New research suggests that the physiological ‘wear and tear’ of stress may affect a woman’s fecundability, ie her ability to fall pregnant within a menstrual cycle. The study was published in Acta Obstetricia et Gynecologica Scandinavica.
Allostatic load reflects multi-system physiological changes which occur in response to chronic psychosocial stress, reflecting a kind of ‘wear and tear’. The study investigated the link between female pre-pregnancy allostatic and time to pregnancy.
Reduced human fecundability not only results in infertility, it also creates social aging problems. Female fecundability is a complicated topic that can be influenced in many ways, including physical factors and psychological factors. Prior research tended to focus on the impact of chronic diseases, such as hypertension, diabetes and obesity. However, mental factors, including psychological pressure, anxiety and depression, could also potentially exert impact on female fecundability. Evidence supports that infertility may cause stress in many ways, but it is unclear whether stress causes infertility, or how stress and human fecundability interact.
The study assessed AL in 444 women who were trying to become pregnant. Women with higher allostatic load scores – based on nine indicators such as blood pressure, blood sugar, cortisol, noradrenaline, and cholesterol – were less likely to become pregnant within a year. For example, the women with an allostatic load score of 5–6 would have a 59% reduction of fecundability compared with those with scores of 0.
“What we found provides a new idea for preconception counselling. But obviously, how to objectively assess the stress is a complex scientific question, and how to intervene and reduce the impact of chronic stress is a burning problem, which are all things we need to study further,” said senior author Bei Wang, PhD, of Southeast University in Jiangsu, China.
The Treatment Action Campaign (TAC) has called on former president Thabo Mbeki to offer an apology to the public for the “dissident” views he expressed about HIV/AIDS while delivering a speech at the University of South Africa (UNISA) last week Wednesday.
In a scathing statement published by the TAC on Tuesday, the organisation said the “repetition of his scientifically erroneous views with such insensitive arrogance is an insult to the 8 million people living with HIV in SA and the families of 4 million South Africans who have died from HIV over the last three decades”.
Mbeki, who is also the Chancellor at UNISA, was speaking to students, diplomats and members of the media at an event which takes place twice each year and allows students to interact with him on pertinent issues that affect Africans.
The TAC accuses Mbeki of misleading the public when he questions the cause of AIDS. The organisation also goes on to say that they were stunned again by Mbeki’s support of the views of the late former Minister of Health, Manto Tshabalala-Msimang “who was ridiculed for promoting garlic and beetroot as the essential ingredient to manage AIDS, giving it a higher premium than antiretroviral (ARV) treatment”.
“Whilst there may be benefits in all healthy foods, the idea that these vegetables are what are most required in the management of AIDS has no basis in fact and is misleading to the public,” said the statement.
Speaking about HIV/AIDS after a question was raised in the event, Mbeki said the questions that he raised then, he would still raise today. He emphasized that AIDS was a syndrome and not a disease.
“Now this syndrome in medical terms is a group of diseases. So all of these diseases which fall under this syndrome, meningitis, TB, they’re in the syndrome.”
“Causes of Tuberculosis are known and historical, but it’s part of the syndrome. So you can’t say one virus causes all of these illnesses, what you can say is this virus impacts negatively on the immune system, it’s that weakened immune system which results in a syndrome.”
“But there’s a consequence to that kind of thinking which is when you go to test and that test says HIV positive… it does not necessarily mean you’ve got the virus. What it means is that the immune system is responding to something that is threatening the body, and therefore you need a clinical analysis in order to determine what is this thing that the immune system is rejecting. It’s in all the medical documents that go about it, and it’s correct, because then you have to go and do this clinical examination in order to determine which of these illnesses in the syndrome is the one that’s affecting this person. And then you treat the person for that particular disease,” said Mbeki.
Mentioning the views of Tshabalala-Msimang, Mbeki started off by saying as government they had to respond in an effective manner to the HIV/AIDS pandemic and various interventions were needed to do this.
“Which is why the question was raised by the then Minister of Health in a very dramatic fashion. Nutrition. Nutrition is very very critical to solving this problem and that’s why she was saying that we must take garlic and beetroot and so on. She was not saying that with those things you’re going to be cured.”
“She was raising the matter about the importance of nutrition. And those particular types of foods even today have been raised in the context of this Covid-19,” said Mbeki.
The TAC, which successfully campaigned in the 2000s for Mbeki’s government to roll out life-saving medicines, was not impressed.
“There is much ongoing stigma and denial when it comes to HIV and we call on Mr Mbeki to desist from statements about HIV that have no basis in fact,” said the TAC statement.
It said: “The former president’s statements remind us that his unscientific views led to a delay in the rollout of the ARV programme during his presidency.”
The TAC’s General Secretary, Anele Yawa, said that if Mbeki was not prepared to apologise, the organisation would make sure that his HIV denialism and the thousands of deaths that resulted, would be the only thing that he would be remembered for.
These are the facts when it comes to HIV/AIDS under Thabo Mbeki’s presidency
By Nathan Geffen, GroundUp Editor
It’s seldom clear what Thabo Mbeki means when it comes to HIV/AIDS. There is much obfuscation. But the key facts are this:
HIV destroys immune system cells in infected people.
Usually over a period of several years, if left untreated, the immune system collapses, causing the person to become ill with life-threatening infections. This is known as AIDS.
Only antiretroviral medicines can halt this process. They have been so effective that the life-expectancy for people with HIV who take them is brought back to almost normal.
HIV tests are reliable. If proper protocols are followed the odds of an incorrect result are extremely small.
Mbeki’s government delayed the rollout of antiretroviral treatment in the public sector until 2004, even though an effective combination of antiretroviral medicines was available from the mid to late 1990s.
It was only due to pressure from the TAC and its allies that Mbeki’s government made antiretrovirals available in the public sector.
The prices of these medicines also became affordable because of the TAC’s (and its allies) campaigning against pharmaceutical companies. Mbeki’s government was largely AWOL in these efforts, despite Mbeki’s rhetoric about these companies.
Two different studies have estimated that the delayed rollout of antiretrovirals resulted in well over 300 000 avoidable deaths. These estimates are conservative.
These estimates also exclude those who died because they were convinced by Mbeki, Tshabalala-Msimang and their acolytes to try treatments promoted by as alternatives to antiretroviral medicines. The promotion of these nonsense remedies by Mbeki and his health minister continued long after the antiretroviral treatment rollout began.
Geffen was involved with the TAC from 2000 to 2013.
Intravenous treatment with omega-3 fatty acids in elderly hospitalised patients in intensive care due to COVID seems to help the immune system’s ability to cope with the virus, according to a study published in the journal Clinical and Translational Medicine. These findings could lead to a complementary, cost-effective treatment for COVID.
In COVID patients, the immune system and the body’s activation of white blood cells are over-activated. It can lead to a so-called systemic inflammatory storm, which worsens the disease state and can cause complications such as sepsis and heart failure.
Researchers at Karolinska Institutet, among others, have now shown that omega-3 fatty acids can stimulate active healing of inflammation, without inhibiting the immune response. By accelerating the healing of the inflammation without compromising the body’s immune system, it could be possible to counteract the most serious complications of COVID, researchers believe.
Stimulated inflammation-healing molecules
The treatment effect was found by mapping inflammatory biomarkers and immunological reactions.
“First, we showed that fatty acid metabolism to inflammation-healing molecules was stimulated in those patients treated with omega-3 fatty acids. By isolating immune cells before, during, and after treatment, we were able to show that immune function improved,” said corresponding author Magnus Bäck, senior consultant in cardiology and professor at Karolinska Institutet.
Planning further studies
Researchers are now planning for larger clinical studies, which will be needed to show whether the course of the disease in severe COVID is improved through treatment with omega-3 fatty acids.
“It is important that even our weakest and frailest patients have the opportunity to participate in studies when the enemy, in this case, COVID, is on the attack and that they can fight the disease with the help of the medicine,” said Dorota Religa, senior consultant and professor in geriatrics at Karolinska Institutet.
“Stimulating the healing of inflammation with omega-3 fatty acids has the potential to lead to a new, cost-effective low-risk treatment for COVID-19, as a complement to existing treatment,” said Prof Magnus Bäck.
The neurohormone oxytocin has a number of functions involved in pleasure and social bonding, and plays a role in both female and male reproductive functions. Now, researchers have shown that in zebrafish and human cell cultures, oxytocin has yet another, unsuspected, function: it stimulates stem cells derived from the heart’s epicardium (the outer layer) to migrate into its myocardium (middle layer) and there develop into cardiomyocytes, cardiac muscle cells. This discovery could one day be used to promote the regeneration of the human heart after a heart attack. The results are published in Frontiers in Cell and Developmental Biology.
“Here we show that oxytocin, a neuropeptide also known as the love hormone, is capable of activating heart repair mechanisms in injured hearts in zebrafish and human cell cultures, opening the door to potential new therapies for heart regeneration in humans,” said senior author Dr Aitor Aguirre, an assistant professor at Michigan State University.
Stem-like cells can replenish cardiomyocytes
Cardiomyocetes typically die off in great numbers after a heart attack. Because they are highly specialised cells, they can’t replenish themselves. But previous studies have shown that a subset of cells in the epicardium can undergo reprogramming to become stem-like cells, called Epicardium-derived Progenitor Cells (EpiPCs), which can regenerate not only cardiomyocytes, but also other types of heart cells.
“Think of the EpiPCs as the stonemasons that repaired cathedrals in Europe in the Middle Ages,” explained A/Prof Aguirre.
Unfortunately for us, the production of EpiPCs is inefficient for heart regeneration in humans under natural conditions.
Zebrafish could teach us how to regenerate hearts more efficiently
Zebrafish are famous for their extraordinary capacity for regenerating organs. They don’t suffer heart attacks, but its many predators are happy to take a bite out of any organ, including the heart – so zebrafish can regrow their heart when as much as a quarter of it has been lost. This is done partly by proliferation of cardiomyocytes, but also by EpiPCs. How the EpiPCs so efficiently repair the heart, and whether they could be boosted in humans remained a mystery.
The authors argued that this was possible.
To reach this conclusion, the authors found that in zebrafish, within three days after cryoinjury – injury due to freezing – to the heart, the expression of the messenger RNA for oxytocin increases up to 20-fold in the brain. They further showed that this oxytocin then travels to the zebrafish epicardium and binds to the oxytocin receptor, triggering a molecular cascade that stimulates local cells to expand and develop into EpiPCs. These new EpiPCs then migrate to the zebrafish myocardium to develop into cardiomyocytes, blood vessels, and other important heart cells, to replace those which had been lost.
Similar effect on human tissue cultures
Crucially, the authors showed that oxytocin has a similar effect on human tissue in vitro. Of the 15 neurohormones tested, only oxytocin stimulates cultures of human Induced Pluripotent Stem Cells (hIPSCs) to become EpiPCs, at up to twice the basal rate: a much stronger effect than other molecules previously shown to stimulate EpiPC production in mice. Conversely, genetic knock-down of the oxytocin receptor prevented the the regenerative activation of human EpiPCs in culture. The authors also showed that the link between oxytocin and the stimulation of EpiPCs is the important ‘TGF-β signaling pathway’, known to regulate the growth, differentiation, and migration of cells.
A/Prof Aguirre said: “These results show that it is likely that the stimulation by oxytocin of EpiPC production is evolutionary conserved in humans to a significant extent. Oxytocin is widely used in the clinic for other reasons, so repurposing for patients after heart damage is not a long stretch of the imagination. Even if heart regeneration is only partial, the benefits for patients could be enormous.”
A/Prof Aguirre concluded: “Next, we need to look at oxytocin in humans after cardiac injury. Oxytocin itself is short-lived in the circulation, so its effects in humans might be hindered by that. Drugs specifically designed with a longer half-life or more potency might be useful in this setting. Overall, pre-clinical trials in animals and clinical trials in humans are necessary to move forward.”