Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0016382 (flushing)
 6,387 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hot flushes are frequently incapacitating to the patient and the severe vasomotor disturbances may seriously impair normal daily life. This review attempts to provide an understanding of the pathophysiology of the hot flush as a basis for rationale therapy for each individual patient. The physiological mechanisms controlling body temperature are discussed briefly, and the changes in the system which precipitate the menopausal hot flush are detailed. The neuroendocrine events leading to the onset of the flushing syndrome are then considered. Finally, the therapeutic strategies which may be used in the management of the affected patient are discussed.
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PMID:Postmenopausal hot flushes and their management. 836 97

Postmenopausal women experiencing hot flashes in whom estrogen replacement is contraindicated have alternatives available to them; however, there is no clearly defined treatment modality. The literature addressing many of these alternatives has serious limitations, which include the small number of women enrolled and lack of comparative studies between agents. Each patient needs to be assessed in terms of her current medical status, concomitant medications, and the degree to which vasomotor instability interferes with everyday activities. The literature suggests that megestrol acetate 20 mg bid may provide significant relief. Women who opt to use megestrol acetate must be told in advance that the effects will not be felt immediately particularly if tamoxifen is used concomitantly. Clonidine and medroxyprogesterone may constitute potential alternatives, but patients may not be able to tolerate the adverse effects. Because of the lack of literature supporting their clinical use, options such as vitamin E and ginseng need to be approached cautiously. Exercise has a role in alleviating some of the complications associated with menopause, such as heart disease and osteoporosis, but its effect on neurotransmitters and hormone concentrations, and how this relates to the treatment of hot flashes have not been characterized. Patients should be told that regular physical activity, a balanced diet, avoidance of alcohol and caffeine, and stress reduction may be of additional help in decreasing vasomotor flushing.
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PMID:Alternatives to estrogen for the treatment of hot flashes. 922 57

Introduction and Objectives: Raloxifene, a novel selective estrogen receptor modulator (SERM), is under investigation for the prevention of osteoporosis in postmenopausal women. Like traditional estrogen replacement therapy, raloxifene has beneficial effects on bone and on serum lipids whereas, in contrast to estrogen's adverse effects in the breast and uterus, raloxifene is an estrogen antagonist in the breast and is nonstimulatory in the uterus. This study examines the effects of raloxifene 60 mg/day compared with placebo on: 1) the incidence of vasomotor symptoms: hot flashes (flushing) and sweating (including night sweats), 2) the severity and time course of hot flashes, and 3) the relation of hot flashes to baseline subject characteristics and study discontinuations. Additionally, the study explores the effects of raloxifene 60 mg/day compared with placebo on other climacteric symptoms that affect the quality of life of postmenopausal women, such as depression, insomnia, mood lability and genitourinary complaints.Methods: Integrated data from five randomized, placebo-controlled studies involving 1,165 healthy, postmenopausal women, with up to 30 months of study drug exposure, were analyzed. The incidence and severity of hot flashes and other climacteric symptoms were compared in patients treated with placebo or raloxifene (60 mg/day) via open-ended, non-directed subject self-assessment questionnaires. Data were analyzed for subgroup-by-therapy interactions using many baseline subject characteristics such as age, body mass index, smoking, alcohol, and years post-menopause, as well as preexisting conditions such as hot flashes, sweating, insomnia, depression, and history of hysterectomy. The overall incidence of other climacteric symptoms were reported as adverse events.Results: The increase in overall incidence of hot flashes in raloxifene-treated (24.6%) and placebo-treated (18.3%) subjects was modest, but statistically significant. However, this difference was significant only during the first 6 months of therapy, raloxifene (20.1%) compared with placebo (14.4%). After 6 months of treatment, there was no statistically significant difference in the incidence of hot flashes between the two treatment groups. The majority of hot flashes in raloxifene-treated subjects were subject-assessed as "mild-to-moderate" in severity (89%). The incidence of hot flashes reported as "severe" did not differ significantly in raloxifene- or placebo-treated subjects. Subgroup analyses revealed the overall incidence of hot flashes to be highest for both raloxifene and placebo-treated subjects, in younger (age < 55 years) women (P =.004), in women who had previously experienced hot flashes (P =.031), and in women having had hysterectomies (P <.001). Within each of these subgroups, there was no statistical difference in the incidence of hot flashes between the raloxifene and placebo groups. Between the two treatment groups, there was no difference in the overall incidence of subject discontinuations from study due to hot flashes. The occurrence of the other common vasomotor symptom, sweating (which includes night sweats), was not statistically different for the raloxifene- or placebo-treated subjects.Genitourinary complaints are often symptoms related to vaginal dryness, such as dyspareunia and decreased libido, as well as other symptoms of vaginitis and leukorrhea. No statistically significant differences occurred for raloxifene- or placebo-treated subjects in reports of these genitourinary symptoms. Similarly, for the other common climacteric symptoms; depression, insomnia, and mood lability, no significant differences in incidence between the raloxifene and placebo treatment groups were observed.Conclusions: Raloxifene (60 mg/day) treatment modestly increased the incidence of hot flashes compared with placebo, however, this difference was only statistically significant during the first 6 months of treatment. There were no differences in the severity of hot flashes between treatment groups, and this symptom did not adversely affect subjects' study participation. In both the raloxifene and placebo treatment groups, young postmenopausal women (age < 55), those with baseline hot flashes, and those with histories of hysterectomy were most likely to experience hot flashes. Raloxifene therapy did not affect the occurrence of other climacteric symptoms commonly affecting the quality of life of women after menopause.
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PMID:Raloxifene effects on vasomotor and other climacteric symptoms in postmenopausal women. 1083 11

Menopausal hot flashes are episodes of flushing, increased heart rate, skin blood flow and skin temperature, and a sensation of heat. The thermoregulatory and cardiovascular concomitants of hot flashes are associated with peaks in the levels of various hormones and neurotransmitters in the peripheral circulation. Although hot flashes affect about 75% of women, and are the primary reason that women at menopause seek medical attention, the mechanism of hot flashes is still not understood. Hot flashes vary in frequency and intensity both within and between individuals, and have been thought of as occurring randomly. Yet, some women report that their hot flashes are worse at a particular time of day or year. Initial examination of subjects' recordings of their hot flashes showed diurnal patterns of hot flash occurrence. There also seems to be a diurnal rhythm of hot flash intensity. Continuous physiological monitoring of hot flashes is facilitating the analysis of these patterns, which is revealing circadian and ultradian periodicities. The occurrence of hot flashes can be modulated by external and internal factors, including ambient temperature and fever. Rhythms of thermoregulatory and endocrine functions also may influence hot flash patterns. Examination of the interrelationships between the various systems of the body involved in hot flashes, and a multidisciplinary approach to the analysis of hot flash patterns, will aid our understanding of this complex phenomenon.
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PMID:Menopausal hot flashes: Randomness or rhythmicity. 1277 25

Hot flushes are one of the most frequent symptoms in menopausal women. We investigated effect of soybean isoflavones (Soyaflavone HG) on nifedipine-induced flushing in ovariectomized mice. Ovariectomy markedly aggravated nifedipine-induced increase in tail skin temperature. Soyaflavone HG (10 mg/kg, p.o., once a day for 5 days) inhibited nifedipine-induced flushing in ovariectomized mice. The inhibitory effect of Soyaflavone HG was significantly reversed by an estrogen-receptor antagonist, ICI 182,780, suggesting that Soyaflavone HG prevents nifedipine-induced flushing partially through estrogen receptors. We presented the experimental evidence suggesting that soybean isoflavones including Soyaflavone HG have the benefits for menopausal hot flushes.
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PMID:Soybean isoflavones eliminate nifedipine-induced flushing of tail skin in ovariectomized mice. 1529 69

The menopause transition is a bio-psycho-socio-cultural process. Recent prospective studies highlight the complex ways in which lifestyle and cultural factors influence women's experience of the menopause. For the majority of well women, the menopause is a relatively neutral event, although women living in Western countries in general report more symptoms than those from non-Western cultures. Hot flushes and night sweats are the main symptoms of the menopause, and while the exact physiological causes are unknown, the role of norepinephrine is implicated in lowering the threshold for flushing. Psychological factors - including anxiety, stress, thoughts and beliefs and self-esteem - influence the experience of hot flushes, and a cognitive behavioural model is described which is compatible with a bio-psycho-socio-cultural perspective. Relaxation and cognitive behavioural approaches appear to be acceptable to women, and there is some evidence for their efficacy, but larger controlled trials are needed.
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PMID:Bio-psycho-socio-cultural perspectives on menopause. 1716 Oct 25

As survival from breast cancer increases, there is a corresponding rise in the number of women living with the long-term consequences of its treatment. Distressing menopausal hot flushes occur in many of these women. This article reports on interviews conducted with 8 women, exploring the experience of hot flushes after breast cancer. Women's accounts of hot flushes varied from being a mild sensation to an intensely unpleasant sensation affecting the whole body and accompanied by drenching perspiration. Flushes affected all aspects of the women's lives, including sleeping, clothing, social situations, intimate relationships, and ability to work. Emotionally, women talked about being out of control. Having cancer and menopause simultaneously made it more difficult for the women to cope, and cancer treatment could cause flushing. The women used many strategies to help relieve their difficulties. Some resorted to hormone replacement therapy, whereas others turned to herbal medications and other alternative interventions such as acupuncture. Most women adopted behavioral strategies to try to regain control. Ultimately, they found that control was gained by attitude of mind. Cognitive behavioral techniques may enhance the sense of control and contribute to coping during hot flushes.
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PMID:The experience of hot flushes after breast cancer. 1766 70

Hot flushes are one of the most frequent symptoms in menopausal women. Selective serotonin reuptake inhibitors (SSRIs) are considered to be first-line therapy for the treatment of hot flushes in women for whom hormone therapy is contraindicated. Recently, we have proposed forced exercise-induced flushing of tail skin in ovariectomized mice as a new experimental model of temperature dysregulation in menopausal hot flushes. In the present study, to validate this animal model as a tool for testing potential compounds for the treatment of menopausal hot flushes, we examined the effects of two SSRIs (fluvoxamine and paroxetine) on forced exercise-induced flushing of tail skin in ovariectomized mice, and compared it with that of estradiol replacement (1 mg/kg/week for 3 weeks, i.m.). Treatment with fluvoxamine (20 mg/kg, i.p.) or paroxetine (10 mg/kg, i.p.) completely inhibited forced exercise-induced flushing of tail skin in ovariectomized mice, and the effect of each was comparable to that of estradiol replacement. It is believed that the present findings provide the first experimental evidence to support the anti-flushing effects of SSRIs, such as fluvoxamine and paroxetine, in a clinical setting. An animal model with forced exercise probably serves as a useful experimental tool for evaluating the effects of different agents on hot flushes.
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PMID:Selective serotonin reuptake inhibitors fluvoxamine and paroxetine restore forced exercise-induced temperature dysregulation in ovariectomized mice. 1815 96

Although the hot flush is generally recognised by women and the medical profession as the most characteristic and often a very distressing symptom of the climacteric, it remains an enigma. The physiological changes associated with the hot flush are different from any other flushing condition, with an increased peripheral blood flow, increased heart rate and in particular a decrease in galvanic skin resistance, which is unique to the flush. Flushing occurs as a result of disturbance of the temperature regulating mechanism situated in the hypothalamus, and probably a reduction in the thermoneutral zone, within which fluctuations of basal body temperature do not provoke compensatory vascular responses. Many factors have been implicated, including hormone releasing factors, gonadotrophins and neurohumorals. However, the role of oestrogen is critical and the clinical value of oestrogen therapy is well established and has been confirmed by a Cochrane review. Nevertheless, the precise mechanism by which reduced circulating levels of oestrogen are involved in causing the flush has not yet been established. Priming with oestrogen seems to be an essential pre-requisite for flushing, as young women with ovarian dysgenesis and very low circulating levels of oestrogen never have hot flushes unless they are given oestrogen replacement therapy, which is later discontinued. Oestrogen antagonist activity by selective oestrogen receptor modulators such as tamoxifen and raloxifene can also cause flushing. A link with gonadotrophins is demonstrated by a temporal association of flushes with the pulsatile release of luteinising hormone (LH). However, if LH pulses are eliminated by GnRH analogue, the frequency of flushing is not altered, which confirms that LH is merely associated with the flush rather than being causative. It is probable that the flush is initiated by a supra-pituitary mechanism which is influenced by the hypothalamic factors responsible for pulsatile LH release. A variety of chemical pathways have been proposed involving serotonin, noradrenalin and dopamine. Trials of drugs that selectively inhibit the re-uptake of serotonin and noradrenalin have shown some beneficial effects, as also has gabapentin, but often the results have been disappointing, and certainly less than the response seen with oestrogen or tibolone. The prevalence of hot flushes varies considerably around the world and is less in the Far East than in the west. Differences in diet and in particular the intake of phytoestrogens has been implicated and many studies have tried to establish whether dietary supplementation with phytoestrogens might be a suitable alternative to conventional hormone replacement therapy (HRT). So far, the results are disappointing. Other lifestyle measures such as avoiding alcohol, caffeine and spicy foods, keeping the core body temperature cool, paced respiration, taking exercise and even acupuncture may help. Hot flushes remain a major cause of reduced quality of life in a large proportion of menopausal women, but perhaps because they are not fatal and are usually self-limiting, there has been rather limited research or clinical interest. However, for the increasing number of women being treated with tamoxifen for breast cancer, and for whom oestrogen will usually be contra-indicated or unsuitable, there is an urgent need to identify the underlying mechanism so that appropriate, specific and safe non-oestrogen therapy can be offered to improve their quality of life.
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PMID:The menopausal hot flush--anything new? 1880 29

Hot flushes are the most common indication for the prescription of hormone replacement therapy (HRT) since it is effective in over 80% of cases. In 1995, 37% of American women took HRT, principally for this purpose. However, over the last five years, publications such as those from the Women's Health Initiative (WHI) have caused concern among women since they perceive that the risks outweigh the benefits. Following this publication, half of the women taking HRT in the UK, USA and New Zealand discontinued HRT. With the discontinuation of estrogen many women re-developed hot flushes; however only a small number (18%) of women report restarting hormone therapy. The majority of these (76%) for the recurrence of severe hot flushes or night sweats. Alternatives are available, but limited knowledge on aetiology and mechanisms of hot flushing represents a major obstacle for the development of new, targeted, non-hormonal treatments, and no current alternatives are as effective as estrogen.
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PMID:Hot flushes: are there effective alternatives to estrogen? 2072


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