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Transition From Estrogen–Progestin to Raloxifene in Postmenopausal Women: Effect on Vasomotor Symptoms

From the Women’s Health and Internal Medicine, Comprehensive NeuroScience, Inc, Atlanta, Georgia; Department of Obstetrics and Gynecology, Brigham and Women’s Hospital, Boston, Massachusetts; Lilly Research Laboratories, Indianapolis, Indiana.

Address reprint requests to: Stephen Gordon, MD, Comprehensive NeuroScience, Inc, Women’s Health and Internal Medicine, 6065 Roswell, Suite 820, Atlanta, GA 30328; e-mail: flashmd_4919{at}msn.com.

	ABSTRACT

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OBJECTIVE: To compare vasomotor symptoms after transition from estrogen–progestin therapy to raloxifene 60 mg/d with and without a placebo washout.

METHODS: Postmenopausal women currently taking continuous combined estrogen–progestin therapy (conjugated equine estrogen, 0.625 mg/medroxyprogesterone acetate, 2.5 or 5 mg) daily for 5 or more months were enrolled. Women were randomized to 1 of 4 blinded regimens: 1) 12 weeks estrogen–progestin; 2) 12 weeks placebo; 3) 4 weeks placebo, then 8 weeks raloxifene; or 4) 12 weeks raloxifene. For the final 36 weeks, all subjects received raloxifene. Vasomotor symptoms were assessed by patient diaries.

RESULTS: A total of 266 women (mean age 57.5) were enrolled. Mean hot flush frequency at baseline was approximately 1 per week in the entire population, with 16% of women reporting hot flushes. Mean frequency and severity of hot flushes during the first 12 weeks of the study were statistically greater in the 3 groups transitioned off estrogen–progestin (range of hot flushes per week: 4 weeks, 11–12; 8 weeks, 18–24; 12 weeks, 13–16), as compared with those continuing estrogen–progestin, with no difference between these 3 groups (P.1). Approximately 50–70% of these women reported hot flushes, generally rated as mild to moderate by participants, after estrogen–progestin discontinuation.

CONCLUSION: A large proportion of women discontinuing estrogen–progestin experience hot flushes. Raloxifene does not appear to increase the frequency or severity of vasomotor symptoms in women discontinuing estrogen–progestin more than that observed with placebo treatment after estrogen–progestin discontinuation. Transition from estrogen–progestin to raloxifene with no washout period therefore may be acceptable.

LEVEL OF EVIDENCE: I

Raloxifene is a selective estrogen receptor modulator used for the prevention and treatment of postmenopausal osteoporosis.^3,4 Randomized controlled clinical trials have demonstrated that raloxifene preserves bone mineral density in healthy postmenopausal women and decreases the risk of vertebral fracture by up to 55% in postmenopausal women with osteoporosis treated for up to 3 years.^3–5 Raloxifene therapy is associated with an increased risk for venous thromboembolism similar in magnitude to estrogen–progestin therapy but does not cause endometrial bleeding or breast tenderness.^6–8 Raloxifene also has a neutral effect on the incidence of endometrial hyperplasia and endometrial cancer, in contrast to other selective estrogen receptor modulators, such as tamoxifen.^6,9 Raloxifene has been reported to increase the incidence of hot flushes (eg, 28% versus 21% for raloxifene and placebo, respectively).¹⁰

Women who discontinue estrogen–progestin therapy may experience symptoms of estrogen withdrawal (vasodilatation, sweats, sleep disturbance). For those women who chose to then initiate raloxifene for the prevention or treatment of osteoporosis, transition from estrogen–progestin to raloxifene may be associated with a further exacerbation of these symptoms. The objective of the current study was to compare different strategies to transition women from continuous combined estrogen–progestin therapy to raloxifene to identify the best-tolerated protocol. The current report focuses on the vasomotor diary results from the 12-week transitioning phase of the trial. It is anticipated that this knowledge will promote compliance with drug therapy.

	MATERIALS AND METHODS

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This clinical trial was conducted at 23 study centers in the United States. The study spanned 52 weeks and consisted of an initial 4-week lead-in period, a 12-week, double-blind, randomized phase followed by a 36-week single blinded raloxifene 60 mg/d treatment arm (Figure 1). Postmenopausal women who were already taking estrogen–progestin were eligible to enter the study. Inclusion criteria included age less than 75 years, last menstrual period at least 12 months before having entered the study or laboratory evidence of menopause, current usage of estrogen–progestin in the form of either Premarin (Wyeth Pharmaceuticals, Philadelphia, PA; 0.625 mg) along with medroxyprogesterone acetate (2.5 or 5 mg) or Prempro (Upjohn Company, Kalamazoo, MI) on a daily basis for at least 5 months. Women were excluded if they had a previous history of hysterectomy; history of breast cancer or estrogen-dependent neoplasia; abnormal uterine bleeding; current osteoporosis; history of deep venous thrombosis, thromboembolic disorders, cerebral vascular accident, or myocardial infarction; treatment with bisphosphonate or fluoride therapy within 3 months of enrollment; diabetes or other endocrine disorders requiring pharmacologic therapy; or clinically significant postmenopausal symptoms.

View larger version (17K): [in this window] [in a new window]   Figure 1. Study design. Gordon. Transition to Raloxifene. Obstet Gynecol 2004.

Raloxifene 60 mg/d (Evista; Eli Lilly and Company, Indianapolis, IN) was provided as an oral tablet and conjugated equine estrogens 0.625 mg/d (Premarin) was provided as an encapsulated tablet. Medroxyprogesterone acetate (2.5 mg; Provera) was provided as an encapsulated tablet identical in appearance to the Premarin capsule. Women took 1 or 2 medroxyprogesterone acetate capsules depending on whether their usual dosage had been 2.5 or 5 mg/d, respectively. Placebo was provided in tablets identical in appearance to those of raloxifene or those of encapsulated conjugated equine estrogens or medroxyprogesterone acetate. Compliance to study medication was determined by pill counts. A subject was regarded as severely noncompliant if she missed more than 30% of study drug between 2 separate visit intervals. The protocol was approved by the institutional review board at each study site. Women signed a written informed consent document before entering the study.

The primary objective of the study was to determine the effect of the transition from estrogen–progestin to raloxifene on overall quality of life. The results presented herein focus on vasomotor symptom results from patient diaries. Study visits occurred at 4-week intervals for the first 24 weeks of the study and then at the 52-week study completion. Subject diaries were used to quantify the number and severity of hot flushes and night sweats experienced daily for the 7 days before the baseline visit (ie, after the 4-week lead-in period) and at every visit thereafter. Subjects rated the maximum severity of vasomotor symptoms on an ordinal scale: 0 = none, 1 = mild, 2 = moderate, and 3 = severe. At each study visit, women were questioned about the occurrence and nature of adverse events. All adverse events reported at each postbaseline visit were recorded.

All analyses were performed using an intent-to-treat approach. Because the number and severity of hot flushes and night sweats were not normally distributed as determined by Shapiro-Wilk tests, ranked analysis of variance procedures were used for the analyses. Specifically, the independent variables were investigator and therapy, and the dependent variable was the ranked change from baseline to each postbaseline time point. One-way analysis of variance was used to analyze continuous baseline characteristics. For categorical variables (incidence of hot flushes or night sweats, adverse events, discontinuation from the study, compliance), either ² or Fisher exact test was used. All tests were 2-sided with significance level of .05.

	RESULTS

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A total of 409 women were screened, and 266 women were randomized in the study. Women were enrolled between October of 1997 and October of 1999. The majority of the participants were white women (94%). The mean age was 57.5 years, mean time since menopause was 7.9 years, mean years of previous estrogen use was 3.1, and mean body mass index was 26 kg/m². A significant portion of women (16.2%) had hot flushes at baseline with a mean number of 1.0 (SD 3.6) per week in the overall population. The maximum number of hot flushes per week reported at baseline was 36. For night sweats, 22.2% of subjects reported these at baseline, with a mean of 1.0 (SD 2.7) per week in the overall population and a maximum of 19 per week. There were no differences in these or other baseline characteristics across treatment groups (Table 1). A total of 16.5% of women discontinued the study during the 12-week double-blind phase, with no significant differences between treatment groups (P = .24). There were no significant differences in reporting of adverse events among the treatment groups during the 12-week period (P = .19). There were no reports of venous thromboembolic events during the study. There were also no significant differences in the number of women who were severely noncompliant among the treatment groups during this time period (P = .8).

View larger version (13K): [in this window] [in a new window]   Figure 2. Incidence of vaginal bleeding during transition phase of study. *Vaginal bleeding in the estrogen–progestin group was significantly different from the other 3 groups (P > .004). There were no significant differences in vaginal bleeding among the 3 groups transitioned from estrogen–progestin therapy. Gordon. Transition to Raloxifene. Obstet Gynecol 2004.

View larger version (16K): [in this window] [in a new window]   Figure 3. Frequency of hot flushes (top panel) and night sweats (bottom panel) of the treatment groups after transitioning from estrogen–progestin. The overall percent of women experiencing vasomotor symptoms at baseline and at 4, 8, and 12 weeks posttransition was 15%, 54%, 72%, and 69% for hot flushes and 22%, 56%, 60%, and 58% for night sweats, respectively. P .16 for among-group comparison (mean number and percentage of women with hot flushes or night sweats at any time after transition from estrogen–progestin). Gordon. Transition to Raloxifene. Obstet Gynecol 2004.

When comparing the 3 transitioned treatment groups to the Estrogen–Progestin group during the 12-week transitioning period, there were statistically significant differences for vasomotor symptoms. All 3 transitioned arms had marked increases in the frequency and severity of hot flushes and night sweats, which was significantly different from the Estrogen–Progestin arm (P < .001). There was also a significant difference in discontinuations because of intolerable vasomotor symptoms when comparing the 3 transitioned groups to the Estrogen–Progestin group (P = .005). However, the continued Estrogen–Progestin arm had a higher incidence of vaginal bleeding when compared with the other arms (P = .004) (Figure 2).

The study design (Figure 1) provides an opportunity to compare the effect of direct transition from estrogen–progestin to raloxifene compared with an intervening washout period before initiating raloxifene in a larger sample of patients. Data were pooled from the 2 treatment arms where transition from estrogen–progestin to raloxifene was performed directly (direct transition, n = 135) and from the 2 treatment arms with a placebo washout period (placebo washout, n = 131) and compared at the 4-week post-transition time point. There was no significant difference in the baseline characteristics between the 2 combined groups.

The results for these 2 combined groups are analogous to those observed with the individual treatment arms, with no significant difference in vasomotor symptoms between the 2 groups (P > .5). At baseline, the percent of subjects reporting hot flushes and the mean number of hot flushes were 15% and 1 per week for the placebo washout group and 18% and 1 per week for the direct transition group, respectively. At 4 weeks after transition, both the group with an intervening washout period and the group transitioned directly to raloxifene showed an increase in hot flushes, with 54% of subjects in each group reporting hot flushes and an overall mean of 11 per week for both groups (P > .5). Similar results were observed for night sweats (P > .5).

	DISCUSSION

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Current clinical recommendations from a number of professional societies, including the American College of Obstetrics and Gynecology, limit the use of estrogen and estrogen–progestin therapy for the treatment of menopausal symptoms (eg, vasomotor and urogenital).^1,2 Although many estrogen and estrogen–progestin products are used for the prevention of postmenopausal osteoporosis, because of the potential risks associated with these forms of therapy, these professional groups recommend that alternatives be considered. Furthermore, use of estrogen and estrogen–progestin should be limited to as short of a duration as possible and to the lowest effective dose.^1,2 Given the widespread use of estrogen–progestin, the consequences of transitioning from estrogen–progestin, including development of vasomotor symptoms, to other agents used for the prevention and treatment of postmenopausal osteoporosis, such as bisphosphonates or raloxifene, is of great clinical interest. The current study compared the effect of different strategies of transitioning from estrogen–progestin to raloxifene, namely using a placebo washout period for 4 to 12 weeks as opposed to a direct transition to raloxifene, on vasomotor symptoms. In addition, data collected also provide some insights into the development of vasomotor symptoms during a 12-week period after estrogen–progestin discontinuation in the placebo arm of the trial.

Our results indicate that discontinuation of estrogen–progestin is associated with an increase in frequency and severity of hot flushes and night sweats irrespective of whether women were transitioned to raloxifene. During the 12-week transition period, vasomotor symptoms were similar in the group of women transitioned immediately to raloxifene as compared with those that had a 4-week course of placebo followed by 8 weeks of raloxifene and those with 12 weeks of placebo. On average, the frequency of vasomotor symptoms after the discontinuation of estrogen–progestin was between 2–3 per day. The vast majority of vasomotor events were rated as mild or moderate, and the rate of discontinuation from vasodilatation was low. These results are interesting in that they suggest that raloxifene does not contribute further to vasomotor symptoms in women discontinuing estrogen–progestin. Thus, direct transition form estrogen–progestin to raloxifene with no washout period may be clinically acceptable.

Peak incidence of vasomotor symptoms after discontinuation of estrogen–progestin occurs about 8 weeks from the last dose of estrogen–progestin. This observation is new, and to our knowledge, has not been documented previously on the basis of a randomized, controlled trial. Current clinical practice regarding the transitioning of patients from estrogen–progestin to raloxifene consists of a minimum period of 4-week wash-out from estrogen–progestin followed by initiation of raloxifene 60 mg/d. However, our data suggest that a 4-week washout period may actually constitute one of the least conducive approaches to transitioning women from estrogen–progestin to raloxifene. Nearly half of women who did not have vasomotor symptoms 4 weeks after discontinuing estrogen–progestin will develop new onset vasomotor symptoms over the next 4 weeks. Although this appears to be purely related to the discontinuation of estrogen–progestin and not to be influenced by treatment with raloxifene, physicians may have a difficult time convincing individual women who do not experience vasomotor symptoms until they initiate raloxifene 4 weeks after discontinuing estrogen–progestin. Thus, if a washout period is used in transitioning women from estrogen to raloxifene, we recommend that this period be for at least 8 weeks.

The findings among women who continued in a blinded fashion on estrogen–progestin reveal the highly subjective and unpredictable nature of vasomotor symptoms. Clearly, some women reported the onset of a high frequency of vasomotor symptoms despite the fact that their estrogen–progestin regimen had not been modified. This provides an interesting paradox to the high favorable placebo response rate seen in hot flush treatment trials.^11,12 Thus, the development of hot flushes is highly subjective, and any clinical conclusion around the course and behavior of vasomotor symptoms needs to based on accurate data from double-blind randomized controlled trials.

There are a number of limitations to this study. The reasons for initially starting or continuing on estrogen–progestin before entry into the trial were not captured during the randomization process. The population in our study most likely consisted of both women who initiated estrogen–progestin for control of vasomotor symptoms and those taking it for other known or perceived benefits. Whether discontinuation of estrogen–progestin in women with or without underlying menopausal symptoms at baseline results in similar trends in ensuing vasomotor symptoms both in the absence and presence of raloxifene is not known. In addition, this study was conducted in the period before the Women’s Health Initiative findings that have resulted in recent changes to clinical recommendations and in a wider awareness among the general population of the risks and benefits of estrogen progestin therapy.¹³ Women’s attitudes regarding the transition from estrogen–progestin to raloxifene may have evolved since the trial has concluded. Finally, the current study examined only several of many potential ways in which to transition women from estrogen–progestin to raloxifene. Other proposed approaches include the progressive tapering down of estrogen–progestin over periods ranging from weeks to months, with an intermediate period of no treatment, and progressive tapering up of raloxifene treatment over a period of days to weeks. Despite these limitations, the trial provides valuable insights into the natural course of vasomotor symptoms after discontinuation of estrogen–progestin, as well as during the transition onto raloxifene.

Many patients discontinuing estrogen–progestin are in need of treatment for the prevention or treatment of osteoporosis. Recommended therapeutic options consist of bisphosphonates or raloxifene.^1,2 For women who choose raloxifene, the current data suggest that initiation of raloxifene immediately upon discontinuation of estrogen–progestin, in a manner analogous to the initiation of bisphosphonates, is a clinically acceptable approach. With either treatment, women may suffer from comparable vasomotor symptoms. The vasomotor symptoms will improve over time and may be managed through a variety of nonhormonal means.¹⁴ Alternatively, clinicians may wish to discontinue their patients from estrogen–progestin, monitor them for at least 8 weeks, until the vasomotor symptoms stabilize or start improving, and then initiate raloxifene treatment.

	Footnotes

 
The authors thank Yongming Qu for assistance with statistical analysis.

Financial Disclosure
This study was supported by Eli Lilly and Company. Authors Ciaccia, Plouffe Jr, Rosen, and Siddhanti are employees of and hold stock in Eli Lilly and Co. Author Gordon has received honoraria from and is a stockholder of Eli Lilly. Author Walsh is on the Speakers Bureau of Eli Lilly, and Wyeth and has received honoraria from Eli Lilly.

doi: 10.1097/01.AOG.0000110247.98588.ff

Received July 10, 2003. Received in revised form October 28, 2003. Accepted November 6, 2003.

	REFERENCES

TOP ABSTRACT MATERIALS AND METHODS RESULTS DISCUSSION REFERENCES

 
1. Guidelines for Women’s Health Care. In: American College of Obstetricians and Gynecologists. 2nd ed. Washington (DC): American College of Obstetricians and Gynecologists; 2002. p. 130–3, 171–6, 314–8.

2. North American Menopause Society. Amended report from the NAMS Advisory Panel on Postmenopausal Hormone Therapy [review]. Menopause 2003;10:6–12.[Medline]

3. Delmas PD, Bjarnason NH, Mitlak BH, Ravoux AC, Shah AS, Huster WJ, et al. Effects of raloxifene on bone mineral density, serum cholesterol concentrations, and uterine endometrium in postmenopausal women. N Engl J Med 1997;337:1641–7.[Abstract/Free Full Text]

4. Ettinger B, Black DM, Mitlak BH, Knickerbocker RK, Nickelsen T, Genant HK, et al. Reduction of vertebral fracture risk in postmenopausal women with osteoporosis treated with raloxifene: results from a 3-year randomized clinical trial. Multiple Outcomes of Raloxifene Evaluation (MORE) Investigators. JAMA 1999;282:637–45.[Abstract/Free Full Text]

5. Lufkin EG, Wong M, Deal C. The role of selective estrogen receptor modulators in the prevention and treatment of osteoporosis [review]. Rheum Dis Clin North Am 2001; 27:163–85.[Medline]

6. Cummings S, Eckert S, Krueger K, Grady D, Powles T, Cauley J, et al. The effect of raloxifene on risk of breast cancer in postmenopausal women. Multiple Outcomes of Raloxifene Evaluation. JAMA 1999;281:2189–97.[Abstract/Free Full Text]

7. Davies GC, Huster WJ, Shen W, Mitlak B, Plouffe LJr, Shah A, Cohen FJ, et al. Endometrial response to raloxifene compared with placebo, cyclical hormone replacement therapy, and unopposed estrogen in postmenopausal women. Menopause 1999;6:188–95.[Medline]

8. Cohen FJ, Watts S, Shah A, Akers R, Plouffe L. Uterine effects of three-year raloxifene therapy in postmenopausal women younger than age 60. Obstet Gynecol 2000;95: 104–10.[Abstract/Free Full Text]

9. Goldstein SR, Scheele WH, Rajagopalan SK, Wilkie JL, Walsh BW, Parsons AK. A 12-month comparative study of raloxifene, estrogen, and placebo on the postmenopausal endometrium. Obstet Gynecol 2000;95:95–103.[Abstract/Free Full Text]

10. Cohen FJ, Lu Y. Characterization of hot flashes reported by healthy postmenopausal women receiving raloxifene or placebo during osteoporosis prevention trials. Maturitas 2000;34:65–73.[Medline]

11. Simon JA, Stevens RE, Ayres SA, Phelps KV. Perimenopausal women in estrogen vasomotor trials: contribution to placebo effect and efficacy outcome. Climacteric 2001; 4:19–27.[Medline]

12. Utian WH, Shoupe D, Bachmann G, Pinkerton JV, Pickar JH. Relief of vasomotor symptoms and vaginal atrophy with lower doses of conjugated equine estrogens and medroxyprogesterone acetate. Fertil Steril 2001;75: 1065–79.[Medline]

13. Cauley JA, Robbins J, Chen Z, Cummings SR, Jackson RD, LaCroix AZ, et al, for the Writing Group for the Women’s Health Initiative Investigators. Risks and benefits of estrogen plus progestin in healthy postmenopausal women: principal results from the Women’s Health Initiative randomized controlled trial. JAMA 2002;288:321–33.[Abstract/Free Full Text]

14. Gass ML, Taylor MB. Alternatives for women through menopause [review]. Am J Obstet Gynecol 2001; 185(suppl 2):S47–56.[Medline]

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