Executive summary of the Stages of Reproductive Aging Workshop +10: addressing the unfinished agenda of staging reproductive aging.

ABSTRACT Objective The aim of this article is to summarize the recommended updates to the 2001 Stages of Reproductive Aging Workshop (STRAW) criteria. The 2011 STRAW +10 reviewed advances in understanding of the critical changes in hypothalamic–pituitary–ovarian function that occur before and after the final menstrual period. Methods Scientists from five countries and multiple disciplines evaluated data from cohort studies of midlife women and in the context of chronic illness and endocrine disorders on change in menstrual, endocrine, and ovarian markers of reproductive aging including antimüllerian hormone, inhibin-B, follicle-stimulating hormone, and antral follicle count. Modifications were adopted by consensus. Results STRAW +10 simplified bleeding criteria for the early and late menopausal transition, recommended modifications to criteria for the late reproductive stage (Stage −3) and the early postmenopause stage (Stage +1), provided information on the duration of the late transition (Stage −1) and early postmenopause (Stage +1), and recommended application regardless of women's age, ethnicity, body size, or lifestyle characteristics. Conclusions STRAW +10 provides a more comprehensive basis for assessing reproductive aging in research and clinical contexts. Application of the STRAW +10 staging system should improve comparability of studies of midlife women and facilitate clinical decision making. Nonetheless, important knowledge gaps persist, and seven research priorities are identified.

Results STRAW ϩ 10 simplifi ed bleeding criteria for the early and late menopausal transition, recommended modifi cations to criteria for the late reproductive stage (Stage Ϫ 3) and the early postmenopause stage (Stage ϩ 1), provided information on the duration of the late transition (Stage Ϫ 1) and early postmenopause (Stage ϩ 1), and recommended application regardless of women's age, ethnicity, body size, or lifestyle characteristics.
Conclusions STRAW ϩ 10 provides a more comprehensive basis for assessing reproductive aging in research and clinical contexts. Application of the STRAW ϩ 10 staging system should improve comparability of studies of midlife women and facilitate clinical decision making. Nonetheless, important knowledge gaps persist, and seven research priorities are identifi ed.
This article is being simultaneously published in the journals Climacteric , Fertility and Sterility , the Journal of Clinical Endocrinology and Metabolism , and Menopause. This article is solely the responsibility of the authors and does not necessarily represent the offi cial views of the NIA, ORWH, or NIH.

Climacteric
The 2001 Stages of Reproductive Aging Workshop (STRAW) proposed nomenclature and a staging system for ovarian aging including menstrual and qualitative hormonal criteria to defi ne each stage 1 -4 . The STRAW staging system is widely considered the gold standard for characterizing reproductive aging through menopause, just as the Marshall-Tanner Stages characterize pubertal maturation 5 . Research conducted during the past 10 years has advanced knowledge of the critical changes in hypothalamic -pituitary and ovarian function that occur before and after the fi nal menstrual period. These advances were the topic of a follow-up workshop ' STRAW ϩ 10: Addressing the Unfi nished Agenda of Staging Reproductive Aging ' (STRAW ϩ 10). STRAW ϩ 10, held in Washington, DC, on September 20 and 21, 2011, reviewed these scientifi c advances and updated the STRAW criteria. The sponsors were the National Institute on Aging (NIA) and Offi ce of Research on Women's Health (ORWH) of the National Institutes of Health, The North American Menopause Society (NAMS), the American Society for Reproductive Medicine (ASRM), the International Menopause Society (IMS), and the Endocrine Society. The STRAW ϩ 10 workshop achieved the following aims: (1) to reevaluate criteria for the onset of late reproductive life and early menopausal transition, given new populationbased data relating to follicle-stimulating hormone (FSH), antral follicle count (AFC), antim ü llerian hormone (AMH), and inhibin-B; (2) to reevaluate criteria for staging postmenopause, given new population-based data on changes in FSH and estradiol concentrations after the fi nal menstrual period (FMP); (3) to reevaluate applicability to women based on variations in body size, lifestyle characteristics, and health status; and (4) to identify remaining gaps in scientifi c knowledge and research priorities.

BACKGROUND AND SIGNIFICANCE
The menopausal transition marks a period of physiologic changes as women approach reproductive senescence. Evidence supports the clinical importance of the transition for many women as a period of temporal changes in health and quality of life (i.e. vasomotor symptoms, sleep disturbance, depression) and longer-term changes in several health outcomes (i.e. urogenital symptoms, bone, lipids) 6 -15 that may infl uence women's quality of life and the likelihood of healthy aging. As a standardized staging system for reproductive aging, STRAW made a substantial contribution to women's health research by providing consistent classifi cation of menopause status for studies of midlife women. Importantly, STRAW facilitated research that aimed to distinguish the health effects of ovarian versus somatic aging. The STRAW staging system also serves as a clinical tool for women and their healthcare providers to guide the assessment of fertility, contraceptive needs, and healthcare decision making 16,17 .
Building upon previous consensus meetings of the World Health Organization and the Council of Affi liated Menopause Societies 18 , STRAW reevaluated nomenclature, proposed a standardized staging system, and recommended criteria for defi ning the onset of each stage. STRAW participants evaluated potential criteria including menstrual cycles; endocrinologic parameters including FSH, estradiol, AMH, and inhibin-B; symptoms; fertility; and ovarian imaging including AFC. Of the candidate biomarkers considered in 2001, only FSH was consistently measurable in a clinical setting. Data were insuffi cient to defi ne quantitative criteria for FSH or to clarify the precise timing of change in FSH levels. Information on AFC and on the relationship among AMH, inhibin-B, and the timing of ovarian aging was limited. Symptoms were considered to be subjective and acknowledged not to be universally experienced. STRAW therefore restricted staging recommendations to menstrual cycle bleeding criteria and qualitative FSH criteria.

Seven stages of the 2001 STRAW staging system
STRAW divided the adult female life into three broad phases: reproductive, the menopausal transition, and postmenopause. These three phases included a total of seven stages centered on the FMP (Stage 0) 1 -4 . The reproductive phase was divided into Stages Ϫ 5, Ϫ 4, and Ϫ 3 corresponding to early, peak, and late, respectively. The menopausal transition phase consisted of Stage Ϫ 2 (early) and Stage Ϫ 1 (late), and the postmenopause phase contained Stages ϩ 1 (early) and ϩ 2 (late). Stage Ϫ 3 was characterized by regular menstrual cycles and increasing levels of FSH. Stage Ϫ 2 was characterized by variability in menstrual cycle length and increased levels of FSH. Stage Ϫ 1 was characterized by onset of skipped cycles or amenorrhea of at least 60 days and continued elevation of FSH.

The ReSTAGE Collaboration
The ReSTAGE Collaboration subsequently conducted empirical analyses to assess the validity and reliability of the 2001 STRAW's original menstrual cycle criteria in four cohort studies -the TREMIN study, the Melbourne Women's Midlife Health Project, the Seattle Midlife Women's Health Study, and the Study of Women's Health Across the Nation (SWAN). Findings supported STRAW ' s recommendations, provided more precise specifi cation of menstrual criteria for early and late transition, and recommended a quantitative cutpoint for FSH levels characteristic of the late transition 19 -22 .

Generalizability
A limitation of the original STRAW was its recommendation, based on the available evidence, that the staging system only be applied to healthy women. STRAW explicitly recommended against applying the criteria to seven subgroups of women 1 -4 , including smokers (19% of US women aged 45 -64 y 23 ),

Climacteric 107
women with a body mass index (BMI) greater than 30 kg/m 2 (38% of US women 24 ), and women who had undergone hysterectomy (35% of US women 25 ). Women engaged in heavy aerobic exercise and women with chronic menstrual cycle irregularities, uterine abnormalities or ovarian abnormalities, or signifi cant illness such as cancer were also excluded. Another limitation of the 2001 STRAW was the lack of insight regarding the applicability of the staging system in diverse populations. In 2001, few data were available from studies of multiethnic or diverse socioeconomic populations. Recent data from multiethnic cohorts now permit the assessment of generalizability 17,22,26 -33 , although data from low-resource countries remain quite limited 34,35 . STRAW had a sustained infl uence on research in the fi eld, prompting the assessment of trajectories of change in endocrine levels and biomarkers of ovarian senescence as well as the evaluation of how these trajectories vary by body size, smoking, ethnicity, and other factors 26 -33,36 -55 . Ten years later, the understanding of ovarian aging and its endocrine and clinical correlates has advanced considerably, providing a more nuanced and comprehensive understanding of the critical junctures that occur during reproductive aging before and after the FMP. For example, Figure 1 illustrates changes in mean FSH and estradiol concentrations in relation to time before and after the FMP in the SWAN cohort 22 . The role of AMH and inhibin-B as markers of declining fertility and ovarian aging is more clearly understood, as are the relationships among patterns of decline in AMH, inhibin-B, AFC, and primordial follicle counts 26,37,38,42,43,45 -48 ,51,53,56 -58 . The goal of the STRAW ϩ 10 was to review signifi cant advances in the fi eld and develop recommendations for updating the original STRAW criteria.

METHODS
STRAW ϩ 10 involved a 2-day in-person meeting hosted at the 2011 Annual Meeting of NAMS. On the fi rst day, international experts gave oral presentations reviewing recent data bearing on the goals, as part of a public symposium, followed by comments and discussion from the audience. The fi rst two sessions focused on data from prospective cohort studies of midlife women; clinical fi ndings related to changes in patterns and levels of menstrual, endocrine, and ovarian markers of reproductive aging; and data relevant to how these trajectories vary by ethnicity, body size, and smoking status. A particular focus was on patterns of change in AMH, inhibin-B, FSH, estradiol, and AFC and their interrelationships. A third session focused on emerging evidence related to staging reproductive aging in the context of cancer treatment, chronic illness including cancer and human immunodefi ciency virus (HIV) -acquired immunodefi ciency syndrome (AIDS), and endocrine disorders including polycystic ovary syndrome (PCOS) and primary ovarian insuffi ciency (POI, otherwise known as premature ovarian failure). At the end of day 1, a panel reviewed and the participants discussed modifi cations that had been proposed by symposium speakers. STRAW ϩ 10 Figure 1 Adjusted population means (95% CI) for segmented mean profi les of follicle-stimulating hormone and estradiol across the fi nal menstrual period in the Study of Women's Health Across the Nation ( n ϭ 1,215). * , The y axis is unitless. The units of hormone are marked in the corresponding curves. Reproduced with permission from Randolph et al. , J Clin Endocrinol Metab 2011;96:746 -754 Climacteric explicitly considered the feasibility of applying criteria in lowresource countries.
Subsequently, 41 scientists convened to develop consensus and propose modifi cations to the STRAW staging system. These participants had clinical and/or research experience in female reproductive aging and included scientists from several key research groups in the United States, Canada, Australia, the Netherlands, and South Africa, as well as representatives from National Institutes of Health-funded cohort studies of midlife women that have biologic samples 59 including the SWAN, Michigan Bone Health and Metabolism Study, Seattle Midlife Women's Health Study, Biodemographic Models of Reproductive Aging, and the Penn Ovarian Aging Study as well as the Australian Melbourne Women's Midlife Health Project and junior investigators who submitted qualifying posters.
Three breakout groups were formed based on scientifi c expertise and interest. Group 1 reviewed criteria for STRAW Stages Ϫ 4 to Ϫ 2. Group 2 reviewed criteria for STRAW Stages Ϫ 1 to ϩ 2. Each of these two groups was subdivided into two subgroups and assigned a rapporteur. Each subgroup proposed modifi cations to the STRAW paradigm separately, considering criteria for the relevant stages in healthy women and the weight of evidence concerning the appropriateness of applying these criteria to smokers and women regardless of body size. Each subgroup then reviewed the recommendations of the other subgroup and discussed points of disagreement until consensus was reached. Group 3 discussed staging in the context of endocrine disorders and chronic illness and proposed modifi cations.
On the second day, the scientists reconvened to review and discuss proposed modifi cations to the STRAW staging system. First, Group 1 and Group 2 reviewed the other group's recommendations. In this way, all groups reviewed all stages under consideration (Stages Ϫ 4 to ϩ 2). Afterward, the group-atlarge met to discuss each proposal, and fi nal recommendations were adopted by consensus. Points of disagreement were discussed until consensus was achieved on common principles. In general, disagreements refl ected points for which data were not yet adequate to make a recommendation. Preliminary recommendations of the STRAW ϩ 10 were presented at the NAMS annual meeting on September 22, with comments and requests for clarifi cation considered by the STRAW ϩ 10 program committee.

RESULTS
STRAW ϩ 10 retained the criteria for an ideal staging system used by the 2001 Workshop. Therefore, a staging system should (1) rely primarily on objective data; (2) use widely available, reliable, non-invasive, and inexpensive tests; (3) allow for prospective classifi cation of women; and (4) permit unambiguous classifi cation of women into a unique stage.
In addition, it was concluded that the modifi ed staging system should (5) retain the same widely accepted nomenclature; (6) consider menstrual cycle criteria to remain the most important criteria given the continuing lack of international standardization of biomarker assays as well as their cost and/or invasiveness, particularly in the context of resource-poor countries; (7) consider biomarker criteria as supportive criteria given the lack of assay standardization (supportive criteria are to be used only as necessary and should not be interpreted as required for diagnosis); and (8) use criteria that are independent of age, symptoms, and pathology (because no universal menopausal syndrome has been established across ethnic groups 60 , two key symptoms are incorporated only as descriptive additional information that may support other criteria in assessing stage 61 ).
The revised STRAW ϩ 10 Staging System is presented in Figure 2. STRAW ϩ 10 recommended the acceptance of the ReSTAGE Collaboration's more precise and simplifi ed specifi cation of the menstrual cycle criteria for the early and late menopausal transition and concurred with ReSTAGE recommendations that the quantifi cation of the FSH criteria in Stage Ϫ 1 is possible given the improved standardization of this assay and additional population-based data. In addition, STRAW ϩ 10 recommended modifi cations to the criteria for the late reproductive stage (Stage Ϫ 3) as well as the early postmenopause stage (Stage ϩ 1) and provided information on the duration of the late transition (Stage Ϫ 1) and early postmenopause (Stage ϩ 1) stages. Although additional biomarkers, especially AMH and AFC, have considerable promise, the lack of standardized assays and data from non-infertility populations remain important limitations to their incorporation into the STRAW staging system and their utility as clinical tools for staging reproductive aging. Nonetheless, the revised STRAW ϩ 10 Staging System includes qualitative criteria for these biomarkers during the late reproductive life when relative changes in these parameters have important consequences for fertility potential.

Defi nition and rationale for key revisions to the staging criteria
Late reproductive stage (Stage Ϫ 3) The late reproductive stage marks the time when fecundability begins to decline and during which a woman may begin to notice changes in her menstrual cycles. Given that critical endocrine parameters begin to change before overt changes in menstrual cyclicity and that these endocrine changes are important to fertility assessments, STRAW ϩ 10 recommended that the late reproductive stage be subdivided into two substages ( Ϫ 3b and Ϫ 3a). In Stage Ϫ 3b, menstrual cycles remain regular without change in length or early follicular phase FSH levels; however, AMH

Climacteric 109
and antral follicle counts are low. Most 53,62 but not all 63 studies suggest that inhibin-B is also low. In Stage Ϫ 3a, subtle changes in menstrual cycle characteristics, specifi cally shorter cycles 64 -66 , begin. Early follicular phase (cycle days 2 -5) FSH increases and becomes more variable, with the other three markers of ovarian aging being low. The lack of standardized AMH assays prevented the development of quantitative recommendations for this biomarker.
Early menopausal transition (Stage Ϫ 2) Early menopausal transition is marked by increased variability in menstrual cycle length, defi ned as a persistent difference of 7 days or more in the length of consecutive cycles. Persistence is defi ned as recurrence within 10 cycles of the fi rst variable length cycle. Cycles in the early menopausal transition are also characterized by elevated but variable early follicular phase FSH levels and low AMH levels and AFC.
Late menopausal transition (Stage Ϫ 1) The late menopausal transition is marked by the occurrence of amenorrhea of 60 days or longer. Menstrual cycles in the late menopausal transition are characterized by increased variability in cycle length, extreme fl uctuations in hormonal levels, and increased prevalence of anovulation. In this stage, FSH levels are sometimes elevated into the menopausal range and sometimes within the range characteristic of the earlier reproductive years, particularly in association with high estradiol levels. The development of international standards and the availability of substantive population-based data now permit the defi nition of quantitative FSH criteria, with levels greater than 25 IU/L in a random blood draw characteristic of being in late transition, based on current international pituitary standards that approximate more than 40 IU/L in the previously used urinebased gonadotropin standards 67 -69 . Empirical analyses should be undertaken to confi rm this recommendation, and researchers and clinicians should carefully evaluate the appropriate FSH value, depending on the assay they use. Based on studies of menstrual calendars and on changes in FSH and estradiol, this stage is estimated to last, on average, 1 to 3 years. Symptoms, most notably vasomotor symptoms, are likely to occur during this stage.
Early postmenopause (Stage ϩ 1a, ϩ 1b, ϩ 1c) New data on the trajectories of change in mean levels of FSH and estradiol 22,30,32,40,41,52,54,55 indicate that FSH continues to increase and that estradiol continues to decrease until approximately 2 years after the FMP, after which the levels of each of these hormones stabilize. Therefore, STRAW ϩ 10 recommended that early postmenopause be subdivided into three substages ( ϩ 1a, ϩ 1b, and ϩ 1c). Stages ϩ 1a and ϩ 1b each last 1 year and end at the time point at which FSH and estradiol levels stabilize. Stage ϩ 1a Figure 2 The Stages of Reproductive Aging Workshop ϩ 10 staging system for reproductive aging in women Climacteric marks the end of the 12-month period of amenorrhea required to defi ne that the FMP has occurred. It corresponds to the end of ' perimenopause ' , a term still in common usage that means the time around menopause and begins at Stage Ϫ 2 and ends 12 months after the FMP. Stage ϩ 1b includes the remainder of the period of rapid changes in mean FSH and estradiol levels. Based on studies of hormonal changes, Stages ϩ 1a and ϩ 1b together are estimated to last, on average, 2 years. Symptoms, most notably vasomotor symptoms, are most likely to occur during this stage.
Stage ϩ 1c represents the period of stabilization of high FSH levels and low estradiol values that is estimated to last 3 to 6 years; therefore, the entire early postmenopause lasts approximately 5 to 8 years. Further specifi cation of this stage will require additional studies of trajectories of change in FSH and estradiol from the FMP through the late postmenopause.
Late postmenopause (Stage ϩ 2) Stage ϩ 2 represents the period in which further changes in reproductive endocrine function are more limited and processes of somatic aging become of paramount concern. Symptoms of vaginal dryness and urogenital atrophy become increasingly prevalent at this time 7,70 -72 . However, many years after menopause, it has been observed that there may be a further decline in levels of FSH in very old persons 73,74 ; future studies will be needed to determine whether an additional stage is warranted near the end of life.

Inclusiveness of the STRAW ؉ 10 criteria
Evidence now supports the applicability of the STRAW ϩ 10 recommendations for most women. Epidemiologic and clinical studies have documented that the process of reproductive aging, although infl uenced by demographic factors, lifestyle, and BMI, follows a robust and predictable pattern 22,26,27,32,33,41,75 . Although smoking and BMI infl uence hormonal levels and the timing of transition, these factors do not alter the trajectory of change in bleeding patterns or hormonal levels with reproductive aging. Therefore, the STRAW ϩ 10 staging system is applicable to women regardless of age, demographic, BMI, or lifestyle characteristics.
The STRAW ϩ 10 model does not use age as a criterion for determining reproductive staging. However, women meeting the criteria for POI/premature ovarian failure (age Ͻ 40 y with 4 mo of amenorrhea and two serum FSH levels [at least a month apart] in the menopausal range) do not easily fi t into this model. The course of reproductive aging in women with POI/premature ovarian failure seems to be considerably more variable than that of women with normal reproductive aging. Not only are there several potential etiologies but also a substantial proportion of women have spontaneous resumption of menstrual function once the diagnosis has been confi rmed, including ovulation and successful spontaneous pregnancy 76 . Additional research is needed to better document the process of ovarian aging in these women and whether the course of ovarian aging differs by etiology of POI. Studies of reproductive aging in POI are considered to be a research priority.

Hysterectomy and endometrial ablation
Women who have undergone hysterectomy or endometrial ablation cannot be staged by menstrual bleeding criteria 77 . Reproductive stage in these women can only be assessed using the supportive criteria, that is, the endocrine markers of ovarian aging. It is recommended that clinicians and researchers wait at least 3 months after surgery to assess endocrine status, given emerging evidence that pelvic surgeries may transiently raise FSH levels 78 -81 . Further research on the nature and duration of alterations in biomarkers of ovarian aging secondary to pelvic surgery is warranted. In most cases, staging will be limited to the classifi cation of whether such women are premenopausal or postmenopausal. A single sample for measurement of FSH and estradiol may be ambiguous or misleading, and at least one repeated measurement is often required.

Polycystic ovary syndrome
Women with PCOS frequently experience oligomenorrhea that is not attributable to ovarian aging. Therefore, the current menstrual cycle criteria used to stage reproductive aging are not applicable to this population. Understanding of the changes occurring before menopause in this group of women is limited. Some data suggest that women with PCOS may experience a later age at menopause 48,82 , as well as more regular cycles with reproductive aging 83,84 ; however, the experience of reproductive aging in PCOS is not well understood. Similarly, menstrual cycle criteria are not applicable in women with hypothalamic amenorrhea. Studies of reproductive aging in these subgroups of women are considered to be a research priority.

Women with chronic illness undergoing chemotherapy
Many medications and loss of body fat can cause amenorrhea, which can make the staging of the menopausal transition diffi cult. Several important subgroups remain diffi cult to stage yet deserve attention in any staging system 38,56,85 -88 . Depending on the age at treatment and cancer treatment type, a signifi cant proportion of women who undergo cancer treatment, particularly with alkylating agents, may experience transient increases in FSH and decreases in AMH and AFC with return of bleeding even after 12 months or more of amenorrhea 38,56,87 -89 . In these women, resumption of menstrual cycles may not indicate a return of normal menstrual function. Women undergoing treatment with tamoxifen pose an additional problem because FSH and estradiol levels may be altered by this treatment and may therefore be misleading and cause abnormal bleeding 90 . Women with chronic illnesses such as HIV -AIDS also pose a problem in the staging of reproductive aging because of the lack of reliability of bleeding patterns and hormonal markers 85,86 . Staging in these women will require assessment with menstrual cycle criteria, the supportive criteria using relevant biomarkers,

Climacteric 111
and age to better characterize their ovarian function. Large prospective cohort studies are needed to better characterize the trajectories of ovarian aging in these populations.

CONCLUSIONS AND RESEARCH PRIORITIES
STRAW ϩ 10 revised and extended the STRAW recommendations to include additional criteria for defi ning specifi c stages of reproductive life. The revised staging system provides a more comprehensive basis for classifi cation and assessment, from the late reproductive stage through the menopausal transition and into postmenopause. Its application should improve comparability of studies of midlife women by establishing clear criteria for ascertaining women's reproductive stage. The STRAW ϩ 10 recommendations are expected to improve guidance for classifying the ovarian status of midlife women in the research setting while advancing efforts to translate this new science for clinicians and women. Although scientifi c understanding of ovarian aging has advanced considerably in the last decade, important gaps in scientifi c knowledge persist. The workshop participants identifi ed seven research priorities.
(1) Lack of standardized assays for key biomarkers remains an important limitation in efforts to stage reproductive aging and to translate research fi ndings to cost-effective clinical tools. Given the importance of AMH in relation to fertility and its relative stability across the menstrual cycle, the development of an international standard for the assessment of AMH is of paramount importance.
(2) Empirical analysis across multiple cohorts is needed to specify precise menstrual cycle criteria for Stages Ϫ 3b and Ϫ 3a.
(3) Studies are needed to characterize the hormonal changes of postmenopause from Stage ϩ 1 to ϩ 2 because data across these stages are limited; several cohort studies are well positioned to provide this information. The development of highly sensitive, well characterized assays is needed. (4) Given that the large cohort studies of midlife women were initiated before the STRAW staging system was developed, these cohorts should be supported to apply the STRAW ϩ 10 staging criteria to reanalyze key fi ndings on the clinical changes that occur across the menopausal transition. (5) Improved characterization of the pattern, timing, and level of reproductive biomarkers across nations is necessary, especially to provide data on the experience of women from low-resource countries. (6) Research is needed to better understand the process of reproductive aging and appropriate staging criteria for women with PCOS and POI and those who have had removal of a single ovary and/or hysterectomy. (7) Research is needed to better evaluate staging in women with chronic illness such as HIV infection and those undergoing cancer treatment.

SUMMARY
STRAW ϩ 10 simplifi ed bleeding criteria for the early and late menopausal transition, recommended modifi cations to criteria for the late reproductive and the early postmenopause stages, provided information on the duration of the late transition and early postmenopause, and recommended application regardless of women's age, ethnicity, body size, or lifestyle characteristics. Seven research priorities are identifi ed.
Financial disclosure/confl icts of interest P.M.S. and S.S. declare no confl ict of interest. M.G. receives salary support from The North American Menopause Society (NAMS). S.D.H. has grant support from the National Institute on Aging (NIA) and Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD) and receives travel support from NAMS. J.E.H. has grant support from NIA and receives travel support from the Endocrine Society. R.L. is past president of the American Society for Reproductive Medicine (ASRM). P.M. receives grant support from the National Institute on Mental Health (NIMH), the NIA, the National Institute of Allergy and Infectious Diseases (NIAID), and the National Institute on Drug Abuse (NIDA); is on the Board of Trustees for NAMS; and has previously consulted for Noven Pharmaceuticals, received lecture fees from the Royal Ottawa Foundation for Mental Health, the Mayo Clinic, Baycrest, and Northwestern University and received travel support from the Society for Women's Health Research, the International Menopause Society, Pfi zer, the Australasian Pacifi c Menopause Society, Virginia Commonwealth University Institute for Women's Health. R.W.R. receives salary support from ASRM. T.J.d.V. declares no direct confl ict of interest as regards the submitted article but has in the past received consultancy fees from Adcock Ingram and Pfi zer; speaker's fees from Servier; and travel support from Amgen, Pfi zer, and Bayer.