ABSTRACT
Purpose
To compare the central auditory abilities of climacteric women, with and without hormone replacement therapy.
Methods
Observational study, performed with climacteric women with and without hormone replacement therapy. Sound localization tests were performed in five directions; Sequential Verbal Memory Test; Sequential Memory Test for Nonverbal Sounds; Duration Pattern Test; Random Gap Detection Test); Masking Level Difference; Dichotic Digit Test and Speech With White Noise Test and the questionnaire “Informal Fatigue Assessment” was applied.
Results
The differences pointed out revealed the biased difference that occurs due to higher average performance in the group with TH compared to the group without TH for TMSnV. In the TLS, TMSN, RGDT and MLD tests, the group with HT presented quantitatively better results.
Conclusion
Climacteric women, with and without hormone therapy, have central auditory processing disorder involving the auditory skills of sound localization, simple and complex temporal ordering, background figure, temporal resolution and binaural interaction. However, women in the hormone therapy group performed better in simple temporal ordering.
Keywords:
Hearing; Auditory perception; Auditory tests; Climacteric; Memory; Attention
RESUMO
Objetivo
Comparar as habilidades auditivas centrais de mulheres no climatério, com e sem terapia de reposição hormonal.
Métodos
Estudo observacional, realizado com mulheres no climatério, divididas em dois grupos, segundo o uso ou não de terapia hormonal. Foram realizados os testes de Localização Sonora em cinco direções; Memória Sequencial para Sons Verbais e Não Verbais; Padrão de Duração; Random Gap Detection Test (RGDT); Masking Level Difference (MLD); Dicótico de Dígitos; Fala Com Ruído Branco, e aplicado o Questionário Avaliação Informal de Fadiga.
Resultados
Houve diferença tendenciosa de melhor desempenho médio no grupo com terapia hormonal, em comparação ao grupo sem terapia para o teste de Memória para Sons Não Verbais. Nos testes de Localização Sonora, Memória para Sons Verbais, RGDT e MLD, o grupo com terapia hormonal apresentou resultados quantitativamente melhores. O grupo com terapia hormonal demonstrou maior porcentagem de mulheres com alto nível de fadiga.
Conclusão
Mulheres no climatério, com e sem terapia hormonal, apresentam transtorno de processamento auditivo central envolvendo as habilidades auditivas de localização sonora, ordenação temporal simples e complexa, figura-fundo, resolução temporal e interação binaural. No entanto, as mulheres do grupo com terapia hormonal apresentam melhor desempenho em ordenação temporal simples.
Palavras-chave:
Audição; Percepção auditiva; Testes auditivos; Climatério; Memória; Atenção
INTRODUCTION
Menopause is the period in women's lives between the end of their reproductive phase and senescence. It is considered a syndrome with variable symptoms affecting the body as a whole(11 Brasil. Ministério da Saúde. Secretaria de Atenção à Saúde. Manual de atenção à mulher no climatério/menopausa. Brasília: Editora MS; 2008.,22 FEBRASGO: Federação Brasileira das Associações de Ginecologia e Obstetrícia. Manual de orientação em climatério. Rio de Janeiro: FEBRASGO; 2010.). One such change is the decreased production of estrogen, which is the main female reproductive hormone and influences other systems, including the nervous system.
Women often report cognitive problems during menopause, which studies suggest arise more frequently in the transition to menopause and after menopause. Estrogens modulate neurogenesis and synaptic plasticity by interacting with neurotransmitter systems and maintaining cognitive function and brain health. Based on these assumptions, studies have also found relationships between cognitive complaints and menopausal symptoms, They list the latter along with hormonal fluctuations as contributing factors to memory decline, as they can interrupt sleep and compromise activities of daily living, which in turn can affect memory(33 Reuben R, Karkaby L, McNamee C, Phillips NA, Einstein G. Menopause and cognitive complaints: are ovarian hormones linked with subjective cognitive decline? Climacteric. 2021 Ago;24(4):321-32. http://dx.doi.org/10.1080/13697137.2021.1892627. PMid:33719785.
http://dx.doi.org/10.1080/13697137.2021....
,44 Weber MT, Rubin LH, Schroeder R, Steffenella T, Maki PM. Cognitive profiles in perimenopause: hormonal and menopausal symptom correlates. Climacteric. 2021 Ago;24(4):401-7. http://dx.doi.org/10.1080/13697137.2021.1892626. PMid:33759672.
http://dx.doi.org/10.1080/13697137.2021....
).
Furthermore, changes in hormonal levels are often related to symptoms of mood swings, such as anxiety, depression, and irritability, likely resulting from decreased estrogen levels. Such changes may also be associated with deficits in memory, attention, and information processing speed, which are important for central auditory processing – i.e., the series of processes involved in the detection, analysis, and interpretation of sounds(55 Fernandes CE, Pompei LM. Endocrinologia feminina. 1ª ed. Barueri: Manole; 2015.
6 Lasmar RB. Tratado de ginecologia. 1ª ed. Rio de Janeiro: Guanabara Koogan; 2017.-77 Schlikmann A, Brimberg E. Processamento auditivo central e caracterização de aspectos cognitivos em mulheres pós-menopáusicas [dissertação]. Porto Alegre: Pontifícia Universidade Católica do Rio Grande do Sul; 2012.).
Central auditory processing (CAP) corresponds to the auditory skills underlying the activities of the central auditory nervous system to understand sounds efficiently. CAP disorders (CAPD) have been defined as changes specifically in auditory processing, which may be associated with difficulties in hearing or understanding speech, language development, and learning(66 Lasmar RB. Tratado de ginecologia. 1ª ed. Rio de Janeiro: Guanabara Koogan; 2017.,77 Schlikmann A, Brimberg E. Processamento auditivo central e caracterização de aspectos cognitivos em mulheres pós-menopáusicas [dissertação]. Porto Alegre: Pontifícia Universidade Católica do Rio Grande do Sul; 2012.). To understand the speech signal in noisy environments, both individuals with normal hearing thresholds and those with some degree of hearing loss must activate their attention, memory, and cognitive resources responsible for processing and interpreting auditory information. The term “listening effort” is defined as the amount of cognitive resources required to recognize acoustic signals, especially speech(77 Schlikmann A, Brimberg E. Processamento auditivo central e caracterização de aspectos cognitivos em mulheres pós-menopáusicas [dissertação]. Porto Alegre: Pontifícia Universidade Católica do Rio Grande do Sul; 2012.).
Healthcare for menopausal women is an ongoing challenge for health professionals. Hormone replacement therapy (HRT), generally aiming to restore estrogen levels, is one of the options that provide immediate relief from the symptoms caused by the syndrome(88 Melo GP, Costa AM. Influence of climacteric symptoms in women’s quality of life: integrative review. Hum Reprod Arch. 2018;32(3):e001117.).
Female hormones affect the auditory system, and women’s hearing fluctuates throughout the menstrual cycle. A study has reported that hearing sensitivity improved during the late follicular phase and decreased during the luteal phase, demonstrating the effect of female sex hormones – although the specific effects of estradiol and progesterone fluctuations in the central auditory system remain unclear. On the other hand, no such fluctuations in men during the same period have been reported. As for menopause, hearing sensitivity has been found to decrease rapidly as early as its onset(99 Aloufi N, Heinrich A, Marshall K, Kluk K. Sex differences and the effect of female sex hormones on auditory function: a systematic review. Front Hum Neurosci. 2023 Abr 21;17:1077409. http://dx.doi.org/10.3389/fnhum.2023.1077409. PMid:37151900.
http://dx.doi.org/10.3389/fnhum.2023.107...
).
Given the effects of estrogen on memory, attention, and information processing speed, menopausal women may be more susceptible to CAPD complaints as estrogen hormone production decreases, which is closely related to verbal information processing. CAPD can increase listening effort, as women at this stage of life may not have satisfactory conditions for interpreting sounds, placing greater demands on other cognitive resources, such as memory and attention(88 Melo GP, Costa AM. Influence of climacteric symptoms in women’s quality of life: integrative review. Hum Reprod Arch. 2018;32(3):e001117.).
Studies have examined the effects of estrogen on postmenopausal women in HRT and found they had improved pure-tone hearing thresholds, reduced latencies, and increased amplitudes in brainstem auditory response examination (ABR)(1010 Caras ML. Estrogenic modulation of auditory processing: a vertebrate comparison. Front Neuroendocrinol. 2013;34(4):285-99. http://dx.doi.org/10.1016/j.yfrne.2013.07.006. PMid:23911849.
http://dx.doi.org/10.1016/j.yfrne.2013.0...
).
Thus, HRT not only reduces menopause symptoms but also has a beneficial effect on women’s CAP – which must be assessed along with the listening effort to prove the auditory effects before and after HRT.
No studies have been found with behavioral CAP assessment in menopausal women, which highlights the originality of the present research. Even though restrictive measures taken during the COVID-19 pandemic hampered data collection, this study brings relevant results and opens the way for further research.
Hence, this research aimed to compare the central auditory skills of menopausal women with and without HRT.
METHODS
This cross-sectional study comprised two groups of menopausal women, one of them having and the other not having HRT. The sample was selected at the Menopause Outpatient Center of the University Hospital 2 – São Paulo Hospital, of the Federal University of São Paulo (HU2 – HSP/UNIFESP). The behavioral CAP assessment was carried out at the UNIFESP Clinical Audiology Outpatient Center. The study was approved by the institution's Research Ethics Committee under number 31453120.9.0000.5505.
The sample selection included women aged 45 to 59 years; right-handed; nonsmokers; diagnosed with surgical or nonsurgical pre-menopause or menopause; having normal audiological, pap smear, and mammography examination results; and being on HRT for at least 3 months or having no contraindication to HRT. All participants signed an informed consent form.
It must be pointed out that data collection was negatively impacted by the COVID-19 pandemic. The outpatient clinics did not operate normally during isolation, and the flow of patients remained low even after activities resumed. The time for data collection was limited, and many potential patients did not attend the assessment even after several calls. Thus, 15 women were invited to participate in the research, whereas three of them were excluded from the sample due to issues such as hearing loss and nonattendance to the examinations.
Thus, the sample comprised 12 women – six in the non-HRT group (control group) and six in the HRT group (study group) –, aged 45 to 58 years. All women in both groups had no hearing sensitivity complaints.
Hormonal replacement in the HRT group was carried out with Suprelle (1 mg of estradiol valerate and 0.5 mg of norethisterone acetate) or Sandrena Gel (1 mg or 0.5 mg of estradiol).
The assessments were carried out in one session, lasting approximately 2 hours with rest intervals.
After recruitment, all patients were submitted to a medical history survey and otoscopy. They also filled out the Informal Fatigue Assessment Questionnaire(1111 Cruz AD. Esforço auditivo e fadiga em adolescentes com deficiência auditiva: uso do sistema FM [tese]. Bauru: Faculdade de Odontologia de Bauru, Universidade de São Paulo; 2018. http://dx.doi.org/10.11606/T.25.2018.tde-01102018-201135.
http://dx.doi.org/10.11606/T.25.2018.tde...
), whose 11 questions approach overall fatigue and are answered on a 4-point scale. Its minimum total score is 0, indicating a lower level of fatigue, and its maximum score is 33 points, indicating a higher level of fatigue; the maximum typical fatigue score is 14.83 points. Therefore, subjects who score above this value indicate that they are more fatigued than others.
Then they underwent a behavioral CAP assessment with the following tests: Five-direction Sound Localization Test (SLT), Sequential Memory Test for Verbal Sounds (SMTV), Sequential Memory Test for Nonverbal Sounds (SMTNV), Duration Pattern Test (DPT), Random Gap Detection Test (RGDT), Masking Level Difference, (MLD), Dichotic Digit Test (DDT), and Speech by White Noise Test (SWN).
After collection, the behavioral CAP assessment results were classified as normal or abnormal, according to normal standards(1212 Corazza MCA. Avaliação do processamento auditivo em adultos: testes de padrões tonais auditivos de frequência e teste de padrões tonais auditivos de duração [tese]. São Paulo: Universidade Federal de São Paulo; 1998.
13 Pereira LD, Schochat E. Processamento auditivo central: manual de avaliação. São Paulo: Lovise; 1997.-1414 Keith RW. Random gap detection test. Missouri: Auditec of Saint Louis; 2000.) (Chart 1).
Hearing skills were classified as normal or abnormal, depending on the test(s) in which they performed below the normal standards and their overall assessment performance. Hearing skills classified as abnormal were indicative of CAPD, following the recommendation of the Brazilian Academy of Audiology(1212 Corazza MCA. Avaliação do processamento auditivo em adultos: testes de padrões tonais auditivos de frequência e teste de padrões tonais auditivos de duração [tese]. São Paulo: Universidade Federal de São Paulo; 1998.
13 Pereira LD, Schochat E. Processamento auditivo central: manual de avaliação. São Paulo: Lovise; 1997.-1414 Keith RW. Random gap detection test. Missouri: Auditec of Saint Louis; 2000.) (Chart 1).
Then, the data were organized in a spreadsheet and sent to a statistician for analyses, which were performed in SPSS (IBM), version 19, and Excel 2013.
Descriptive statistics with summary measures of position and variability were used to analyze numerical data and quantitative variables. Inferential statistics with Student's t-test for independent samples compared numerical data. The descriptive statistics of the qualitative (categorical) variables were presented with simple and double-entry tabulations, referring to the relevant frequencies and percentages inherent to the object of study. Nonparametric statistical techniques were used to compare categorical data.
The discrepancy between the statistical hypothesis and the observed data was verified with statistical significance analysis, considering a measure of evidence, the probability of type I error (α) of 0.05, meaning a 5% rejection region.
RESULTS
The sample had 12 women – six in the non-HRT group (control group) and six in the HRT group (study group) –, aged 45 to 58 years, with no hearing complaints. The HRT group had a higher mean chronological age (52 years and 2 months) than the non-HRT group (50 years and 8 months).
The educational attainment of the study and control groups was partially matched (greater than 83%). The most frequent degree was that of high school graduates.
None of the women in the study group (with HRT) had been exposed to noise throughout their lives. However, they had comorbidities such as anxiety, psychological and/or psychiatric support, thyroid problems, lupus, bone diseases, kidney diseases, and high blood pressure.
Neither of the groups in the sample had hearing sensitivity complaints (Figure 1).
The results shown in Table 1 revealed the trend toward a difference due to better mean SMTNV test performance in the HRT group than the non-HRT group. In the SLT, SMTNV, SMTV, RGDT, and MLD tests, the HRT group had quantitatively better results, but with no statistical differences.
Descriptive statistics of quantitative performance in central auditory processing behavioral tests and comparative statistics between groups
Table 2 demonstrates that the non-HRT group had a higher mean number of correct answers in the right ear (RE) SWN than the HRT group. Moreover, according to the analysis, the non-HRT group had better DPT and DDT results in both the RE and left ear (LE).
Descriptive statistics regarding the qualitative performance in the central auditory processing assessment and comparative statistics between the groups
The qualitative analysis of the tests verified that the HRT group performed better in SMTV, RGDT, and MLD, with a higher normal result index (Table 3).
Descriptive statistics of qualitative performance in the questionnaire and comparative statistics between groups
On the other hand, the non-HRT group was qualitatively better in the DDT in the RE and LE, with a higher percentage of normal results.
In the other tests, the groups did not have qualitatively different results.
The mean quantitative results of the fatigue questionnaire were similar in both groups – the non-HRT group had a mean of 12.33 points, and the HRT group had a mean of 12.67 points.
The HRT group had a higher percentage of women with a high fatigue level, according to the qualitative analysis, though with no statistically significant difference.
DISCUSSION
The most frequent level of education in the characterization of the sample (which partially matched between the groups) was that of high school graduates. The sample women in either group did not have hearing sensitivity complaints (Figure 1). However, most of them reported hearing perception problems, such as difficulty understanding in a noisy environment. Their hearing thresholds were normal in the pure-tone assessment. Therefore, the reported complaints may be due to CAP-related hearing difficulties, as their results were normal in the quantitative assessments (hearing thresholds)(1515 Stenberg AE, Wang H, Fish J 3rd, Schrott-Fischer A, Sahlin L, Hultcrantz M. Estrogen receptors in the normal adult and developing human inner ear and in Turner’s syndrome. Hear Res. 2001 Jul;157(1-2):87-92. http://dx.doi.org/10.1016/S0378-5955(01)00280-5. PMid:11470188.
http://dx.doi.org/10.1016/S0378-5955(01)...
). The fact that two women in the sample recruitment process had hearing loss called attention to and demonstrated the need to include audiological assessments among the examinations of menopausal women. Both were excluded from the sample.
Estrogen and progesterone, female hormones, greatly influence the central nervous system. Estrogen production tends to gradually decrease with the menopause onset, which occurs at the mean age of 51 years and 9 months in Brazilian women. Various changes are perceived in the female body during menopause, such as hot flashes, changes in sleep, mood, fatigue, anxiety, memory difficulties, and reduced information processing speed(77 Schlikmann A, Brimberg E. Processamento auditivo central e caracterização de aspectos cognitivos em mulheres pós-menopáusicas [dissertação]. Porto Alegre: Pontifícia Universidade Católica do Rio Grande do Sul; 2012.).
Memory changes and slow information processing during menopause occur because cellular receptors for sex hormones are located in specific areas of the brain, such as the pituitary gland, hypothalamus, limbic system, and cerebral cortex(77 Schlikmann A, Brimberg E. Processamento auditivo central e caracterização de aspectos cognitivos em mulheres pós-menopáusicas [dissertação]. Porto Alegre: Pontifícia Universidade Católica do Rio Grande do Sul; 2012.).
Women’s cognitive performance at different stages of menopause was studied using speech processing tests, immediate and delayed verbal memory, and working memory, with the Digit Span Test. The results showed that postmenopausal women had reduced auditory information processing speed in delayed verbal memory tests. Women undergoing HRT slightly improved their working memory, speech processing, and immediate and delayed verbal memory results(55 Fernandes CE, Pompei LM. Endocrinologia feminina. 1ª ed. Barueri: Manole; 2015.).
Another study found no relationship between memory complaints reported by menopausal women and memory and attention test performance(44 Weber MT, Rubin LH, Schroeder R, Steffenella T, Maki PM. Cognitive profiles in perimenopause: hormonal and menopausal symptom correlates. Climacteric. 2021 Ago;24(4):401-7. http://dx.doi.org/10.1080/13697137.2021.1892626. PMid:33759672.
http://dx.doi.org/10.1080/13697137.2021....
). Moreover, increased stress levels and changes in health and sleep may also be related to changes in attention(1616 Vilar L. Endocrinologia clínica. 6ª ed. Rio de Janeiro: Guanabara Koogan; 2016.).
The transition between menopause phases is accompanied by changes in cortisol levels, which may be associated with declined memory and attention. Cognitive changes in postmenopausal women over 60 years old were verified in another study using auditory processing and word list memory tests. Their results were related to Mini-Mental State Examination results, indicating a possible relationship between CAP changes (immediate and short-term memory) and later development of dementia. However, this study did not address peripheral auditory aspects that could be affected by hearing changes that occur after 50 years old – i.e., age-related hearing loss or presbycusis(55 Fernandes CE, Pompei LM. Endocrinologia feminina. 1ª ed. Barueri: Manole; 2015.,1717 Greendale GA, Huang MH, Wight RG, Seeman T, Luetters C, Avis NE, et al. Effects of the menopause transition and hormone use on cognitive performance in midlife women. Neurology. 2009 Maio 26;72(21):1850-7. http://dx.doi.org/10.1212/WNL.0b013e3181a71193. PMid:19470968.
http://dx.doi.org/10.1212/WNL.0b013e3181...
).
The sample in the present study had women aged 45 to 58 years, with an older mean age in the HRT group than in the non-HRT group.
The statistical analysis showed a trend toward a difference for better SMTNV mean performance in the HRT group than in the non-HRT group. The HRT group also performed had quantitatively better SLT, SMTV, RGDT, and MLD results, though not statistically significant (Table 1). Both groups had the same result in SWN LE.
In the qualitative analysis, the HRT group performed better in SMTV, RGDT, and MLD, with a higher normal result index (Table 2), demonstrating better performance in temporal processing.
Thus, the HRT group had better CAP assessment results in general, demonstrating a possible relationship between HRT and CAP (Table 2). The test results were not statistically significant, probably due to the sample size. Hence, a study with more participants may statistically demonstrate an advantage in the HRT group.
The present study also found an advantage of the RE in the DDT test in both groups, confirming left hemisphere dominance, even in menopause years. The results of a study with dichotic tests found decreasing binaural processing with increasing age, which affects the auditory system and interhemispheric integrity. Such a decline usually occurs between 40 and 55 years old, regardless of the sex. The decline in interhemispheric integrity is demonstrated in dichotic tests by measuring the advantage of the RE in tests with words – i.e., when the LE performs worse than the RE. The RE advantage in word tests occurs during the maturation of the auditory pathways, whereas by 9 years old, the two ears become equivalent. When dichotic or competitive stimuli are presented to both ears, the ipsilateral central auditory pathway is suppressed by the stronger contralateral pathway. Because the language-dominant hemisphere (usually the left one) is recruited for the verbal perception of auditory linguistic stimuli, information presented on the left side needs to be transferred from the right hemisphere to the left side via the posterior part of the corpus callosum, whereas stimuli presented to the RE do not require this path. Thus, an RE advantage would indicate poor interhemispheric function(1818 Moradi F, Jahanian Sadatmahalleh S, Ziaei S. The effect of hormone replacement therapy on cognitive function in postmenopausal women: an RCT. Int J Reprod Biomed. 2019 Jan 28;16(12):767. http://dx.doi.org/10.18502/ijrm.v16i12.3682. PMid:31417982.
http://dx.doi.org/10.18502/ijrm.v16i12.3...
).
Lastly, the results of the Informal Fatigue Assessment Questionnaire were analyzed to investigate the study groups’ listening effort – although the questionnaire does not directly address auditory and CAP issues. The research participants had difficulties in differing listening efforts from physical and mental fatigue symptoms. The statistical quantitative and qualitative analyses revealed no statistically significant differences between the HRT and non-HRT groups. Thus, the questionnaire was not effective in discriminating the groups (Table 3).
The main limitation of the study was the difficulty in recruiting participants, especially due to the social isolation imposed by the COVID-19 pandemic. The study also had other limitations, such as not assessing the women’s executive functions, despite their proven relationship with CAP. Due to the short collection period, it was not possible to evaluate the same women before and after HRT. Finally, the study did not control the type, time, or manner of medication use by the participants – it was only assured that they had been in HRT for at least 3 months. Therefore, the study results must be cautiously generalized.
Nevertheless, these results open the way for future perspectives, such as studying the same group of women before and after HRT with different types of medication, proposing hearing skills rehabilitation with acoustically controlled training after HRT, comparing neuropsychological with central auditory skills, and using specific self-assessed hearing questionnaires to subjectively characterize CAPD.
Thus, further studies in the area, especially with larger samples, are needed to better clarify the associations between cognitive domains and CAP.
CONCLUSION
Menopausal women with and without HRT in this study had CAPD involving the following hearing skills: sound localization, simple and complex temporal ordering, figure-ground, temporal resolution, and binaural interaction.
On the other hand, the women in the HRT group performed better in simple temporal ordering. They also had better quantitative results, though not statistically significant, in the sound localization, figure-ground, temporal resolution, and binaural interaction tests.
ACKNOWLEDGMENTS
Gratitude is extended to the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), of the Ministry of Science and Technology – Programa Institucional de Bolsas de Iniciação Científica (PIBIC), for the financial support.
-
Study carried out at Universidade Federal de São Paulo – UNIFESP – São Paulo, (SP), Brasil.
-
Funding: National Council for Scientific and Technological Development of the Ministry of Science and Technology (CNPq) - Institutional Program for Scientific Initiation Scholarships (PIBIC), process number 138673/2020-9.
REFERÊNCIAS
-
1Brasil. Ministério da Saúde. Secretaria de Atenção à Saúde. Manual de atenção à mulher no climatério/menopausa. Brasília: Editora MS; 2008.
-
2FEBRASGO: Federação Brasileira das Associações de Ginecologia e Obstetrícia. Manual de orientação em climatério. Rio de Janeiro: FEBRASGO; 2010.
-
3Reuben R, Karkaby L, McNamee C, Phillips NA, Einstein G. Menopause and cognitive complaints: are ovarian hormones linked with subjective cognitive decline? Climacteric. 2021 Ago;24(4):321-32. http://dx.doi.org/10.1080/13697137.2021.1892627 PMid:33719785.
» http://dx.doi.org/10.1080/13697137.2021.1892627 -
4Weber MT, Rubin LH, Schroeder R, Steffenella T, Maki PM. Cognitive profiles in perimenopause: hormonal and menopausal symptom correlates. Climacteric. 2021 Ago;24(4):401-7. http://dx.doi.org/10.1080/13697137.2021.1892626 PMid:33759672.
» http://dx.doi.org/10.1080/13697137.2021.1892626 -
5Fernandes CE, Pompei LM. Endocrinologia feminina. 1ª ed. Barueri: Manole; 2015.
-
6Lasmar RB. Tratado de ginecologia. 1ª ed. Rio de Janeiro: Guanabara Koogan; 2017.
-
7Schlikmann A, Brimberg E. Processamento auditivo central e caracterização de aspectos cognitivos em mulheres pós-menopáusicas [dissertação]. Porto Alegre: Pontifícia Universidade Católica do Rio Grande do Sul; 2012.
-
8Melo GP, Costa AM. Influence of climacteric symptoms in women’s quality of life: integrative review. Hum Reprod Arch. 2018;32(3):e001117.
-
9Aloufi N, Heinrich A, Marshall K, Kluk K. Sex differences and the effect of female sex hormones on auditory function: a systematic review. Front Hum Neurosci. 2023 Abr 21;17:1077409. http://dx.doi.org/10.3389/fnhum.2023.1077409 PMid:37151900.
» http://dx.doi.org/10.3389/fnhum.2023.1077409 -
10Caras ML. Estrogenic modulation of auditory processing: a vertebrate comparison. Front Neuroendocrinol. 2013;34(4):285-99. http://dx.doi.org/10.1016/j.yfrne.2013.07.006 PMid:23911849.
» http://dx.doi.org/10.1016/j.yfrne.2013.07.006 -
11Cruz AD. Esforço auditivo e fadiga em adolescentes com deficiência auditiva: uso do sistema FM [tese]. Bauru: Faculdade de Odontologia de Bauru, Universidade de São Paulo; 2018. http://dx.doi.org/10.11606/T.25.2018.tde-01102018-201135
» http://dx.doi.org/10.11606/T.25.2018.tde-01102018-201135 -
12Corazza MCA. Avaliação do processamento auditivo em adultos: testes de padrões tonais auditivos de frequência e teste de padrões tonais auditivos de duração [tese]. São Paulo: Universidade Federal de São Paulo; 1998.
-
13Pereira LD, Schochat E. Processamento auditivo central: manual de avaliação. São Paulo: Lovise; 1997.
-
14Keith RW. Random gap detection test. Missouri: Auditec of Saint Louis; 2000.
-
15Stenberg AE, Wang H, Fish J 3rd, Schrott-Fischer A, Sahlin L, Hultcrantz M. Estrogen receptors in the normal adult and developing human inner ear and in Turner’s syndrome. Hear Res. 2001 Jul;157(1-2):87-92. http://dx.doi.org/10.1016/S0378-5955(01)00280-5 PMid:11470188.
» http://dx.doi.org/10.1016/S0378-5955(01)00280-5 -
16Vilar L. Endocrinologia clínica. 6ª ed. Rio de Janeiro: Guanabara Koogan; 2016.
-
17Greendale GA, Huang MH, Wight RG, Seeman T, Luetters C, Avis NE, et al. Effects of the menopause transition and hormone use on cognitive performance in midlife women. Neurology. 2009 Maio 26;72(21):1850-7. http://dx.doi.org/10.1212/WNL.0b013e3181a71193 PMid:19470968.
» http://dx.doi.org/10.1212/WNL.0b013e3181a71193 -
18Moradi F, Jahanian Sadatmahalleh S, Ziaei S. The effect of hormone replacement therapy on cognitive function in postmenopausal women: an RCT. Int J Reprod Biomed. 2019 Jan 28;16(12):767. http://dx.doi.org/10.18502/ijrm.v16i12.3682 PMid:31417982.
» http://dx.doi.org/10.18502/ijrm.v16i12.3682
Publication Dates
-
Publication in this collection
11 Dec 2023 -
Date of issue
2023
History
-
Received
21 Apr 2023 -
Accepted
12 Sept 2023