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1.
Herbal Products Used in Menopause and for Gynecological Disorders.
Kenda, M, Glavač, NK, Nagy, M, Sollner Dolenc, M, On Behalf Of The Oemonom,
Molecules (Basel, Switzerland). 2021;(24)
Abstract
Herbal products are often used as an alternative to pharmacological therapy. Menopausal symptoms and gynecological disorders (such as premenstrual syndrome and dysmenorrhea) are the indications where pharmacological therapy may have serious adverse events, hence many women prefer to use herbal products to help with these symptoms. Here, we reviewed plants and derived products, which are commonly used for the abovementioned indications, focusing on clinical data, safely profile and whether or not their use is justified. We noted that limited data are available on the use of some plants for alleviating the symptoms of menopause and gynecological disorders. While black cohosh (Cimicifuga racemose) and red clover (Trifolium pretense) were consistently shown to help reduce menopausal symptoms in clinical studies, currently available data do not fully support the use of fenugreek (Trigonella foenum-graecum), hops (Humulus lupulus), valerian (Valeriana officinalis), and soybean (Glycine max and Glycine soja) for this indication. For premenstrual syndrome and premenstrual dysphoric disorder, chaste tree (Vitex agnus-castus) shows effectiveness, but more clinical studies are needed to confirm such effect upon the use of evening primrose (Oenothera biennis).
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2.
Sarcopenia and Menopause: The Role of Estradiol.
Geraci, A, Calvani, R, Ferri, E, Marzetti, E, Arosio, B, Cesari, M
Frontiers in endocrinology. 2021;:682012
Abstract
During aging and menopausal transition in women, a progressive muscle degeneration (i.e. decrease in quality and muscle function) occurs. This muscle dysfunction, caused by decreased proliferation of muscle satellite cells, increased levels of inflammatory markers, and altered levels of sex hormones, exposes women to a raised incidence of sarcopenia. In this regard, hormonal balance and, in particular, estradiol, seems to be essential in skeletal muscle function. The role of the estradiol on satellite cells and the release of inflammatory cytokines in menopausal women are reviewed. In particular, estradiol has a beneficial effect on the skeletal muscle by stimulating satellite cell proliferation. Skeletal muscle can respond to estrogenic hormonal control due to the presence of specific receptors for estradiol at the level of muscle fibers. Additionally, estradiol can limit inflammatory stress damage on skeletal muscle. In this review, we primarily focused on the role of estradiol in sarcopenia and on the possibility of using Estradiol Replacement Therapy, which combined with nutritional and physical activity programs, can counteract this condition representing a valid tool to treat sarcopenia in women.
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3.
The interplay between metabolic dysregulations and non-alcoholic fatty liver disease in women after menopause.
Robeva, R, Mladenović, D, Vesković, M, Hrnčić, D, Bjekić-Macut, J, Stanojlović, O, Livadas, S, Yildiz, BO, Macut, D
Maturitas. 2021;:22-30
Abstract
The hypoestrogenic period after menopause and associated metabolic imbalance might facilitate the onset of non-alcoholic fatty liver disease (NAFLD) and its progression. The prevalence of NAFLD increases in patients experiencing premature ovarian insufficiency, as well as surgical or natural menopause. The postmenopausal period is characterized by dyslipidemia and insulin resistance associated with an increased influx of free fatty acids to the liver with consequent steatosis and further progression of NAFLD. More than half of postmenopausal women with diabetes mellitus type 2 suffer from NAFLD. It is suggested that estrogens slow the progression of chronic liver diseases by suppression of inflammation, improvement of mitochondrial function, alleviation of oxidative stress, insulin resistance, and fibrogenesis. The hyperandrogenic state of polycystic ovary syndrome (PCOS) is associated with the development of NAFLD in women of reproductive age, but it is difficult to extend these findings to menopause due to inappropriate diagnosis of PCOS after menopause. Lifestyle intervention, including physical activity and dietary regimens, remains the first-line preventive and therapeutic option for NAFLD. There are contradictory reports on the use of menopausal hormonal therapy (MHT) and NAFLD. It is necessary to investigate the potential effects of estradiol dose, progesterone type, selective estrogen receptor modulators and tissue-selective estrogen complex compounds on NAFLD development and progression in postmenopausal women. The present review aims to explore the pathophysiological and clinical aspects of liver metabolic disturbances in women after menopause, focusing on the possible preventive and therapeutic strategies in NAFLD, including the potential role of MHT.
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4.
Menopause and cardiometabolic diseases: What we (don't) know and why it matters.
Roa-Díaz, ZM, Raguindin, PF, Bano, A, Laine, JE, Muka, T, Glisic, M
Maturitas. 2021;:48-56
Abstract
This narrative review discusses the current understanding, knowledge gaps and challenges in expanding our knowledge of the association between menopause and the reproductive aging process and cardiometabolic disease (CMD) in women, with a focus on type 2 diabetes and cardiovascular disease. The physiological changes that occur at different stages of the reproductive life span, as well as type of menopause and timing, are factors widely associated with CMD risk; however, the underlying mechanisms remain either unclear or insufficiently studied. Decreased ovarian estrogen production and relative androgen excess around menopause onset are the most studied factors linking menopause and cardiometabolic health; nevertheless, the evidence is not persuasive and other hypotheses might explain the changes in CMD risk during menopausal transition. In this context, hormone therapy has been widely adopted in the treatment and prevention of CMD, although uncertainty regarding its cardiometabolic effects has raised the need to optimize therapeutic modalities. Mechanisms such as the "iron overload theory" and new "omics" platforms could provide new insights into potential pathways underlying the association between menopause and cardiometabolic health, such as the DNA damage response. Although it has been widely reported that environmental and lifestyle factors affect both menopause and cardiometabolic health, there is little evidence on the role of these exposures in menopause-associated CMD risk.
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5.
[Topical hormonal treatment in anti-aging of the skin].
Bayerl, C
Der Hautarzt; Zeitschrift fur Dermatologie, Venerologie, und verwandte Gebiete. 2020;(10):786-790
Abstract
Topical hormonal treatment allows anti-aging of the skin when used during and after the menopause without an increase in the blood level of hormones. Natural hormones are only prescribed by medical doctors. In controlled clinical studies versus placebo and application for months, an increase in skin quality parameters, reduction of dryness, increase of glycosaminoglycanes, increase in elastic fibers und increase of collagen precursers and collagen fibers on the mRNA and protein level could be shown, the latter proven by biopsies. Skin with dramatic sun-damage does not respond to this treatment option. Patients with melasma or seborrhoe should not be treated with hormonal topical preparations. Compared to the natural hormones, phytotherapeutics do not bind to hormone receptors in relevant levels. Growth hormones should not be used in anti-aging treatment due to a potential carcinogenic effect.
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6.
Reproductive health in women with type 2 diabetes mellitus.
Creţu, D, Cernea, S, Onea, CR, Pop, RM
Hormones (Athens, Greece). 2020;(3):291-300
Abstract
As type 2 diabetes mellitus (T2DM) reaches epidemic proportions in the developed world and the age at diagnosis decreases, more women of reproductive age are being affected. In this article, we provide a synoptic view on potential mechanisms and relevant factors underlying menstrual cycle disorders and fertility issues in women with T2DM. The article discusses the function of the hypothalamic-pituitary-ovarian (HPO) axis, the central role of the hypothalamus in the homeostasis of this system, the central modulators of the axis, and the peripheral metabolic signals involved in neuroendocrine control of reproduction. The available literature on the relationship between T2DM and the female reproductive lifespan, menstrual cycle disorders, fertility issues, and gestational health in women with T2DM are also discussed. The data so far indicate that there is a "U-shaped" relationship between menarche, menopause, and T2DM, both early and late menarche/menopause being risk factors for T2DM. Hyperglycemia and its consequences may be responsible for the effects of T2DM on reproductive health in women, but the exact mechanisms are not as yet fully understood; thus, more studies are needed in order to identify factors causing disruption of the HPO axis.
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7.
Vitamin D, menopause, and aging: quo vadis?
López-Baena, MT, Pérez-Roncero, GR, Pérez-López, FR, Mezones-Holguín, E, Chedraui, P
Climacteric : the journal of the International Menopause Society. 2020;(2):123-129
Abstract
Menopause and aging are associated with changes in circulating gonadal steroid hormones, insulin sensitivity, body composition, and also lifestyle and social coordinates. Vitamin D status influences different metabolic adjustments, aside from calcium-phosphorus and bone metabolism. The main blood marker used to measure endogenous vitamin D status is 25-hydroxyvitamin D. Aging is associated with increases in serum parathyroid hormone and alkaline phosphatase, and a decrease of serum calcium, phosphorus, and vitamin D metabolites. 25-Hydroxyvitamin D status is also influenced by the circannual rhythm of sun irradiation. Results of clinical association studies have not correlated with intervention trials, experimental studies, and/or meta-analyses regarding the role of vitamin D on different outcomes in women during their second half of life and the vitamin D supplementation dose needed to improve clinical endpoints. Discordant results have been related to the method used to measure vitamin D, the studied population (i.e., sociodemographics and ethnicity), study designs, and biases of analyses. Vitamin D supplementation with cholecalciferol or calcifediol may improve some metabolic variables and clinical outcomes in young postmenopausal and older women. Studies seem to suggest that calcifediol may have some advantages over other forms of vitamin D supplementation. Further studies are needed to define interventions with supplements and effective food fortification.
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8.
Genistein as Potential Therapeutic Candidate for Menopausal Symptoms and Other Related Diseases.
Thangavel, P, Puga-Olguín, A, Rodríguez-Landa, JF, Zepeda, RC
Molecules (Basel, Switzerland). 2019;(21)
Abstract
Plant-derived compounds have recently attracted greater interest in the field of new therapeutic agent development. These compounds have been widely screened for their pharmacological effects. Polyphenols, such as soy-derived isoflavones, also called phytoestrogens, have been extensively studied due to their ability to inhibit carcinogenesis. These compounds are chemically similar to 17β-estradiol, and mimic the binding of estrogens to its receptors, exerting estrogenic effects in target organs. Genistein is an isoflavone derived from soy-rich products and accounts for about 60% of total isoflavones found in soybeans. Genistein has been reported to exhibit several biological effects, such as anti-tumor activity (inhibition of cell proliferation, regulation of the cell cycle, induction of apoptosis), improvement of glucose metabolism, impairment of angiogenesis in both hormone-related and hormone-unrelated cancer cells, reduction of peri-menopausal and postmenopausal hot flashes, and modulation of antioxidant effects. Additionally, epidemiological and clinical studies have reported health benefits of genistein in many chronic diseases, such as cardiovascular disease, diabetes, and osteoporosis, and aid in the amelioration of typical menopausal symptoms, such as anxiety and depression. Although the biological effects are promising, certain limitations, such as low bioavailability, biological estrogenic activity, and effects on target organs, have limited the clinical applications of genistein to some extent. Moreover, studies report that modification of its molecular structure may eliminate the biological estrogenic activity and its effects on target organs. In this review, we summarize the potential benefits of genistein on menopause symptoms and menopause-related diseases like cardiovascular, osteoporosis, obesity, diabetes, anxiety, depression, and breast cancer.
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9.
The uncertain effect of menopause on blood pressure.
Tikhonoff, V, Casiglia, E, Gasparotti, F, Spinella, P
Journal of human hypertension. 2019;(6):421-428
Abstract
In affluent societies blood pressure increases with age from early life to the eighth decade with sex differences. Before middle age, lower blood pressure values are observed in women than in coeval men, whereas the reverse seems to occur thereafter. Menopause is considered the major determinant of blood pressure rise in women. If this hypothesis is well-founded, menopause can be regarded as one of the main cardiovascular risk factors, involving more than half of the human population, as well as the most ineluctable. In industrialized countries, age at menopause ranges between 50 and 52 years. The popular message is that fertile women are protected from cardiovascular risk by circulating estrogens, a privilege that is lost when postmenopausal women become not different from men from the point of view of risk factors and cardiovascular events. Nevertheless, the hypothesis that menopause or the estrogen decrease are per se associated to blood pressure increase is still under debate. Indeed, the epidemiological challenge is due to the coincidence between advancing menopause and aging, and also to the evidence that both menopause and blood pressure have common determinants such as body mass index, diet, smoking, and socio-economic class. The strongest doubt is whether menopause is a dependent or independent risk factor for high BP, i.e. whether its action on blood pressure-if any-is due directly to estrogen fall or to other indirect factors.
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10.
The Effects and Action Mechanisms of Phytoestrogens on Vasomotor Symptoms During Menopausal Transition: Thermoregulatory Mechanism.
Hairi, HA, Shuid, AN, Ibrahim, N', Jamal, JA, Mohamed, N, Mohamed, IN
Current drug targets. 2019;(2):192-200
Abstract
BACKGROUND Phytoestrogens have recently been claimed to positively influence menopausal discomforts, including hot flashes. However, little is known about the influence of phytoestrogens on core body temperature during oestrogen fluctuation at menopause. OBJECTIVE Previously published findings showed that phytoestrogens could relieve menopausal complaints, thus, the present review was aimed at assessing the effects of phytoestrogens on thermoregulatory mechanism during menopausal transition. RESULTS The molecular mechanisms underlying hot flashes are complex. Oestrogen fluctuations cause hypothalamic thermoregulatory centre dysfunction, which leads to hot flashes during menopause. The phytoestrogens of interest, in relation to human health, include isoflavones, lignans, coumestans, and stilbenes, which are widely distributed in nature. The phytoestrogens are capable of reducing hot flashes via their oestrogen-like hormone actions. The potential effects of phytoestrogens on hot flashes and their molecular mechanisms of action on thermoregulatory centre are discussed in this review. CONCLUSION The effects of phytoestrogens on these mechanisms may help explain their beneficial effects in alleviating hot flashes and other menopausal discomforts.