene 60 mg or placebo. The 40-week extension study (15-50310x[20]) required participants to continue the randomized therapy they received during the previous 12-week study (15-5031015). Another 12-week study 15-50717 was an unpublished phase 2 dose-ranging study that compared the efficacy of once daily ospemifene at doses of 5, 15, and 30 mg with placebo in postmenopausal women with VVA (since ospemifene 60 mg is not included in study 15-50717, only placebo subjects from this study were included in the analysis reported here).

All studies were carried out in accordance with the recommendations from the Declaration of Helsinki. Study protocols, amendments, and informed consents were reviewed and approved by appropriate Institutional Review Boards or Independent Ethics Committees. All subjects from all studies provided written informed consent before study initiation.

Study population

Postmenopausal women aged 40 to 80 years with ≤5% vaginal superficial cells on a vaginal smear and a vaginal pH >5.0 were eligible to participate in studies 15-50717 and 15-50718.[21] Studies 15-5031015/15-50310x[20] and 15-5082117,18 required women to have at least 1 self-reported, most bothersome (moderate-to-severe) symptom of VVA (i.e., dyspareunia or vaginal dryness; study 15-5031015 could include other related symptoms). Study 150600230 was limited to postmenopausal women (45–65 years in age) with an intact uterus, and study 15-5061522 included postmenopausal women between the ages of 40 and 70 years with ≥7 moderate, severe, or very severe hot flushes per day or 50 per week.

Studies 15-50821,[21] 15-50615,[22] 15-50310,[15] and 15-50717 included women with and without an intact uterus, whereas studies 15-50718,[17,18] 1506002,[30] and 15-50310x[20] (the 40-week extension study) were limited to postmenopausal women with an intact uterus.

Women with an intact uterus were required to have a double-layer endometrial thickness <4 mm; no evidence of hyperplasia, cancer, or other pathology based on endometrial biopsy; and a negative Papanicolaou (PAP) test at screening. All women were required to have negative mammogram and normal clinical breast examination findings at screening.

Safety assessments and analysis

All analyses comparing ospemifene 60 mg and placebo were performed using descriptive statistics on the safety populations from placebo-controlled phase 2 and 3 studies. The safety populations were all enrolled women who took at least one dose of study drug. Numbers and percentages of women who experienced AEs were summarized. AEs were coded according to the Medical Dictionary for Regulatory Activities (MedDRA), and only TEAEs were summarized in the integrated summary. No missing data were imputed.

Adverse events

Safety assessments were descriptive in nature and included length of exposure to study medication; TEAEs and serious AEs (SAEs), deaths, and discontinuations due to AEs; and specific breast and cardiovascular safety assessments. A TEAE was defined as an AE with an onset date on or after the first dose of study medication and up to 30 days following the last dose date and was summarized by system organ class and preferred term. All TEAEs were rated by the investigator as mild, moderate, or severe and categorized by relatedness to treatment and duration of exposure. Events were considered treatment related if they were rated as possibly, probably, or definitely related, or if relatedness was missing or unknown. SAEs considered related to treatment were reported any time after the first dose and SAEs considered not related to treatment up to 30 days of the last dose.

Breast safety

Breast-related TEAEs were summarized by numbers and percentages of women based on a search of TEAEs in the pooled safety database by system organ class and preferred terms. Mammograms were performed at baseline and 12 months, and breast palpations were performed at baseline, 12 weeks, 6 months, and 12 months to assess breast safety. Findings on mammograms and palpations were classified by the investigator as normal, abnormal—not clinically significant, or abnormal—clinically significant. Breast density was not assessed.

Cardiovascular safety

Cardiovascular-related safety assessments included the occurrence of TEAEs related to myocardial infarction, sudden death, stroke cases, and venous thromboembolism identified based on a search of TEAEs in the pooled safety database by system organ class and preferred terms.

Vertebral and other fracture safety

Incidence of vertebral and other fractures was identified by a search of the pooled safety database for any TEAEs having a higher level group term or preferred term of fractures.

Results

Patient disposition and demographics

A total of 2200 postmenopausal women were randomized to receive ospemifene 60 mg (n = 1242) or placebo (n = 958; Fig. 1). The median duration of exposure was similar in both groups (ospemifene, 86 days [range 1–395]; placebo, 84 days [range 1–378]). Most women randomized to ospemifene 60 mg (85.4%; 1061/1242) and placebo (87.2%; 835/958) completed treatment (Fig. 1). A larger percentage of ospemifene- (7.6%) versus placebo-treated women (3.7%) discontinued treatment due to an AE (Fig. 1).

Disposition of the phase 2 and 3, double-blind placebo-controlled studies included in this integrative safety analysis.

Baseline demographics were comparable between the two treatment groups. Over 90% of the generally healthy women included in this analysis were white, with an average age of 59 years and mean body mass index (BMI) of 26 kg/m2 (Table 2). Both ospemifene- (87.2%; 1083/1242) and placebo-treated (86.1%; 825/958) women took concomitant medications; most frequently, ibuprofen, acetylsalicylic acid, levothyroxine, calcium, and multivitamins (13%–16% each medication).

2.

Baseline Demographics and Gynecologic Characteristics

Characteristics	Placebo	Ospemifene 60 mg
Age, years	n = 958	n = 1242
Mean ± SD	59.1 ± 6.27	59.4 ± 6.49
Range	41–79	40–80
<45, n (%)	8 (0.8)	11 (0.9)
45–54, n (%)	212 (22.1)	268 (21.6)
55–64, n (%)	563 (58.8)	696 (56.0)
≥65, n (%)	175 (18.3)	267 (21.5)
Race, n (%)	n = 956	n = 1242
White	871 (91.1)	1159 (93.3)
Black or African American	49 (5.1)	47 (3.8)
Asian	9 (0.9)	12 (1.0)
Pacific Islander	0	4 (0.3)
Other	27 (2.8)	20 (1.6)
BMI, kg/m2	n = 958	n = 1242
Mean ± SD	26.03 ± 4.19	25.69 ± 4.03
Range	16.5–40.8	15.7–48.6
Intact uterus	n = 957	n = 1242
n (%)	570 (59.6)	851 (68.5)
Number of pregnancies	n = 724	n = 739
Mean ± SD	2.40 ± 1.63	2.40 ± 1.66
Vaginal birth	n = 919	n = 1202
n (%), Yes	678 (73.8)	921 (76.6)
Mean ± SD	1.70 ± 1.37	1.70 ± 1.30
Previous hormone treatment,[a]	n = 958	n = 1242
n (%), Yes	183 (19.1)	262 (21.1)

Including estrogen and/or progestin therapies, vaginal hormone products, hormonally active herbal therapies, and/or soy supplements within 6 months of the first dose of study drug.

SD, standard deviation.

Adverse events

TEAEs and treatment-related TEAEs were reported by 67.6% and 30.4% of ospemifene-treated women and 54.1% and 16.4% of placebo-treated women, respectively. Most TEAEs and treatment-related TEAEs were mild or moderate in severity. Most TEAEs occurred within 4 to 12 weeks of study start, and the median time to onset of any TEAE was 23 days with ospemifene and 22 days with placebo.

The most commonly reported TEAEs with ospemifene 60 mg were hot flush (8.5% vs. 3.3% for placebo), urinary tract infection (6.5% vs. 4.8%), headache (5.4% vs. 5.9%), nasopharyngitis (5.4% vs. 3.1%), muscle spasms (4.4% vs. 1.4%), vaginal discharge (4.4% vs. 0.4%), and vulvovaginal candidiasis (4.3% vs. 0.5%; Table 3). The most common treatment-related TEAEs with ospemifene 60 mg were hot flush (7.5% vs. 2.6% for placebo), vaginal discharge (3.8% vs. 0.3%), muscle spasms (3.2% vs. 0.9%), and headache (2.4% vs. 2.4%; Supplementary Table S1).

3.

Number and Percentage of Women Reporting the Most Frequent (>2% of Women) Treatment-Emergent Adverse Events

Preferred term,[a] n (%)	Placebo (n = 958)	Ospemifene 60 mg (n = 1242)
Any TEAE	518 (54.1)	840 (67.6)
Hot flush	32 (3.3)	106 (8.5)
Urinary tract infection	46 (4.8)	81 (6.5)
Headache	57 (5.9)	67 (5.4)
Nasopharyngitis	30 (3.1)	67 (5.4)
Muscle spasms	13 (1.4)	55 (4.4)
Vaginal discharge	4 (0.4)	55 (4.4)
Vulvovaginal candidiasis	5 (0.5)	53 (4.3)
Back pain	23 (2.4)	37 (3.0)
Sinusitis	36 (3.8)	37 (3.0)
Vulvovaginal mycotic infection	5 (0.5)	38 (3.1)
Diarrhea	16 (1.7)	30 (2.4)
Arthralgia	24 (2.5)	27 (2.2)
Insomnia	11 (1.1)	27 (2.2)
Upper respiratory tract infection	34 (3.5)	26 (2.1)
Bronchitis	13 (1.4)	25 (2.0)

Subjects with >1 TEAE that coded for the same preferred term were counted once for that preferred term.

TEAE, treatment-emergent adverse event.

TEAEs leading to discontinuation were experienced by 7.6% (95/1242) of women treated with ospemifene versus 3.8% (36/958) with placebo (Supplementary Table S2). The most common TEAEs leading to discontinuation of ospemifene were hot flush (1.0%, 0.3% for placebo), muscle spasms (0.6%, 0.1% for placebo), headache (0.5%, 0.2% for placebo), and vaginal discharge (0.5%, 0% for placebo; Supplementary Table S2).

SAEs occurred with low frequency (2.6% for ospemifene 60 mg, 1.8% for placebo; Supplementary Table S3) and most were considered unrelated to treatment. Treatment-emergent SAEs reported by more than one patient treated with ospemifene 60 mg were appendicitis (0.2%), diverticulitis (0.2%), and deep vein thrombosis (DVT) (0.2%). No SAE was reported by more than one subject taking placebo. Treatment-related SAEs included endometrial hyperplasia (simple hyperplasia without atypia, n = 1, probably related), cerebrovascular accident (n = 1, possibly related), ovarian cyst (n = 1, possibly related), DVT (n = 1, probably related and n = 1, possibly related; reported below), global amnesia (n = 1, possibly related), and nausea (n = 1, possibly related) in the ospemifene 60 mg group, and one case of breast cancer in situ possibly related in the placebo group (reported below). No deaths were reported in any study.

Breast safety

The incidence of breast-related TEAEs was low with ospemifene 60 mg (2.5%) and placebo (2.2%; Table 4). The most commonly reported breast-related TEAEs with ospemifene were comparable to placebo; breast tenderness (0.9% vs. 0.6% for placebo), breast mass (0.6% vs. 0.4%), and breast pain (0.6% vs. 0.3%). Breast enlargement was recorded as a corresponding diagnosis for one ospemifene-treated patient who underwent a preplanned elective breast reduction surgery 49 days after initial treatment. None of the breast-related TEAEs led to discontinuation with ospemifene 60 mg.

4.

Number and Percentage of Women with Treatment-Emergent Adverse Events Related to Breast, Cardiovascular, and Bone Health

Preferred term,[a] n (%)	Placebo (n = 958)	Ospemifene 60 mg (n = 1242)
Any breast-related TEAE	21 (2.2)	31 (2.5)
Breast tenderness	6 (0.6)	11 (0.9)
Breast mass	4 (0.4)	7 (0.6)
Breast pain	3 (0.3)	7 (0.6)
Breast enlargement[b]	0	2 (0.2)
Fibrocystic breast disease	1 (0.1)	1 (0.1)
Breast calcifications	0	1 (0.1)
Breast cyst	4 (0.4)	1 (0.1)
Breast discomfort	1 (0.1)	1 (0.1)
Breast disorder	0	1 (0.1)
Breast prosthesis implantation	0	1 (0.1)
Mammoplasty	0	1 (0.1)
Biopsy breast	1 (0.1)	0
Breast cancer	1 (0.1)	0
Breast cancer in situ	1 (0.1)	0
Breast discharge	1 (0.1)	0
Mammary duct ectasia	1 (0.1)	0
Any cardiovascular-related TEAE	1 (0.1)	4 (0.3)
Deep vein thrombosis	0	2 (0.2)
Cerebrovascular accident	1 (0.1)	1 (0.1)
Cerebral hemorrhage	0	1 (0.1)
Any vertebral and other fracture-related TEAE	14 (1.5)	15 (1.2)
Foot fracture	3 (0.3)	6 (0.5)
Ankle fracture	3 (0.3)	2 (0.2)
Lower limb fracture	2 (0.2)	2 (0.2)
Spinal fracture	0	2 (0.2)
Upper limb fracture	0	1 (0.1)
Wrist fracture	1 (0.1)	2 (0.2)
Humerus fracture	0	1 (0.1)
Hand fracture	1 (0.1)	0
Patella fracture	2 (0.2)	0
Rib fracture	1 (0.1)	0
Tibia fracture	1 (0.1)	0

Subjects with >1 TEAE that coded to the same preferred term were counted once for that preferred term.

Breast enlargement reported to provide corresponding diagnosis for breast reduction; breasts had not actually enlarged during the study.

No cases of breast cancer were reported with ospemifene 60 mg. One woman from the placebo group discontinued treatment due to breast cancer diagnosis. One other woman taking placebo reported an SAE of breast cancer in situ but completed the study.

The percentages of women who had abnormal—not clinically significant—mammogram findings at baseline were 11.9% with ospemifene 60 mg and 6.3% with placebo (Table 5). After 12 months, the percentage of women with abnormal—not clinically significant—findings was comparable to placebo at 7.8% with ospemifene 60 mg and 8.5% with placebo (Table 5). No abnormal—clinically significant—mammogram findings were reported. Breast density was not assessed.

5.

Normal and Abnormal Breast Mammogram and Palpation Findings

Characteristic,[a] n (%)	Placebo	Ospemifene 60 mg
Mammogram findings	n = 63	n = 363
Baseline (randomization), n	63	362
Normal	59 (93.7)	319 (88.1)
Abnormal-not clinically significant	4 (6.3)	43 (11.9)
Abnormal-clinical significant	0	0
12 months, n	47	269
Normal	43 (91.5)	248 (92.2)
Abnormal-not clinically significant	4 (8.5)	21 (7.8)
Abnormal-clinically significant	0	0
Breast palpation findings	n = 821	n = 1102
Baseline (randomization), n	821	1100
Normal	802 (97.7)	1069 (97.2)
Abnormal	19 (2.3)	31 (2.8)
12 weeks, n	710	946
Normal	684 (96.3)	925 (97.8)
Abnormal	26 (3.7)	21 (2.2)
6 months, n	96	379
Normal	94 (97.9)	377 (99.5)
Abnormal	2 (2.1)	2 (0.5)
12 months, n	90	354
Normal	90 (100)	351 (99.2)
Abnormal	0	3 (0.8)

Mammography and breast palpation were not performed in all studies.

Incidence of abnormal breast palpation findings at baseline was 2.8% with ospemifene 60 mg and 2.3% for placebo (Table 5). The percentage of subjects with the abnormal finding remained low with ospemifene 60 mg and placebo at 12 weeks, 6 months, and 12 months (Table 5).

Cardiovascular safety

The incidence of cardiovascular-related TEAEs, specifically DVT, cerebrovascular accident, and cerebral hemorrhage, was low with ospemifene (four subjects, 0.3%) and placebo (one subject, 0.1%; Table 4). Two women (one from the ospemifene 60 mg group and one from the placebo group) experienced a cerebrovascular accident. Cerebral hemorrhage was also reported for one ospemifene-treated woman who had significant risk factors. Two ospemifene-treated patients reported DVT as a TEAE, with one patient experiencing a DVT after long-term immobilization. The second ospemifene-treated patient had entered the trial with DVT prophylaxis, suggesting a previous history of DVT. One woman from the placebo group was diagnosed with DVT after experiencing a cerebral aneurysm and subsequent cerebrovascular accident. However, this was not recorded as a TEAE as the DVT was not discovered within the prespecified treatment period (37 days after discontinuing study drug). It should be noted that all three women (two from ospemifene 60 mg group and one from placebo group) had risk factors for DVT.

Incidence of DVT per 1000 patient years was 2.12 with ospemifene 60 mg (two subjects) and 3.66 with placebo (one subject; reported 7 days outside of the window defined for TEAE). The hazard ratio for DVT with ospemifene 60 mg versus placebo was 0.6 (95% confidence interval [CI] 0.11–3.14). No incidence of pulmonary embolism (PE) or retinal vein thrombosis was reported.

Vertebral and other fractures

The incidence of vertebral and other fracture-related TEAEs was low and comparable between the ospemifene (1.2%) and placebo (1.5%; Table 4) groups. Fracture-related TEAEs frequently reported by ospemifene-treated patients included foot (n = 6, 0.5%), ankle (n = 3, 0.3%), lower limb (n = 2, 0.2%), spine (n = 2, 0.2%), and wrist (n = 2, 0.2%) fractures. Foot (n = 3, 0.3%), ankle (n = 2, 0.2%), lower limb (n = 2, 0.2%), and patella (n = 2, 0.2%) fractures were the most commonly reported TEAEs by placebo-treated patients. No patients discontinued the treatment due to a vertebral or other fracture-related TEAE.

Discussion

In this integrative safety analysis of pooled data from six phase 2 and 3 trials, ospemifene 60 mg versus placebo was generally well tolerated with no unexpected safety signals on the breast, cardiovascular system, or bone of postmenopausal women. The results from this analysis further extend data from individual clinical studies demonstrating the safety of ospemifene 60 mg in healthy postmenopausal women (study 150600230), those diagnosed with VVA (studies 15-50717, 15-503109/15-50310x,[20] 15-50718,[21] 15-5082117,18), and those experiencing moderate-to-severe hot flushes (study 15-5061522).

Relatively few women discontinued ospemifene 60 mg due to AEs; however, those that did reported hot flushes as the most common reason for discontinuation. A separate analysis of the pooled hot flush TEAE data found that the incidence of hot flush TEAEs was significantly greater with ospemifene 60 mg (8.5%) versus placebo (3.2%; p < 0.0001).[22] However, hot flush TEAEs were most frequently experienced within the first 4 weeks of initiating ospemifene and declined with continuous use.[22] HT use within 6 months of study start (p = 0.0294), longer study treatment duration (p = 0.0258), and higher frequency of hot flush days per month at baseline (p = 0.0326) were also identified as significant predictors of hot flush events with ospemifene 60 mg.[22] Finally, ospemifene 60 mg was not found to worsen the frequency or severity of hot flushes in a 6-week, placebo-controlled study (15-50615) of 198 postmenopausal women experiencing at least 7 moderate-to-very severe hot flushes per day (or 50 per week).[22]

While the clinical data for breast safety (in particular breast cancer) is currently limited, this integrated safety analysis demonstrated that the breast tolerability profile (breast-related TEAEs, abnormal mammograms, and breast palpation) following ospemifene treatment for up to 52 weeks was similar to that of placebo. The clinical breast safety data for ospemifene were consistent with previously reported cell- and animal-based studies.[28,29,32] A recent in vitro study found ospemifene inhibited proliferation and opposed estradiol stimulation in normal human breast tissue samples obtained from 26 postmenopausal women undergoing reduction mammoplasty.[32] Collectively, the data suggest that ospemifene 60 mg likely has neutral to antagonistic effect in the breast; however, these preclinical data need to be confirmed by longer term clinical breast safety data, including breast density data.

Ospemifene 60 mg, as shown in this analysis, does not have a detrimental effect on cardiovascular problems in healthy postmenopausal women. In addition, there were no reports of heart attacks, heart failure, or death from coronary heart disease. The cardiovascular safety of ospemifene is supported by findings from a separate post hoc analysis, which demonstrated that ospemifene did not have a negative effect on the lipid and coagulation parameters in postmenopausal women.[23] Compared with placebo, ospemifene 60 mg significantly increased high-density lipoprotein (HDL) and decreased low-density lipoprotein (LDL) levels in postmenopausal women at 3, 6, and 12 months with no adverse effects on total cholesterol and triglycerides.[23] Ospemifene 60 mg, compared with placebo, also significantly reduced fibrinogen levels, but the levels remained within the normal clinically acceptable range for majority of the patients.[23]

Reported incidences of venous thromboembolism (VTE) (a disease which includes both DVT and pulmonary embolism [PE]) events did not differ significantly between the ospemifene and placebo groups. In general, the venous thrombosis safety of ospemifene was consistent with reports for other SERMs. Incidence of VTE per 1000 patient-years was 2.12 for ospemifene 60 mg, 1.7 for bazedoxifene 20 mg,[33] and 3.5 raloxifene 60 mg.[34] In this post hoc analysis, the likelihood of experiencing a DVT was not significant in healthy low-risk women treated with ospemifene 60 mg (HR 0.6, 95% CI 0.11–3.14) compared with placebo, which is in contrast to what has been previously reported for raloxifene 60 mg (RR 3.1, 95% CI 1.4–6.9)[34] and bazedoxifene 20 mg (HR 8.0, 95% CI 1.01–64.25) in older postmenopausal women with osteoporosis.[33] Note, however, that this analysis was not powered to determine the risk of DVT with ospemifene or its use in higher risk populations.

Estrogen loss upon the onset of menopause often leads to loss of bone density and osteoporosis. Preclinical[28,35] and individual clinical studies (using biochemical markers to evaluate bone health)[26,27] have shown that ospemifene does not have a negative impact on the bone health of postmenopausal women.[24] Our safety data are consistent with these previous reports as the incidence of vertebral and other-related fractures was low with ospemifene 60 mg (1.2%) and comparable to placebo (1.5%) in women in whom osteoporotic risk was not evaluated. Based on early clinical data, ospemifene may protect against bone loss due to menopause with continuous use; however, this needs to be confirmed by longer term clinical data on bone density and fractures in women at risk for osteoporosis.

Endometrial and uterine safety are of key importance when prescribing estrogen-based treatments, including ospemifene, to postmenopausal women. Results from a post hoc analysis of pooled phase 2 and 3 endometrial and uterine safety data for ospemifene 60 mg have been previously reported.[16] The analysis demonstrated that proportions of women with endometrial thickness (≥5 mm) and vaginal bleeding did not vary significantly with ospemifene 60 mg (n = 851) versus placebo (n = 543) in women with an intact uterus.[16] Incidence of suspected endometrial polyps based on histology was similar with ospemifene 60 mg (1.4%) and placebo (1.6%).[16] Incidence of uterine polyps was 0.6% with ospemifene 60 mg and 0.2% for placebo.[16] One ospemifene-treated patient (0.3%) experienced simple endometrial hyperplasia without atypia, which is well within the FDA recommended rate of <1% with an upper bound <4% of the one-side 95% CI.[16] No cases of endometrial cancer, endometrial carcinomas, complex hyperplasia, or hyperplasia with atypia were observed with either ospemifene 60 mg or placebo.[16]

Despite the safety data presented above, the prescribing information for ospemifene includes a boxed warning issued by the FDA, which states that “there is an increased risk of endometrial cancer in a woman with a uterus who uses unopposed estrogens.”[13] The warning also recommends prescribing progestin when recommending an estrogen-based treatment to postmenopausal women with an intact uterus. However, this is not clinically recommended as there are no safety and efficacy data for ospemifene and progestogen combination therapy. The boxed warnings appear to be based on endometrial safety data for systemic HT and to raise caution.[36,37] Women who develop postmenopausal vaginal bleeding while taking ospemifene should be evaluated with appropriate testing such as vaginal ultrasound and/or endometrial biopsy.

The strengths of this pooled analysis are the large number of subjects, the 40-week extension study, and the ability to detect the occurrence of infrequent AEs. The post hoc nature of this analysis, which combines multiple studies varying in length and endpoints, as well as the predominantly healthy, nonobese white patient population, limits the generalizability of the findings to the general population. Furthermore, this analysis of safety data combined from multiple studies was not designed or powered to rigorously determine the risk of breast, cardiovascular, and bone-related AEs. Longer term clinical trials and monitoring are needed to establish the risk of complications that typically evolve more slowly, such as endometrial cancer, breast cancer, and bone fractures, risks in different ethnic populations, or in women at risk for serious outcomes.

Conclusion

This post hoc analysis of pooled safety data for predominantly healthy, nonobese, white postmenopausal women suggests that ospemifene 60 mg once daily does not detrimentally impact the breast, bone, and cardiovascular health of these women with results comparable to placebo. These data further extend the safety data reported by individual clinical studies and other post hoc analyses and provide valuable, clinically relevant safety information that enables healthcare providers to appropriately prescribe ospemifene 60 mg to postmenopausal women with painful intercourse and VVA.