A new class of experimental drugs reduces hot flushes in menopausal women by almost three-quarters in just three days.
The treatment, tested by scientists at Imperial College London, also reduces the severity of hot flushes by over a third within three days of taking it.
The research, funded by the Medical Research Council (MRC) and the National Institute for Health Research (NIHR), is a new in-depth analysis of data collected from a clinical trial initially published last year.
The new analysis, published in the journal Menopause, also revealed sleep and concentration significantly improved in the three-day window.
The original drug trial, which was a randomised, double-blind, placebo-controlled trial, involved 37 menopausal women aged between 40 and 62 years old - and who experienced seven or more hot flushes a day.
Participants were randomly chosen to first receive either an 80mg daily dose of the drug, called MLE4901, or a placebo over the course of a four-week period. They then switched to receive the other tablet for an additional four weeks. This ensured the women acted as their own controls during the study, and the effects of the drug were clear.
The researchers found that the compound MLE4901 significantly reduced the average total number of flushes during the four-week treatment period, as well as their severity, compared to when the patients received the placebo for four weeks.
The new analysis shows the compound has a significant effect within just three days explains Professor Waljit Dhillo, an NIHR Research Professor from the Department of Medicine at Imperial: "We already knew this compound could be a game-changer for menopausal women, and get rid of three-quarters of their hot flushes in four weeks. But this new analysis confirms the beneficial effect is obtained very quickly - within just three days."
Professor Dhillo explains this specific compound will not be taken further in trials, due to side effects that may affect liver function. However, two very similar drugs, which also block NKB but do not appear to carry these side effects have entered larger patient trials, with one such trial launched in the US last year.
The menopause occurs when oestrogen levels fall, typically around 45 to 55 years of age, which leads to periods stopping, the inability to have children naturally, and a number of physical changes, including menopausal flushing and/or sweating.
For many women, these hot flushes may be little more than an uncomfortable inconvenience. But for some, frequent severe episodes can lead to clothes and bed sheets drenched in sweat, as well as relentless waking from sleep which impacts their working, social and home lives.
The new experimental compounds are thought to work by blocking the action of a brain chemical called neurokinin B (NKB). Previous animal and human trials have shown increased levels of NKB may trigger hot flushes. The drug compound is thought to prevent NKB activating temperature control areas within the brain - which appears to halt hot flushes.
The new data also revealed that the drug was as effective at improving daytime flush symptoms as it was at improving night time symptoms. Furthermore, the women reported a 82 percent decrease in the amount their hot flushes interrupted their sleep, and a 77 percent reduction in interruption to their concentration.
However, the team says further research is needed to reveal whether improvements in sleep and concentration were simply due to less disruption from hot flushes, or if the compound also affected sleep and concentration pathways in the brain.
Dr Julia Prague, first author of the study, explained: "As NKB has many targets of action within the brain the potential for this drug class to really improve many of the symptoms of the menopause, such as hot flushes, difficulty sleeping, weight gain, and poor concentration, is huge. To see the lives of our participants change so dramatically and so quickly was so exciting, and suggests great promise for the future of this new type of treatment."
The hope is these types of compounds may provide women with an alternative to Hormone Replacement Therapy, the current treatment for symptoms of the menopause. This therapy, which contains oestrogen, may increase the relative risk of breast cancer and can increase the risk of blood clots. This means that many women cannot take HRT to relieve their menopausal symptoms.
Professor Dhillo added: "This class of new drugs may provide women with a much-needed alternative to HRT. "
He added that the discovery of this class of compound, which was previously developed as a drug for schizophrenia, highlights the importance of collaboration and investment in British research.
Professor Dhillo said: "Thanks to Government funding from the MRC and NIHR, and collaboration with pharmaceutical companies, we were able to identify this new therapeutic use for the compound - which had previously been sitting on the shelf unused - and within three years show this type of drug may make a tangible difference to the lives of millions of women."
Neurokinin 3 receptor antagonism rapidly improves vasomotor symptoms with sustained duration of action.
Seventy percent of postmenopausal women experience vasomotor symptoms, which can be highly disruptive and persist for years. Hormone therapy and other treatments have variable efficacy and/or side effects. Neurokinin B signaling increases in response to estrogen deficiency and has been implicated in hot flash (HF) etiology. We recently reported that a neurokinin 3 receptor (NK3R) antagonist reduces HF in postmenopausal women after 4 weeks of treatment. In this article we report novel data from that study, which shows the detailed time course of this effect.
Randomized, double-blind, placebo-controlled, single-center, crossover trial of an oral NK3R antagonist (MLE4901) for vasomotor symptoms in women aged 40 to 62 years, experiencing ≥7 HF/24 hours some of which were reported as bothersome or severe (Clinicaltrials.gov NCT02668185). Thirty-seven women were randomized and included in an intention-to-treat analysis. To ascertain the therapeutic profile of MLE4901, a post hoc time course analysis was completed.
By day 3 of treatment with MLE4901, HF frequency reduced by 72% (95% CI, -81.3 to -63.3%) compared with baseline (51 percentage point reduction compared with placebo, P < 0.0001); this effect size persisted throughout the 4-week dosing period. HF severity reduced by 38% compared with baseline by day 3 (95% CI, -46.1 to -29.1%) (P < 0.0001 compared with placebo), bother by 39% (95% CI, -47.5 to -30.1%) (P < 0.0001 compared with placebo), and interference by 61% (95% CI, -79.1 to -43.0%) (P = 0.0006 compared with placebo); all continued to improve throughout the 4-week dosing period (to -44%, -50%, and -70%, respectively by day 28, all P < 0.0001 compared with placebo).
NK3R antagonism rapidly relieves vasomotor symptoms without the need for estrogen exposure.
Content updated 14 March 2018