|Year : 2020 | Volume
| Issue : 2 | Page : 175-180
Younger tamoxifen-treated breast cancer patients also had higher risk of endometrial cancer and the risk could be reduced by sequenced aromatase inhibitor use: A population-based study in Taiwan
Sung-Chao Chu1, Chia-Jung Hsieh2, Tso-Fu Wang3, Mun-Kun Hong4, Tang-Yuan Chu5
1 Department of Hematology and Oncology, Hualien Tzu Chi Hospital, Buddhist Tzu Chi Medical Foundation; Institute of Medical Sciences, Tzu Chi University; School of Medicine, College of Medicine, Tzu Chi University, Hualien, Taiwan
2 Department of Public Health, Tzu Chi University, Hualien, Taiwan
3 Department of Hematology and Oncology, Hualien Tzu Chi Hospital, Buddhist Tzu Chi Medical Foundation; School of Medicine, College of Medicine, Tzu Chi University, Hualien, Taiwan
4 Institute of Medical Sciences, Tzu Chi University; Department of Obstetrics and Gynecology, Hualien Tzu Chi Hospital, Buddhist Tzu Chi Medical Foundation, Hualien, Taiwan
5 Institute of Medical Sciences, Tzu Chi University; Department of Obstetrics and Gynecology; Center for Prevention of Gynecological Cancer, Hualien Tzu Chi Hospital, Buddhist Tzu Chi Medical Foundation, Hualien, Taiwan
|Date of Submission||15-Jan-2019|
|Date of Decision||21-Mar-2019|
|Date of Acceptance||06-Apr-2019|
|Date of Web Publication||23-Jul-2019|
Dr. Tang-Yuan Chu
Department of Obstetrics and Gynecology, Hualien Tzu Chi Hospital, Buddhist Tzu Chi Medical Foundation, 707, Section 3, Ching-Yang Road, Hualien
Source of Support: None, Conflict of Interest: None
Objective: Previous Western studies reported that older (≥50 years) breast cancer survivors with tamoxifen treatment had higher risk of endometrial cancer. This study aims to disclose whether younger (<50 years) tamoxifen-treated breast cancer patients also had higher risk of endometrial cancer and to examine whether sequenced aromatase inhibitor (AI) use could reduce the risk. Materials and Methods: A population-based cohort of 39,216 newly diagnosed breast cancer patients was identified from Taiwan National Health Insurance Database from 1999 to 2012. The risk of endometrial cancer in nonusers (n = 14,588), tamoxifen-only (n = 19,302), and sequenced AI (n = 5326) users was compared with Cox regression analysis and was adjusted with age, diabetes, hypertension, and chemotherapy. Results: During the 14-year study period, 133 patients were diagnosed with subsequent endometrial cancers. Compared with nonusers, tamoxifen-only users had higher risk of endometrial cancer (14-year incidence 1.7% vs. 0.3%; adjusted hazard ratio [HR] 3.90; 95% confidence interval [CI], 2.37–6.42). This was observed in both older (≥50 years) and younger (40–50 years) age groups. Adjusted HR (95% CI) for the latter was 3.74 (1.65–8.48). This risk persisted after cessation of tamoxifen use. The risk of endometrial cancer was lower in sequenced AI when compared with tamoxifen-only users (adjusted HR 0.43; 95% CI, 0.25–0.72). Conclusions: Not only patients ≥50 years but also younger (40–49 years) patients with tamoxifen treatment had higher risk of subsequent endometrial cancer in this nation-wide cohort. We suggest regular gynecologic monitoring not only during active use but also during follow-up phase. Sequenced AI use may reduce the risk of endometrial cancer in tamoxifen-treated breast cancer patients.
Keywords: Antiestrogen, Aromatase inhibitor, Breast cancer, Endometrial cancer, Tamoxifen
|How to cite this article:|
Chu SC, Hsieh CJ, Wang TF, Hong MK, Chu TY. Younger tamoxifen-treated breast cancer patients also had higher risk of endometrial cancer and the risk could be reduced by sequenced aromatase inhibitor use: A population-based study in Taiwan. Tzu Chi Med J 2020;32:175-80
|How to cite this URL:|
Chu SC, Hsieh CJ, Wang TF, Hong MK, Chu TY. Younger tamoxifen-treated breast cancer patients also had higher risk of endometrial cancer and the risk could be reduced by sequenced aromatase inhibitor use: A population-based study in Taiwan. Tzu Chi Med J [serial online] 2020 [cited 2020 Jul 3];32:175-80. Available from: http://www.tcmjmed.com/text.asp?2020/32/2/175/263348
Sung-Chao Chu and Chia-Jung Hsieh contributed equally to this work.
| Introduction|| |
The International Adjuvant Tamoxifen Longer Against Shorter Breast Cancer Treatment Trial recently reported that for women with estrogen receptor (ER)-positive disease, continuing tamoxifen to 10 years rather than stopping at 5 years produces a further reduction in recurrence and mortality of breast cancer. However, the cumulative risk of subsequently endometrial cancer during 5–14 years was 3.1% (with a mortality rate of 0.4%) for 10 years of tamoxifen versus 1.6% (mortality 0.2%) for 5 years of tamoxifen. Previous Western studies [2,3] reported that only older (≥50 years) but not younger patients taking tamoxifen had higher risk of endometrial cancer when compared with nonusers. The Early Breast Cancer Trialists' Collaborative Group conducted a meta-analysis of 20 trials (n = 21,457) of 5 years of tamoxifen use and revealed increase of endometrial cancer incidence only in women older than 55 years. One systematic review showed that relative risk (RR) for endometrial cancer in women aged under 50 years who take tamoxifen is 1.19 (95% confidence interval [CI], 0.53–2.65; P = 0.6) as compared with the nonusers. Hence, the American College of Obstetricians and Gynecologists committee recently recommends that premenopausal women treated with tamoxifen have no known increased risk of uterine cancer and require no additional monitoring beyond routine gynecologic care. However, the median age that East Asian women get a breast cancer diagnosis is about 10 years younger than Western women. It remains uncertain whether younger Asian women treated with tamoxifen also have no increased risk of endometrial cancer.
In recent meta-analysis, Dowsett et al. reported that 5 years of aromatase inhibitors (AIs) reduces breast cancer mortality risk by about 15% as compared with 5 years of tamoxifen. Compared to tamoxifen use, there were fewer endometrial cancers in AI user (10-year incidence of 0.4% vs. 1.2%; RR 0.33, 0.21–0.51). Compared to breast cancer women who received AIs, those taking tamoxifen had higher risk for gynecologic pathologies in both the premenopausal and postmenopausal women groups. Garuti et al. reported that when AIs administered as switched therapy after tamoxifen withdrawal, AIs may reverse tamoxifen-associated endometrial thickening. However, the long-term endometrial effect of AIs in tamoxifen-treated patients remains uncertain. The purpose of the study is first to disclose whether younger (<50 years) breast cancer survivors with tamoxifen had higher risk of endometrial cancer in Taiwan and second to examine whether sequenced AI use could reduce the incidence of endometrial cancer in tamoxifen-treated patients.
| Materials and Methods|| |
Study population and study design
The Taiwan National Health Insurance (NHI) Research Database is covering approximately 23 million residents and the program covered 99.5% of the population by 2010. Data for our study were obtained from the Registry for Catastrophic Illness Patient Database (RCIPD) which is a subset of the Taiwan NHI database. RCIPD contains medical records including disease diagnoses, prescription medications, hospitalizations, and outpatient visits of all cancer patients. These databases have been used extensively in researches with reliable quality.
In the study, women who were diagnosed with breast cancer and registered in the RCIPD from January 1, 1999, to December 31, 2012, were included. Breast cancer patients were identified by the International Classification of Diseases, 9th Revision (ICD-9) codes of 174.0–174.9. First, we examined antiestrogen use and the risk of subsequent endometrial cancer after adjusting age, hypertension, diabetes, and chemotherapy. To disclose whether younger (<50 years) breast cancer survivors with tamoxifen had higher risk of endometrial cancer, the difference of risk was evaluated by subgroup analysis for age. Second, we restricted the analysis to patients who had used tamoxifen and examined associations of sequenced AI use with endometrial cancer risk.
The schema of study design, status of antiestrogen use, exclusion criteria, and follow-up are shown in [Supplementary Figure 1]. Males, younger than 18 years, or those with cancers of nonbreast sites were excluded. Considering the need of long-term follow-up and survival, those with distant lymph node or visceral metastasis at diagnosis were also excluded. The primary therapy for breast cancer was defined as primary surgery with or without chemotherapy. Patients who did not undergo primary surgery were excluded. To standardize the therapy, those who used tamoxifen after 1 year of diagnosis were excluded. Short-term cases including those received tamoxifen <180 cumulative defined daily dose (cDDD) or whose follow-up periods <6 months were also excluded.
Antiestrogens defined by this study included tamoxifen and four AIs: letrozole, anastrozole, exemestane, and aminoglutethimide. The defined daily dose (DDD) is a WHO-advocated drug potency unit to assume average maintenance dose. cDDD is the sum of dispensed DDD of any antiestrogens. Tamoxifen user was defined as tamoxifen use >180 cDDD after primary surgery. Tamoxifen users who did not use AI during follow-up were categorized as tamoxifen-only group. Sequenced AI group was defined as AI use after tamoxifen. The compliance of antiestrogens was calculated by dividing cDDD by the period of drug use within the first 5 years.
To avoid immortal time bias, all breast cancer patients were followed after primary therapy. The tamoxifen users were followed after they started tamoxifen. The control nonusers were followed after they had received the last surgery or chemotherapy. The identification of subsequent endometrial cancer was based on a new registration of endometrial cancer in the RCIPD or based on the diagnosis of endometrial cancer using ICD-9 codes (182.0–182.9) during hospitalization. Patients were followed to the occurrence of endometrial cancer during the study period. If no event occurred, they were followed until death or December 31, 2012. Confounding factors including age at diagnosis, diabetes, hypertension, and chemotherapy were controlled. This study was approved by the Research Ethics Committee of Buddhist Tzu Chi General Hospital, Hualien, Taiwan (IRB101-98).
The risk of endometrial cancer was compared with Cox regression analysis with competing risk analysis by Fine and Gray method and was adjusted for age at diagnosis, hypertension, diabetes, and chemotherapy. The risk of endometrial cancer in tamoxifen-only and sequenced AI users was compared with Cox regression analysis and adjusted for age, diabetes, hypertension, and chemotherapy. The cumulative incidence of endometrial cancer was plotted using the Kaplan–Meier method, and the difference between the curves was tested with the log-rank test. A two-tailed test at a level of 0.05 was considered statistically significant. Statistical analyses were performed using SAS, version 9.4 (SAS, Inc., Cary, NC, USA).
| Results|| |
We identified 105,444 eligible breast cancer patients who were registered for the first time in the RCIPD. After the exclusion criteria were applied, 39,216 patients were included in the study. There were 14,588 (37.2%) nonusers, 19,302 (49.2%) tamoxifen-only users, and 5326 (13.6%) sequenced AI users [Supplementary Figure 1]. The demographic characteristics of the groups are shown in [Table 1]. A lower proportion of tamoxifen-only users (51.1%) had received chemotherapy when compared with nonusers (66.4%) or sequenced AI users (68.1%). A slightly longer median of follow-up duration was noted for sequenced AI users (median 6.15 years) than nonusers (4.44 years) or tamoxifen-only users (4.64 years). The medians of tamoxifen cDDD in tamoxifen-only and sequenced AI users were 875 (interquartile range [IQR], 480–1482) and 616 (IQR, 258–1127) days, respectively. The medians of AI cDDD in sequenced AI users were 491 (IQR, 196–968) days. The proportions of adherence to antiestrogen use over 50% in tamoxifen-only and sequenced AI users were 75.0% and 81.7%, respectively. The mortality rate of all patients was 7.6%.
|Table 1: Demographic data of the breast cancer cohort from National Health Insurance database in Taiwan, 1999-2012|
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During the 14-year study period, 133 patients were diagnosed with subsequent endometrial cancer. The incidences per 105 person-years were 24.8, 91.1, and 48.9 in nonusers, tamoxifen-only users, and sequenced AI users, respectively [Supplementary Table 1]. When compared with nonusers, tamoxifen-only users had a significantly higher risk of endometrial cancer (adjusted hazard ratio [HR] 3.90, 95% CI, 2.37–6.42; P < 0.0001), but sequenced AI users had a nonsignificant risk [adjusted HR 1.70, 95% CI, 0.88–3.26; P = 0.1134; [Table 2]. The Kaplan–Meier analysis revealed that tamoxifen-only users had higher cumulative incidence of endometrial cancer than nonusers [14-year incidence 1.7% vs. 0.3%; P < 0.0001; [Figure 1]a. Endometrial cancer risk increased with the older age of breast cancer diagnosis. Women diagnosed at the age >60 years had 5.90-fold odds (95% CI, 2. 22–15.69; P = 0.0004) of developing endometrial cancer than at the age group of 18–39 years [Table 2]. To clarify whether the risk of endometrial cancer in younger women, we did subgroup analysis for age. As shown in [Table 3] and [Figure 1]b and [Figure 1]c, younger (40–49 years) patients with tamoxifen only also had higher risk of endometrial cancer than nonusers (adjusted HR 3.74; 95% CI, 1.65–8.48; P = 0.0015). Meanwhile, although the cDDD of tamoxifen use was <5 years in most of the young and old patients, the difference of cumulative incidences of endometrial cancer had been persistently increasing even after patients had discontinued tamoxifen [Figure 1]a, [Figure 1]b, [Figure 1]c.
|Table 2: Adjusted hazard ratios for endometrial cancera for breast cancer patients (n=39,216) by antiestrogen use in Taiwan, 1999-2012|
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|Table 3: Adjusted hazard ratios for endometrial cancera in the multivariable models using Cox regression by the age of breast diagnosis in Taiwan, 1999-2012|
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|Figure 1: Cumulative incidences of endometrial cancer in nonusers, tamoxifen-only users, and sequenced AI users. (a) all patients; the 14-year incidence in nonusers, tamoxifen-only users, and sequenced AI users was 0.3%, 1.7%, and 1.3%, respectively, (b) <50 years old; the 14-year incidence in nonusers, tamoxifen-only users, and sequenced AI users was 0.2%, 1.4%, and 0.2%, respectively, and (c) =50 years old; the 14-year incidence in nonusers, tamoxifen-only users, and sequenced AI users was 0.6%, 2.3%, and 2.0%, respectively, (Kaplan–Meier method). AI: Aromatase inhibitor|
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To disclose whether sequenced AI use could reduce the incidence of endometrial cancer, tamoxifen-only users (n = 19,302) were compared with sequenced AI users (n = 5326). Comparing to the tamoxifen-only group, the sequenced AI group had a lower risk for endometrial cancer (adjusted HR 0.43; 95% CI, 0.25–0.72; P = 0.0014) after adjusting age at diagnosis, diabetes, hypertension, and chemotherapy [Table 4]. Kaplan–Meier analysis revealed that the cumulative incidence of endometrial cancer was lower in sequenced AI users [Figure 1]a, [Figure 1]b, [Figure 1]c.
|Table 4: Adjusted hazard ratios for endometrial cancera in tamoxifen-only (n=19,302) and sequenced aromatase inhibitor users (n=5326)|
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| Discussion|| |
Our cohort with a 14-year study period included 39,216 survivors of nonmetastatic breast cancer with long-term survival. 62.8% of them had used antiestrogen for a median (IQR) cDDD of 875 (480–1482) days in tamoxifen-only users and 980 (532–1593) in tamoxifen-AI sequential users. Most of them had well compliance of medication.
In contrast to reports in the Western world, this population-based study in Taiwan revealed that not only older (≥50 years) patients but also younger (40–49 years) patients with tamoxifen also had higher risk (adjusted HR 3.74; P = 0.0015) of endometrial cancer than nonusers. It is reasoned that ER-agonist and oncogenic effects of tamoxifen on uterine tissue are mitigated by cyclic shedding of endometrium in premenopausal women. The different risks of endometrial cancer in younger tamoxifen user between Western studies and ours might result from the racial difference in natural menopause and chemotherapy-related menopause. The median age at natural menopause in Taiwanese women is 49.5 years, which is about 2 years earlier than Western countries such as America, Finland, and Australia. Women in developing countries such as India and the Philippines still have younger age (44 years) of menopause. Liem et al. reported that the majority (91.1%) of young (≤45) Chinese breast cancer patients developed chemotherapy-related amenorrhea (CRA), which is much higher than that 68% (95% CI, 66%–70%) reported in a systemic review of Western countries. The CRA incidence varies with age, cytotoxic agent, and cumulative dose of chemotherapy. The earlier age of menopause in Asian women may partly explain the higher risk of endometrial cancer in young tamoxifen users in Taiwan.
Previous studies showed an increasing endometrial cancer risk not only in the active treatment phase but also in the follow-up phase after 3 years or longer tamoxifen use,,. The median of tamoxifen cDDD in tamoxifen-only users was 875 (IQR, 480–1482) days. Our patients with cDDD as short as 730 days also had higher risk of endometrial cancer (data not shown). The tamoxifen cDDD of most patients was <5 years, and our findings also revealed that the risk of endometrial cancer did not decrease from the active to follow-up phase of tamoxifen treatment [Figure 1]a, [Figure 1]b, [Figure 1]c. Hence, we suggest regular surveillance of endometrial cancer not only during active phase but also in the follow-up phase of tamoxifen treatment. The surveillance is also indicated for patients with <2 years of cDDD use or whose age over 40 years.
There are also significant racial and environmental differences in characteristics of breast cancers in Taiwan. The incidence peak of Taiwanese female breast cancer is younger than Western countries, and a rapid surge of young-female breast cancer (YFBC) has been observed in Taiwan and other East Asian countries. In contrast to the predominance of triple-negative basal type of YFBC in Western countries [20,21], those in East Asia are more ER/progesterone receptor (PR)-positive luminal A type. The dominant ER/PR-positive histology of YFBC also means that a higher proportion of younger patients in Taiwan are using antiestrogens.
Meanwhile, although when compared with nonusers, tamoxifen had a significantly higher risk of endometrial cancer (14-year incidence 1.7% vs. 0.3%), the clinical benefit of tamoxifen on breast cancer survival still outweighs the increased incidence from endometrial cancer.
Latest studies show that the extension of adjuvant AI to 10 years resulted in significantly higher rates of disease-free survival of breast cancer and there were fewer endometrial cancers with AIs than tamoxifen treatment [6,23]. Previous studies revealed that AIs may reverse tamoxifen-induced endometrial changes in postmenopausal breast cancer patients [8,24]. In a 5-year study in South Korea, Lee et al. reported that breast cancer patients over 50 years of age who ever taking tamoxifen and AIs had lower incidence of endometrial malignancy when compared with those taking tamoxifen only. However, the long-term carcinogenic effect of using sequenced AIs after tamoxifen remains uncertain. Our study disclosed that sequenced AI use could reduce the risk of endometrial cancer in tamoxifen users (adjusted HR 0.43). In postmenopausal women, the ovaries cease to produce estrogen. Estrogen synthesized at extragonadal tissues such as adipocytes in mammary gland contributes to the proliferation of uterine endometrium, and it may lead to endometrial hyperplasia and neoplasia. Aromatase is the principle enzyme for estrogen synthesis in the postmenopausal women. It is theorized that inhibiting the aromatase would extenuate the carcinogenic effect of tamoxifen in the uterine endometrium. Our study supports this theory and indicates that the use of AIs after tamoxifen may attenuate the risk of endometrial cancer.
The present study has a few limitations. This was a retrospective study without the prospectively defined protocol of adjuvant treatment. Moreover, information regarding cancer stage, histology subtypes, ER status, menopausal status, parity, oral contraceptive use, and obesity are absent.
| Conclusions|| |
Not only patients aged ≥50 years but also younger (40–49 years) patients with tamoxifen treatment had higher risk of subsequent endometrial cancer in Taiwan. We suggest regular gynecologic monitoring during both the active use of tamoxifen and the follow-up phase. Sequenced AI use may reduce endometrial cancer risk in tamoxifen-treated breast cancer patients.
Financial support and sponsorship
This work was supported by the Buddhist Tzu Chi General Hospital through an Institutional Investigators grant (TCRD102-01, TCRD102-52, and TCRD102-87) and by the National Science Council, Taiwan, R.O.C., under grant (NSC101-2314-B-303-020).
Conflicts of interest
There are no conflicts of interest.
| References|| |
Davies C, Pan H, Godwin J, Gray R, Arriagada R, Raina V, et al.
Long-term effects of continuing adjuvant tamoxifen to 10 years versus stopping at 5 years after diagnosis of oestrogen receptor-positive breast cancer: ATLAS, a randomised trial. Lancet 2013;381:805-16.
Iqbal J, Ginsburg OM, Wijeratne TD, Howell A, Evans G, Sestak I,et al .
Endometrial cancer and venous thromboembolism in women under age 50 who take tamoxifen for prevention of breast cancer: A systematic review. Cancer Treat Rev 2012;38:318-28.
Committee opinion no 601: Tamoxifen and uterine cancer. Obstet Gynecol 2014;123:1394-7.
Early Breast Cancer Trialists' Collaborative Group, Davies C, Godwin J, Gray R, Clarke M, Cutter D,et al .
Relevance of breast cancer hormone receptors and other factors to the efficacy of adjuvant tamoxifen: Patient-level meta-analysis of randomised trials. Lancet 2011;378:771-84.
Lin CH, Chuang PY, Chiang CJ, Lu YS, Cheng AL, Kuo WH,et al .
Distinct clinicopathological features and prognosis of emerging young-female breast cancer in an East Asian country: A nationwide cancer registry-based study. Oncologist 2014;19:583-91.
Dowsett M, Forbes JF, Bradley R, Ingle J, Aihara T, Bliss J, et al.
Aromatase inhibitors versus tamoxifen in early breast cancer: patient-level meta-analysis of the randomised trials. Lancet 2015;386:1341-52.
Wright JD, Desai VB, Chen L, Burke WM, Tergas AI, Hou JY,et al .
Utilization of gynecologic services in women with breast cancer receiving hormonal therapy. Am J Obstet Gynecol 2017;217:59.e1-12.
Garuti G, Cellani F, Centinaio G, Montanari G, Nalli G, Luerti M,et al .
Prospective endometrial assessment of breast cancer patients treated with third generation aromatase inhibitors. Gynecol Oncol 2006;103:599-603.
Hsing AW, Ioannidis JP. Nationwide population science: Lessons from the Taiwan National Health Insurance Research database. JAMA Intern Med 2015;175:1527-9.
Chow SN, Huang CC, Lee YT. Demographic characteristics and medical aspects of menopausal women in Taiwan. J Formos Med Assoc 1997;96:806-11.
Gold EB, Bromberger J, Crawford S, Samuels S, Greendale GA, Harlow SD,et al .
Factors associated with age at natural menopause in a multiethnic sample of midlife women. Am J Epidemiol 2001;153:865-74.
Luoto R, Kaprio J, Uutela A. Age at natural menopause and sociodemographic status in Finland. Am J Epidemiol 1994;139:64-76.
Do KA, Treloar SA, Pandeya N, Purdie D, Green AC, Heath AC,et al .
Predictive factors of age at menopause in a large Australian twin study. Hum Biol 1998;70:1073-91.
Ringa V. Menopause and treatments. Qual Life Res 2000;9:695-707.
Liem GS, Mo FK, Pang E, Suen JJ, Tang NL, Lee KM,et al .
Chemotherapy-related amenorrhea and menopause in young Chinese breast cancer patients: Analysis on incidence, risk factors and serum hormone profiles. PLoS One 2015;10:e0140842.
Bines J, Oleske DM, Cobleigh MA. Ovarian function in premenopausal women treated with adjuvant chemotherapy for breast cancer. J Clin Oncol 1996;14:1718-29.
Bergman L, Beelen ML, Gallee MP, Hollema H, Benraadt J, van Leeuwen FE. Risk and prognosis of endometrial cancer after tamoxifen for breast cancer. Comprehensive cancer centres' ALERT group. Assessment of liver and endometrial cancer risk following tamoxifen. Lancet 2000;356:881-7.
Swerdlow AJ, Jones ME; British Tamoxifen Second Cancer Study Group. Tamoxifen treatment for breast cancer and risk of endometrial cancer: A case-control study. J Natl Cancer Inst 2005;97:375-84.
Chen JY, Kuo SJ, Liaw YP, Avital I, Stojadinovic A, Man YG,et al .
Endometrial cancer incidence in breast cancer patients correlating with age and duration of tamoxifen use: A population based study. J Cancer 2014;5:151-5.
Nixon AJ, Neuberg D, Hayes DF, Gelman R, Connolly JL, Schnitt S,et al .
Relationship of patient age to pathologic features of the tumor and prognosis for patients with stage I or II breast cancer. J Clin Oncol 1994;12:888-94.
Walker RA, Lees E, Webb MB, Dearing SJ. Breast carcinomas occurring in young women (<35 years) are different. Br J Cancer 1996;74:1796-800.
Goss PE, Ingle JN, Pritchard KI, Robert NJ, Muss H, Gralow J,et al .
Extending aromatase-inhibitor adjuvant therapy to 10 years. N
Engl J Med 2016;375:209-19.
Chlebowski RT, Schottinger JE, Shi J, Chung J, Haque R. Aromatase inhibitors, tamoxifen, and endometrial cancer in breast cancer survivors. Cancer 2015;121:2147-55.
Markovitch O, Tepper R, Fishman A, Aviram R, Cohen I. Aromatase inhibitors reverse tamoxifen induced endometrial ultrasonographic changes in postmenopausal breast cancer patients. Breast Cancer Res Treat 2007;101:185-90.
Lee Y, Park YR, Kim HR, Lee JW. Event-free survival following early endometrial events in breast cancer patients treated with anti-hormonal therapy: A nationwide claims data study. Medicine (Baltimore) 2019;98:e13976.
[Table 1], [Table 2], [Table 3], [Table 4]