Intended for healthcare professionals

CCBYNC Open access

Use of postmenopausal hormone therapy and risk of Alzheimer’s disease in Finland: nationwide case-control study

BMJ 2019; 364 doi: (Published 06 March 2019) Cite this as: BMJ 2019;364:l665

Linked Editorial

Menopausal hormone therapy and cognition

  1. Hanna Savolainen-Peltonen, associate professor1 2,
  2. Päivi Rahkola-Soisalo, postdoctoral researcher1,
  3. Fabian Hoti, statistician3,
  4. Pia Vattulainen, statistician3,
  5. Mika Gissler, professor4 5 6,
  6. Olavi Ylikorkala, professor1,
  7. Tomi S Mikkola, associate professor1 2
  1. 1University of Helsinki and Helsinki University Hospital, Obstetrics and Gynecology, Haartmaninkatu 2, PO Box 140, FIN-00029 HUS, 00029 Helsinki, Finland
  2. 2Folkhälsan Research Center, Biomedicum, Helsinki, Finland
  3. 3EPID Research Oy, Espoo, Finland
  4. 4National Institute for Health and Welfare, Helsinki, Finland
  5. 5Karolinska Institute, Department of Neurobiology, Care Sciences and Society, Division of Family Medicine, Huddinge, Sweden
  6. 6University of Turku, Research Centre for Child Psychiatry, Turku, Finland
  1. Correspondence to: T S Mikkola tomi.mikkola{at}
  • Accepted 1 February 2019


Objectives To compare the use of hormone therapy between Finnish postmenopausal women with and without a diagnosis for Alzheimer’s disease.

Design Nationwide case-control study.

Setting Finnish national population and drug register, between 1999 and 2013.

Participants All postmenopausal women (n=84 739) in Finland who, between 1999 and 2013, received a diagnosis of Alzheimer’s disease from a neurologist or geriatrician, and who were identified from a national drug register. Control women without a diagnosis (n=84 739), matched by age and hospital district, were traced from the Finnish national population register.

Interventions Data on hormone therapy use were obtained from the Finnish national drug reimbursement register.

Main outcome measures Odds ratios and 95% confidence intervals for Alzheimer’s disease, calculated with conditional logistic regression analysis.

Results In 83 688 (98.8%) women, a diagnosis for Alzheimer’s disease was made at the age of 60 years or older, and 47 239 (55.7%) women had been over 80 years of age at diagnosis. Use of systemic hormone therapy was associated with a 9-17% increased risk of Alzheimer’s disease. The risk of the disease did not differ significantly between users of estradiol only (odds ratio 1.09, 95% confidence interval 1.05 to 1.14) and those of oestrogen-progestogen (1.17, 1.13 to 1.21). The risk increases in users of oestrogen-progestogen therapy were not related to different progestogens (norethisterone acetate, medroxyprogesterone acetate, or other progestogens); but in women younger than 60 at hormone therapy initiation, these risk increases were associated with hormone therapy exposure over 10 years. Furthermore, the age at initiation of systemic hormone therapy was not a decisive determinant for the increase in risk of Alzheimer’s disease. The exclusive use of vaginal estradiol did not affect the risk of the disease (0.99, 0.96 to 1.01).

Conclusions Long term use of systemic hormone therapy might be accompanied with an overall increased risk of Alzheimer’s disease, which is not related to the type of progestogen or the age at initiation of systemic hormone therapy. By contrast, use of vaginal estradiol shows no such risk. Even though the absolute risk increase for Alzheimer’s disease is small, our data should be implemented into information for present and future users of hormone therapy.


Alzheimer’s disease, the most common cause of dementia, occurs more frequently in women than in men.1 This difference might be due to the longer life expectancy of women, but sex specific differences in the incidence of Alzheimer’s disease might also exist.123 It is known that oestrogens exert neuroprotection in several animal studies.456 Also, oestrogen deficiency as a result of early menopause has been associated with an increased risk of Alzheimer’s disease.7 Therefore, prolonging the oestrogen supply with postmenopausal hormone therapy could protect against Alzheimer’s disease.

However, clinical data on the association between hormone therapy and the disease have remained inconclusive. Despite several observational studies supporting the protective effect of hormone therapy on Alzheimer’s disease,8910111213 a subsequent placebo controlled trial (the Women’s Health Initiative Memory Study (WHIMS)) failed to confirm this benefit, and in fact implied an increased risk of overall dementia in hormone therapy users.1415 The conflicting data could in part result from differences in the study design, study populations, or hormone therapy regimens. Unlike clinical practice, hormone therapy in the WHIMS trial was initiated in women aged 65 or older.1415 Thus, one explanation might also be the timing hypothesis, which suggests that oestrogen could be neuroprotective only if started soon after the onset of menopause.16 This hypothesis originates from cardiovascular studies17 where the age at the start of hormone therapy appears to predict the cardiovascular effects of hormone therapy. Treatment initiated before age 60 is protective, but if started at a later age, it is detrimental towards the vasculature. Such a window for hormone therapy use has also been suggested for cognitive effects.16

By using Finnish comprehensive nationwide registers, we were able to conduct a case-control comparison to investigate whether hormone therapy had an effect on the risk of Alzheimer’s disease, and whether this risk was associated with age of treatment initiation or duration of treatment use.


In Finland, patients with Alzheimer’s disease are entitled to 40% reimbursement for treatment from national health insurance, but this requires a statement from a neurologist or geriatrician. They must base the diagnosis on symptoms consistent of mild or moderate Alzheimer’s disease, decrease in social capacity for at least three months, cognitive tests, magnetic resonance imaging or computed tomography scanning of the brain, and exclusion of alternative diagnoses. The physician also must confirm whether the patient has other dementia related diseases, such as Lewy body dementia or mixed dementia. For mixed dementia, patients are entitled to reimbursement only if the symptoms and findings are caused mainly by Alzheimer’s disease. In total, 84 739 women with a diagnosis for Alzheimer’s disease were entered into this register in 1999-2013. During the same period of time, control women without a diagnosis were identified from the Finnish National population register (one control per case; n=84 739). Control women were matched with cases by age (within 1 month) and by hospital district according to the woman’s municipality of residence. Hospital districts were further divided into five university hospital districts.

Finland has a reliable nationwide register that includes all hormone therapy users from year 1994. Use of the treatment in Finland is available only with a physician’s prescription, and regimens are partly (40-60%) reimbursed by the government. At each pharmacy visit, hormone therapy purchases are entered into the drug reimbursement register, confirming use of the prescribed regimen of hormone therapy. The register was initiated in 1994, so we could not differentiate whether a woman who bought the treatment in 1994 was a new user or was continuing her treatment initiated before 1994. Therefore, we assumed that all systemic users older than 52 years in 1994 had initiated the treatment at age 52 and vaginal users at age 65, which are the mean ages at systemic and vaginal initiation of hormone therapy in our study population, respectively.18 This approximation has been used in several previous studies. 192021 However, we also analysed separately women who had started hormone therapy in 1995 (one year after the register opened) or later (that is, fresh starters: 65 102 cases and 65 102 controls), because this group’s detailed history of treatment use was documented in the register. The findings in this subanalysis were fully in line with those in the whole study population, so the data of this subanalysis are not shown.

The regimens of systemic hormone therapy in Finland contain exclusively estradiol, which is given either orally (90%) or transdermally (10%). The regimens identified by trade names were transformed into doses of estradiol (oral or transdermal). Various progestogens were used in combination with estradiol (that is, oestrogen-progestogen therapy), of which norethisterone acetate and medroxyprogesterone acetate were the most common.20 According to the Finnish guidelines, only women who have had hysterectomies can use estradiol without progestogen, and these women were studied as an estradiol only group. Oral estradiol doses in Finland are usually 1-2 mg/day, and transdermal (gel or patch) estradiol is used with equivalent doses (25-100 μg/day). However, owing to the switching of the use of hormone therapy from one route to another and to the relatively similar route independent levels of circulating oestrogen, we did no subanalyses according to the treatment route. Sequential users of oestrogen-progestogen therapy were defined as women who used estradiol with 10-14 days of progestogen courses each month, or at intervals of one to three months. Women who used both estradiol and progestogen every day were considered as continuous users of oestrogen-progestogen therapy. Tibolone users were considered as a separate group. Users of vaginal estradiol only (Vagifem, NovoNordisk, Copenhagen, Denmark; 25 μg twice a week) were analysed separately.

Exposure to hormone therapy (ever use) was considered to have started from the date of the first purchase, or from age 52 if systemic hormone therapy was used at the register opening or from age 65 years if vaginal estradiol was used at register opening. Cumulative exposure to hormone therapy was classified by duration (lasting ≤3 years, >3 to ≤5 years, >5 to ≤10 years, or >10 years). We assessed the time period from treatment initiation to diagnosis for Alzheimer’s disease. To address the potential critical time window for oestrogen brain effect,16 we also compared the risk of the disease in women who had started hormone therapy aged under 60 versus those aged 60 and over.

Statistical methods

We used a conditional logistic regression analysis to estimate, by using odds ratios with 95% confidence intervals, the relative risk of Alzheimer’s disease associated with different regimens of hormone therapy. The association between age at treatment initiation and Alzheimer’s disease was also analysed with conditional logistic regression, using both continuous age and five years age classes as variables. We used the χ2 test to test differences between categorical variables. Differences between continuous variables were evaluated with the student’s t test or two tailed test of equal or given proportions. Significance was set at P<0.05.

Patient and public involvement

No patients were involved in the setting of the research question or the outcome measures, nor were they involved in the developing plans for design or implementation of the study. No patients were asked to advise on interpretation or writing up of the results. There are no plans to disseminate the results of the research to study participants or the relevant patient community.


Overall, in 83 688 (98.8%) women, a diagnosis for Alzheimer’s disease was made at the age of 60 years or older, and 47 239 (55.7%) women had been over 80 years of age at diagnosis (table 1). Time from initiation of hormone therapy to diagnosis was shorter than five years in 886 (5.6%) women, but longer than 10 years in 11 805 (74.9%). At the time of diagnosis, only 2305 (14.6%) women were still using hormone therapy, whereas 10 188 (64.6%) had stopped treatment more than three years before diagnosis.

Table 1

Characteristics of study population. Data are number (%) of women unless stated otherwise

View this table:

Patients with Alzheimer’s disease used systemic hormone therapy more often (18.6% v 17.0%, respectively, P<0.001) but used vaginal estradiol only less often (12.7% v 13.2%, P=0.005) than controls (table 1). The mean exposure time to systemic hormone therapy did not differ between patients with Alzheimer’s disease and control women (table 1). The relative proportions of different progestogens users were similar in cases and controls (table 1), but exposure to oestrogen-progestogen therapy with other or mixed progestogens was longer in patients with Alzheimer’s disease (P=0.02).

Overall, hormone therapy users with Alzheimer’s disease (n=11 456, 73.7%) had started systemic hormone therapy under age 60 years less often than controls (n=10 662, 75.1%, P=0.006). The mean age at initiation of estradiol only was similar for patients with Alzheimer’s disease and controls (table 1), but the mean age at initiation of oestrogen-progestogen therapy was slightly higher for patients with Alzheimer’s disease than for controls (56.1 (standard deviation 7.8) v 55.8 (7.6), P=0.02).

In the whole study population, the risk of Alzheimer’s disease was increased but did not differ significantly between users of estradiol only (odds ratio 1.09, 95% confidence interval 1.05 to 1.14) and those of oestrogen-progestogen (1.17, 1.13 to 1.21). Exclusive use of vaginal estradiol was not related to risk of Alzheimer’s disease (0.99, 0.96 to 1.01). In women younger than 60 at hormone therapy initiation, use of the different oestrogen-progestogen therapies was associated with an 8-17% increased risk of Alzheimer’s disease (table 2). We saw no significant differences between the different therapies with regards to Alzheimer’s disease risk. Use of estradiol only was associated with a small but significant increase in disease risk. The risk of Alzheimer’s disease in estradiol only users (odds ratio 1.06, 95% confidence interval 1.01 to 1.12) and all users of oestrogen-progestogen therapy (1.14, 1.09 to 1.19) did not differ significantly. The use of tibolone carried no significant risk of Alzheimer’s disease in this age group. The risk increases in users of estradiol only and oestrogen-progestogen therapy were related to 10 years of exposure or more, whereas shorter use of hormone therapy was not associated with Alzheimer’s disease risk (table 3).

Table 2

Odds ratios for Alzheimer’s disease in women younger than 60 or aged 60 and older at treatment initiation of estradiol only or various combined therapies

View this table:
Table 3

Odds ratios for Alzheimer’s disease in women younger than 60 or aged 60 and over at treatment initiation of estradiol only or various combined therapies, stratified by duration of treatment

View this table:

In women aged 60 or older at the initiation of hormone therapy, use of estradiol only, oestrogen-progestogen therapy, or tibolone was associated with similar increases in risk (15-38%) for Alzheimer’s disease (table 2). In this age group, the increased risk was already detectable after three to five years’ use of estradiol only or oestrogen-progestogen therapy (table 3). The increases in risk of Alzheimer’s disease between women younger than 60 and those aged 60 or older at treatment initiation did not differ significantly. When the effect of age at treatment initiation on risk of Alzheimer’s disease was analysed further in five year intervals, no association emerged (fig 1). Furthermore, age as a continuous variable was no determinant for disease risk in users of estradiol only (odds ratio 1.0, 95% confidence interval 0.98 to 1.02), oestrogen-progestogen therapy (1.0, 0.99 to 1.01), or any hormone therapy (1.0, 0.99 to 1.01). The disease appeared earlier in women with a history of systemic use of hormone therapy than in those with vaginal estradiol use or without any prior use of the treatment (fig 2).

Fig 1
Fig 1

Risk of Alzheimer’s disease in women initiating systemic hormone therapy (HT) at different ages, as odds ratios and 95% confidence intervals. Line at 1.0 denotes the risk in the group of women who started systemic use younger than 55. Numbers of cases and controls are given for five years periods

Fig 2
Fig 2

Proportion (%) of women with a diagnosis of Alzheimer’s disease in different age groups according to systemic use of hormone therapy, vaginal use of estradiol, or without any history of hormone therapy (HT) use


Principal findings

In our large case-control study of 84 739 patients with Alzheimer’s disease and a similar number of control women, we showed that the systemic use of estradiol only or oestrogen-progestogen therapy was associated with an increased risk of Alzheimer’s disease, whereas use of vaginal estradiol showed no such risk. The age at initiation of hormone therapy did not appear to be a determinant for risk of the disease, whereas in women younger than 60 at treatment initiation, the risk increases were associated with exposure to hormone therapy for over 10 years.

Comparison with other studies

Most observational studies have reported a reduced risk of Alzheimer’s disease and all cause dementia in users of hormone therapy.891011121322 These analyses can be criticised, owing to the lack of a placebo arm and the possible bias of healthy woman in hormone therapy users. This criticism gained strong support from the placebo controlled WHIMS trial, reporting an increased risk of impaired cognition and probable dementia in women who used conjugated equine oestrogens (CEE) with and without medroxyprogesterone acetate.1415 On the other hand, this study was also criticised because, unlike in normal clinical practice, hormone therapy was initiated for women older than 65, many years after the onset of menopause. Moreover, the WHIMS study did not differentiate Alzheimer’s disease from other dementia or cognitive decline, although the pathophysiology of dementia includes multiple different neurodegenerative and vascular processes, which could respond differently to oestrogen exposure.

Our epidemiological study, although large in size and conducted in a case-control setting, can show only associations between hormone therapy use and the risk of Alzheimer’s disease. Moreover, the small risk increases are vulnerable to bias from unsuspected sources, which are unavoidable in all observational studies.8910111213 But if there is a causal relation, it seems that estradiol could be primarily responsible for the increased risk of Alzheimer’s disease, because use of estradiol only was related to the increased risk. However, progestogen could potentiate the effect of estradiol on the risk of Alzheimer’s disease, because the risk elevations tended to be higher in users of oestrogen-progestogen therapy than users of estradiol only. This notion accords with the WHIMS study finding1415 that the risk of all cause dementia was higher in users of CEE and medroxyprogesterone acetate than in those using CEE only. Progestogens, such as medroxyprogesterone acetate or norethisterone acetate, differ in structure and in their capacity to bind to progesterone and other steroid hormone receptors23; therefore, the risk of Alzheimer’s disease in users of the different oestrogen-progestogen therapies could vary. Our data show that norethisterone acetate, medroxyprogesterone acetate, or other progestogens as components of oestrogen-progestogen therapy do not differ in regard to risk of Alzheimer’s disease. Tibolone, a synthetic steroid hormone with oestrogenic, progestogenic, and androgenic actions, has shown a neuroprotective effect in preclinical studies.24 Our finding implies that tibolone does not differentiate significantly from other forms of systemic hormone therapy with regard to the risk of Alzheimer’s disease, but owing to the small number of tibolone users, this conclusion must be interpreted with caution.

The cause of Alzheimer’s disease is not yet fully understood, but β amyloid plaques and neurofibrillary tangles containing hyperphosphorylated τ protein do accumulate in the brain. 2526 Several risk factors, such as genetic tendency, head trauma, smoking, and low education could speed up the development of the disease. Multiple full term pregnancies might also predispose to the development of Alzheimer’s disease, perhaps due to repeat oestrogen and progesterone surges.27 Our present data imply that the prolongation of estradiol exposure beyond the natural menopausal age with the use of hormone therapy could stimulate the progression of Alzheimer’s disease, and thus increase its risk, especially if such exposure to estradiol is continued for over 10 years. Our data do not allow any detailed speculations for the possible biological mechanism through which estradiol could have caused this effect. Although estradiol might inhibit the accumulation of β amyloid in animal models and in early postmenopausal women,3628 it has been speculated that such an effect of oestrogen is lost with advancing age. We sought thoroughly for such a timing effect from our data, but we must conclude that the age at initiation of hormone therapy is no decisive determinant for the risk of Alzheimer’s disease in the future.

We have previously shown that the systemic use of estradiol based hormone therapy was associated with a marked difference in the death risk of dementia; the risk of death for vascular dementia was profoundly decreased (by 37-39%), whereas risk of death for Alzheimer’s disease showed a much smaller decrease or even lacked a decrease. 21 Furthermore, in the extended follow-up of the Women’s Health Initiative study,29 the mortality for Alzheimer’s disease and other dementia was reduced in CEE users, although the authors conclude that this finding should be interpreted cautiously because of multiple comparisons. It is possible that the use of hormone therapy is accompanied, directly or indirectly, with a decreased risk of the most severe forms of Alzheimer’s disease, perhaps by improving cardiovascular health. Yet, it is the incidence of and not mortality from Alzheimer’s disease that determines the total burden of the disease.

Strengths and limitations of the study

Our study had several limitations. Firstly, we did not have baseline demographic data for known risk factors for Alzheimer’s disease, either for the hormone therapy users or controls. We would not expect this omission to cause many errors in our study, because several common dementia risk factors (hypertension, hypercholesterolaemia, and smoking) were evenly distributed between the two groups in another study from the same population.30 Moreover, cardiovascular mortality was reduced in the Finnish hormone therapy users,1820 implying that higher cardiovascular morbidity could not explain the elevated disease risk of hormone therapy users in our study. The ApoE E4 allele frequency in Finland (at nearly 20%) is among the highest in the world,3132 and some studies suggest that the effects of postmenopausal hormone therapy on Alzheimer’s disease are modified by the ApoE status.2 ApoE E4 is not screened in the Finnish healthcare system, but it is unlikely that ApoE status would have differed between the two study groups. Furthermore, Finnish users of hormone therapy did not differ in socioeconomic status or education from the non-users,33 and healthcare services in Finland are available for everyone, free of charge, or substantially subsidised.

Secondly, due to the first signs of cognitive impairment seven to eight years before the final diagnosis,34 there is a possibility that such women sought help from hormone therapy, and thus an increased risk of Alzheimer’s disease was a cause for its use and not its consequence. However, this seems unlikely in our population, because the disease diagnosed most often at over age 80 would have caused symptoms at around age 72-7334; however, most hormone therapy users (74%) started use under age 60. Furthermore, only 14% of users were still on hormone therapy at the time of diagnosis. Thirdly, the duration of the pre-register use of hormone therapy had to be estimated in a quarter of the total study population. However, based on the previous data,2021 such an estimation for hormone therapy use is accurate. Fourthly, controls were not screened with magnetic resonance imaging of the brain or neurological examination to exclude Alzheimer’s disease, and thus some controls could have had undiagnosed disease. This chance should not cause any concern because the prevalence of Alzheimer’s disease in Europe is 4.4%.35 Finally, although we could reliably differentiate between systemic and vaginal use of estradiol, we were not able to compare the use of oral and transdermal preparations with use of cyclic and continuous oestrogen-progestogen therapy.

Our study also had several strengths. Firstly, this study is one of the largest on the association between hormone therapy and Alzheimer’s disease. Secondly, it is vital that in a study on women with cognitive decline, the use of hormone therapy was objectively assessed from a reliable nationwide register controlled by authorities, because self reporting is not reliable in patients with poor cognitive performance. Thirdly, Alzheimer’s disease was accurately diagnosed and differentiated from vascular dementia and other forms of dementia or cognitive decline according to internationally approved criteria.36 Finally, it has been shown that 97% of Finnish patients with Alzheimer’s disease actually use treatment37 and thus have been included into the reimbursement register, which confirms that we could reliably detect patients with Alzheimer’s disease in Finland.

Conclusions and policy implications

The present study indicates that the use of systemic hormone therapy, once claimed to be protective against Alzheimer’s disease, is accompanied with a 9-17% increase in the risk of the disease in postmenopausal women, whereas the exclusive use of vaginal estradiol shows no risk. In absolute terms, we estimate that nine to 18 excess diagnoses of the disease per year will be detected in 10 000 women aged 70-80 (incidence 105 per 10 000 women years in this age group), especially in those who had used hormone therapy for over 10 years. The age at initiation of hormone therapy is no decisive determinant for the future risk of Alzheimer’s disease. Hormone therapy users should be informed of a possible risk of the disease with prolonged use, even though the absolute risk elevations are small.

What is already known on this topic

  • Data on the association between use of postmenopausal hormone therapy and risk of Alzheimer’s disease are conflicting

  • Several observational studies have indicated that hormone therapy might have a protective effect on the risk of Alzheimer’s disease, but this was not supported by the placebo controlled Women’s Health Initiative Memory Study

  • These findings were later challenged by the timing hypothesis, which indicates that oestrogen could be neuroprotective only if it is started soon after the onset of menopause

What this study adds

  • Use of postmenopausal systemic hormone therapy is accompanied with an increase in the risk of Alzheimer’s disease in postmenopausal women, whereas the use of vaginal estradiol shows no such risk

  • Particularly long term exposure to hormone therapy is associated with an increased risk of Alzheimer’s disease, but the increase in risk is not dependent on the age at treatment initiation


  • Contributors: TSM and OY designed the study. FH, PV, and MG analysed the data. HS-P drafted the figure and the tables. HS-P, PR-S, OY, and TSM drafted the manuscript, and all the authors read, revised the manuscript, and approved its final version. TSM and HS-P are responsible for the overall content as guarantors, and accept full responsibility for the work and the conduct of the study, had access to the data, and controlled the decision to publish. The corresponding author attests that all listed authors meet authorship criteria and that no others meeting the criteria have been omitted, had full access to all the data in the study, and had final responsibility for the decision to submit for publication.

  • Funding: This study was supported by a Helsinki University Hospital research grant and the Jane and Aatos Erkko Foundation. The funders had no role in the study design; in the collection, analysis, and interpretation of data; in the writing of the report; and in the decision to submit the article for publication. We confirm that the researchers were independent from funders and that all authors had full access to all of the data (including statistical reports and tables) in the study and can take responsibility for the integrity of the data and the accuracy of the data analysis.

  • Competing interests: All authors have completed the ICMJE uniform disclosure form at and declare: support from Helsinki University Hospital and the Jane and Aatos Erkko Foundation for the submitted work; speaker and consulting fees for Mylan (HS-P, TSM) and Astellas (TSM); funding for congress trips from Merck, Sharp, and Dohme (HS-P), Astellas (PR-S), and Olympus (PR-S); FH and PV work for EPID Research, which performs financially supported studies for several pharmaceutical companies; no other relationships or activities that could appear to have influenced the submitted work.

  • Ethical approval: The research committee of the Helsinki University Hospital approved our study plan. Approval from the ethics committee was not needed in our register based study because we did not contact any study patients or their care givers. Appropriate approvals for the use of confidential register data in scientific research were obtained from the National Institute for Health and Welfare (THL/1370/5.05.00/2010), Statistics Finland (TK-53-1560-10), and the Social Insurance Institution of Finland (KELA 40/522/2010). All data were pseudonymised before inclusion into the study database.

  • Data sharing: No additional data are available.

  • The lead author affirms that the manuscript is an honest, accurate, and transparent account of the study being reported; that no important aspects of the study have been omitted; and that any discrepancies from the study as originally planned (and, if relevant, registered) have been explained.

This is an Open Access article distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: