
Why exposing young children to AI content could have irreversible consequences
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Artificial intelligence (AI) already affects many areas of daily life, including the lives of young children.
Many families give screens to children younger than two, and AI-generated content is increasing on the popular YouTube Kids channel – and it plays automatically.
Most parents are not able to monitor everything their child sees online. Some AI-generated content can be both frightening and attractive to young children, including violence and sexual content using engaging animals and characters.
Early childhood education centres are also using AI to support learning, particularly for children with developmental differences. This includes those who do not learn to speak easily or who have other communication problems related to autism or intellectual disability.
In the US, many parents report their children are using AI for school work. The encouragement for early childhood centres, schools and parents to use AI with children is based on short-term studies, but the long-term impacts are unknown.
The only way to know how AI may affect young children would be through well-designed longitudinal studies. But by the time robust evidence emerged, a whole generation would have grown up exposed – and if there are indeed harmful effects, these may be irreversible.
There are already some alarm bells ringing over AI’s potential impact.
New Zealand research shows high use of screens during early childhood is associated with poor language, social and relational functioning.
Many children love to use screens, and AI is likely to be similarly rewarding because AI models are endlessly patient and instantly responsive to the topics of your choosing and do not seem to demand anything.

Human development during early childhood
Like all mammals, human infants are bound by biological processes and have evolved to develop in social groups in close physical connection with others. Everything we know about child development highlights the importance of face-to-face connection.
Children learn about themselves and the world through all their senses. They learn to communicate through “serve-and-return” interactions – responsive, back-and-forth exchanges between them and their caregiver. This includes physical touch, emotion and play. Collectively, these interactions help shape brain architecture.
Based on their experiences during the first few years of life, children form models, or templates, of how intimate relationships work. These relational templates endure throughout their lives and influence close relationships in adulthood.
Children also learn about emotional regulation, seeking and receiving comfort and conflict resolution during the preschool years. All the while, their brains are forming, with foundational structures that require good experiences to function well throughout life.
We do not yet know what the impact will be on children’s capacity for human relationships if they are exposed to AI while their physiological, neurological and emotional regulatory systems are developing. It is unclear how longer-term AI exposure may affect children’s understanding of other people and their development of empathy.
Normal social interactions in childhood include conflict, negotiation, resolution and play with other children. These interactions involve non-verbal communication, risk estimation, relational repair and decision making.
It’s unclear how instantly responsive and engaging AI will affect these aspects of childhood. It is possible that children experiencing many AI-mediated social interactions may find it more difficult to navigate real-world relationships, especially when there is conflict.
It is also possible that children will develop a preference for AI engagement over real-life engagement with family or friends.
Young children find it harder to distinguish fantasy from reality. This quality is delightful for adults and children alike, involving imaginary play, silliness and amusement. Yet AI-generated fantasy may be persuasive to an overwhelming degree, potentially leading to children being confused about reality and the consciousness of others.
Potential for both harm and help
If infants and children don’t have sufficient real-world experiences, their emerging cognitive capacities for detecting reality and interpreting sensory inputs may be affected.
There is much excitement about the potential for AI-assisted tools to aid children with disabilities in their development of social communication. This seems likely to have benefits such as earlier detection of neuro-developmental differences. There may also be risks if these interventions replace real-life interactions with other children and adults.
What will be the daily experiences for children with extra learning needs? Parents may be happy with AI-enhanced learning, but less happy if this is provided in lieu of a real teacher aide.
The introduction of AI seems inevitable and it is already affecting our children. We know that connection, touch, reciprocal and language-rich environments, and unstructured play are important during early childhood development.
To adopt AI into our children’s spaces without knowing the consequences is an experiment with outcomes that may not be reversible. Given the uncertainty, families should at least have the freedom to choose an AI-free environment for their children.
Sarah Whitcombe-Dobbs, Senior Lecturer in Child and Family Psychology, University of Canterbury
This article is republished from The Conversation under a Creative Commons license. Read the original article.
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When Age Is A Flexible Number
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Aging, Counterclockwise!
In the late 1970s, Dr. Ellen Langer hypothesized that physical markers of aging could be affected by psychosomatic means.
Note: psychosomatic does not mean “it’s all in your head”.
Psychosomatic means “your body does what your brain tells it to do, for better or for worse”
She set about testing that, in what has been referred to since as…
The Counterclockwise Study
A small (n=16) sample of men in their late 70s and early 80s were recruited in what they were told was a study about reminiscing.
Back in the 1970s, it was still standard practice in the field of psychology to outright lie to participants (who in those days were called “subjects”), so this slight obfuscation was a much smaller ethical aberration than in some famous studies of the same era and earlier (cough cough Zimbardo cough Milgram cough).
Anyway, the participants were treated to a week in a 1950s-themed retreat, specifically 1959, a date twenty years prior to the experiment’s date in 1979. The environment was decorated and furnished authentically to the date, down to the food and the available magazines and TV/radio shows; period-typical clothing was also provided, and so forth.
- The control group were told to spend the time reminiscing about 1959
- The experimental group were told to pretend (and maintain the pretense, for the duration) that it really was 1959
The results? On many measures of aging, the experimental group participants became quantifiably younger:
❝The experimental group showed greater improvement in joint flexibility, finger length (their arthritis diminished and they were able to straighten their fingers more), and manual dexterity.
On intelligence tests, 63 percent of the experimental group improved their scores, compared with only 44 percent of the control group. There were also improvements in height, weight, gait, and posture.
Finally, we asked people unaware of the study’s purpose to compare photos taken of the participants at the end of the week with those submitted at the beginning of the study. These objective observers judged that all of the experimental participants looked noticeably younger at the end of the study.❞
Remember, this was after one week.
Her famous study was completed in 1979, and/but not published until eleven years later in 1990, with the innocuous title:
Higher stages of human development: Perspectives on adult growth
You can read about it much more accessibly, and in much more detail, in her book:
Counterclockwise: A Proven Way to Think Yourself Younger and Healthier – by Dr. Ellen Langer
We haven’t reviewed that particular book yet, so here’s Linda Graham’s review, that noted:
❝Langer cites other research that has made similar findings.
In one study, for instance, 650 people were surveyed about their attitudes on aging. Twenty years later, those with a positive attitude with regard to aging had lived seven years longer on average than those with a negative attitude to aging.
(By comparison, researchers estimate that we extend our lives by four years if we lower our blood pressure and reduce our cholesterol.)
In another study, participants read a list of negative words about aging; within 15 minutes, they were walking more slowly than they had before.❞
Read the review in full:
Aging in Reverse: A Review of Counterclockwise
The Counterclockwise study has been repeated since, and/but we are still waiting for the latest (exciting, much larger sample, 90 participants this time) study to be published. The research proposal describes the method in great detail, and you can read that with one click over on PubMed:
It was approved, and has now been completed (as of 2020), but the results have not been published yet; you can see the timeline of how that’s progressing over on ClinicalTrials.gov:
Clinical Trials | Ageing as a Mindset: A Counterclockwise Experiment to Rejuvenate Older Adults
Hopefully it’ll take less time than the eleven years it took for the original study, but in the meantime, there seems to be nothing to lose in doing a little “Citizen Science” for ourselves.
Maybe a week in a 20 years-ago themed resort (writer’s note: wow, that would only be 2004; that doesn’t feel right; it should surely be at least the 90s!) isn’t a viable option for you, but we’re willing to bet it’s possible to “microdose” on this method. Given that the original study lasted only a week, even just a themed date-night on a regular recurring basis seems like a great option to explore (if you’re not partnered then well, indulge yourself how best you see fit, in accord with the same premise; a date-night can be with yourself too!).
Just remember the most important take-away though:
Don’t accidentally put yourself in your own control group!
In other words, it’s critically important that for the duration of the exercise, you act and even think as though it is the appropriate date.
If you instead spend your time thinking “wow, I miss the [decade that does it for you]”, you will dodge the benefits, and potentially even make yourself feel (and thus, potentially, if the inverse hypothesis holds true, become) older.
This latter is not just our hypothesis by the way, there is an established potential for nocebo effect.
For example, the following study looked at how instructions given in clinical tests can be worded in a way that make people feel differently about their age, and impact the results of the mental and/or physical tests then administered:
❝Our results seem to suggest how manipulations by instructions appeared to be more largely used and capable of producing more clear performance variations on cognitive, memory, and physical tasks.
Age-related stereotypes showed potentially stronger effects when they are negative, implicit, and temporally closer to the test of performance. ❞
(and yes, that’s the same Dr. Francesco Pagnini whose name you saw atop the other study we cited above, with the 90 participants recreating the Counterclockwise study)
Want to know more about [the hard science of] psychosomatic health?
Check out Dr. Langer’s other book, which we reviewed recently:
The Mindful Body: Thinking Our Way to Chronic Health – by Dr. Ellen Langer
Enjoy!
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WHO Overturns Dogma on Airborne Disease Spread. The CDC Might Not Act on It.
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The World Health Organization has issued a report that transforms how the world understands respiratory infections like covid-19, influenza, and measles.
Motivated by grave missteps in the pandemic, the WHO convened about 50 experts in virology, epidemiology, aerosol science, and bioengineering, among other specialties, who spent two years poring through the evidence on how airborne viruses and bacteria spread.
However, the WHO report stops short of prescribing actions that governments, hospitals, and the public should take in response. It remains to be seen how the Centers for Disease Control and Prevention will act on this information in its own guidance for infection control in health care settings.
The WHO concluded that airborne transmission occurs as sick people exhale pathogens that remain suspended in the air, contained in tiny particles of saliva and mucus that are inhaled by others.
While it may seem obvious, and some researchers have pushed for this acknowledgment for more than a decade, an alternative dogma persisted — which kept health authorities from saying that covid was airborne for many months into the pandemic.
Specifically, they relied on a traditional notion that respiratory viruses spread mainly through droplets spewed out of an infected person’s nose or mouth. These droplets infect others by landing directly in their mouth, nose, or eyes — or they get carried into these orifices on droplet-contaminated fingers. Although these routes of transmission still happen, particularly among young children, experts have concluded that many respiratory infections spread as people simply breathe in virus-laden air.
“This is a complete U-turn,” said Julian Tang, a clinical virologist at the University of Leicester in the United Kingdom, who advised the WHO on the report. He also helped the agency create an online tool to assess the risk of airborne transmission indoors.
Peg Seminario, an occupational health and safety specialist in Bethesda, Maryland, welcomed the shift after years of resistance from health authorities. “The dogma that droplets are a major mode of transmission is the ‘flat Earth’ position now,” she said. “Hurray! We are finally recognizing that the world is round.”
The change puts fresh emphasis on the need to improve ventilation indoors and stockpile quality face masks before the next airborne disease explodes. Far from a remote possibility, measles is on the rise this year and the H5N1 bird flu is spreading among cattle in several states. Scientists worry that as the H5N1 virus spends more time in mammals, it could evolve to more easily infect people and spread among them through the air.
Traditional beliefs on droplet transmission help explain why the WHO and the CDC focused so acutely on hand-washing and surface-cleaning at the beginning of the pandemic. Such advice overwhelmed recommendations for N95 masks that filter out most virus-laden particles suspended in the air. Employers denied many health care workers access to N95s, insisting that only those routinely working within feet of covid patients needed them. More than 3,600 health care workers died in the first year of the pandemic, many due to a lack of protection.
However, a committee advising the CDC appears poised to brush aside the updated science when it comes to its pending guidance on health care facilities.
Lisa Brosseau, an aerosol expert and a consultant at the Center for Infectious Disease Research and Policy in Minnesota, warns of a repeat of 2020 if that happens.
“The rubber hits the road when you make decisions on how to protect people,” Brosseau said. “Aerosol scientists may see this report as a big win because they think everything will now follow from the science. But that’s not how this works and there are still major barriers.”
Money is one. If a respiratory disease spreads through inhalation, it means that people can lower their risk of infection indoors through sometimes costly methods to clean the air, such as mechanical ventilation and using air purifiers, and wearing an N95 mask. The CDC has so far been reluctant to press for such measures, as it updates foundational guidelines on curbing airborne infections in hospitals, nursing homes, prisons, and other facilities that provide health care. This year, a committee advising the CDC released a draft guidance that differs significantly from the WHO report.
Whereas the WHO report doesn’t characterize airborne viruses and bacteria as traveling short distances or long, the CDC draft maintains those traditional categories. It prescribes looser-fitting surgical masks rather than N95s for pathogens that “spread predominantly over short distances.” Surgical masks block far fewer airborne virus particles than N95s, which cost roughly 10 times as much.
Researchers and health care workers have been outraged about the committee’s draft, filing letters and petitions to the CDC. They say it gets the science wrong and endangers health. “A separation between short- and long-range distance is totally artificial,” Tang said.
Airborne viruses travel much like cigarette smoke, he explained. The scent will be strongest beside a smoker, but those farther away will inhale more and more smoke if they remain in the room, especially when there’s no ventilation.
Likewise, people open windows when they burn toast so that smoke dissipates before filling the kitchen and setting off an alarm. “You think viruses stop after 3 feet and drop to the ground?” Tang said of the classical notion of distance. “That is absurd.”
The CDC’s advisory committee is comprised primarily of infection control researchers at large hospital systems, while the WHO consulted a diverse group of scientists looking at many different types of studies. For example, one analysis examined the puff clouds expelled by singers, and musicians playing clarinets, French horns, saxophones, and trumpets. Another reviewed 16 investigations into covid outbreaks at restaurants, a gym, a food processing factory, and other venues, finding that insufficient ventilation probably made them worse than they would otherwise be.
In response to the outcry, the CDC returned the draft to its committee for review, asking it to reconsider its advice. Meetings from an expanded working group have since been held privately. But the National Nurses United union obtained notes of the conversations through a public records request to the agency. The records suggest a push for more lax protection. “It may be difficult as far as compliance is concerned to not have surgical masks as an option,” said one unidentified member, according to notes from the committee’s March 14 discussion. Another warned that “supply and compliance would be difficult.”
The nurses’ union, far from echoing such concerns, wrote on its website, “The Work Group has prioritized employer costs and profits (often under the umbrella of ‘feasibility’ and ‘flexibility’) over robust protections.” Jane Thomason, the union’s lead industrial hygienist, said the meeting records suggest the CDC group is working backward, molding its definitions of airborne transmission to fit the outcome it prefers.
Tang expects resistance to the WHO report. “Infection control people who have built their careers on this will object,” he said. “It takes a long time to change people’s way of thinking.”
The CDC declined to comment on how the WHO’s shift might influence its final policies on infection control in health facilities, which might not be completed this year. Creating policies to protect people from inhaling airborne viruses is complicated by the number of factors that influence how they spread indoors, such as ventilation, temperature, and the size of the space.
Adding to the complexity, policymakers must weigh the toll of various ailments, ranging from covid to colds to tuberculosis, against the burden of protection. And tolls often depend on context, such as whether an outbreak happens in a school or a cancer ward.
“What is the level of mortality that people will accept without precautions?” Tang said. “That’s another question.”
KFF Health News is a national newsroom that produces in-depth journalism about health issues and is one of the core operating programs at KFF—an independent source of health policy research, polling, and journalism. Learn more about KFF.
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Why do some people need less sleep than others? A gene variation could have something to do with it
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Have you ever noticed how some people bounce out of bed after just a few hours of sleep, while others can barely function without a solid eight hours?
Take Margaret Thatcher, for example. The former British prime minister was known for sleeping just four hours a night. She worked late, rose early, and seemed to thrive on little sleep.
But for most of us, that kind of sleep schedule would be disastrous. We’d be groggy, unfocused, and reaching for sugary snacks and caffeinated drinks by mid-morning.
So why do some people seem to need less sleep than others? It’s a question that’s fascinated scientists for years. Here’s what we know so far.
Maria Korneeva/Getty Images Natural short sleepers
There is a small group of people who don’t need much sleep. We call them natural short sleepers. They can function perfectly well on just four to six hours of sleep each night, often for their entire lives.
Generally they don’t feel tired, they don’t nap, and they don’t suffer the usual negative consequences of sleep deprivation. Scientists call this the natural short sleep phenotype – a biological trait that allows people to get all the benefits of sleep in less time.
In 2010 researchers discovered genetic mutations that help explain this phenomenon. Natural short sleepers carry rare variants in certain genes, which seem to make their sleep more efficient.
More recently, a 2025 study assessed a woman in her 70s with one of these rare mutations. Despite sleeping just six hours a night for most of her life, she remained physically healthy, mentally sharp, and led a full, active life. Her body, it seems, was simply wired to need less sleep.
We’re still learning about how common these genetic mutations are and why they occur.
Not everyone who sleeps less is a natural short sleeper
But here’s the catch: most people who think they’re natural short sleepers aren’t. They’re just chronically sleep-deprived. Often, their short sleep is due to long work hours, social commitments, or a belief sleeping less is a sign of strength or productivity.
In today’s hustle culture, it’s common to hear people boast about getting by on only a few hours of sleep. But for the average person, that’s not sustainable.
The effects of short sleep build up over time, creating what’s known as a “sleep debt”. This can lead to poor concentration, mood swings, micro-sleeps (brief lapses into sleep), reduced performance and even long-term health risks. For example, short sleep has been linked to an increased risk of obesity, diabetes, high blood pressure and cardiovascular disease (heart disease and stroke).
The weekend catch-up dilemma
To make up for lost sleep during the week, many people try to “catch up” on weekends.
This can help repay some of the sleep debt that has accumulated in the short term. Research suggests getting one to two extra hours of sleep on the weekend or taking naps when possible may help reduce the negative effects of short sleep.
However, it’s not a perfect fix. Weekend catch-up sleep and naps may not fully resolve sleep debt. The topic remains one of ongoing scientific debate.
A recent large study suggested weekend catch-up sleep may not offset the cardiovascular risks associated with chronic short sleep.
Catching up on sleep on the weekends may not fully resolve your ‘sleep debt’. Ground Picture/Shutterstock What’s more, large swings in sleep timing can disrupt your body’s internal clock, and sleeping in too much on weekends may make it harder to fall asleep on Sunday night, which can mean starting the working week less rested.
Increasing evidence indicates repeated cycles of irregular sleep may have an important influence on general health and the risk of early death, potentially even more so than how long we sleep for.
Ultimately, while moderate catch-up sleep might offer some benefits, it’s no substitute for consistent, high-quality sleep throughout the week. That said, maintaining such regularity can be particularly challenging for people with non-traditional schedules, such as shift workers.
So, was Thatcher a true natural short sleeper?
It’s hard to say. Some reports suggest she napped during the day in the back of a car between meetings. That could mean she was simply sleep-deprived and compensating for an accumulated sleep debt when she could.
Separate to whether someone is a natural short sleeper, there are a range of other reasons people may need more or less sleep than others. Factors such as age and underlying health conditions can significantly influence sleep requirements.
For example, older adults often experience changes in their circadian rhythms and are more likely to suffer from fragmented sleep due to conditions such as arthritis or cardiovascular disease.
Sleep needs vary from person to person, and while a lucky few can thrive on less, most of us need seven to nine hours a night to feel and function our best. If you’re regularly skimping on sleep and relying on weekends to catch up, it might be time to rethink your routine. After all, sleep isn’t a luxury – it’s a biological necessity.
Kelly Sansom, Research Associate, College of Medicine and Public Health, Flinders University; Research Associate, Centre for Healthy Ageing, Murdoch University and Peter Eastwood, Deputy Vice Chancellor, Research and Innovation, Murdoch University
This article is republished from The Conversation under a Creative Commons license. Read the original article.
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One More Reason To Prioritize Sleep To Fight Cognitive Decline
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We’ve talked sometimes at 10almonds about how important sleep is for many aspects of health, including for brain health, and including in later life.
There’s a common myth that older people require less sleep; the reality is that sleeping less and not dying of it does not equate to needing less.
See also: Sleep: Yes, You Really Do Still Need It!
And: How Sleep-Deprived Are You, Really?
Quantity is not everything though; quality absolutely matters too. We’ve written about that here:
The 6 Dimensions Of Sleep (And Why They Matter) ← duration is just one dimension out of the six
We’ve even gone into some more obscure, but still very important things, such as: How Your Sleep Position Changes Dementia Risk
We’ve also talked about the role of sleep in memory (and forgetting): How Your Brain Chooses What To Remember
With that in mind…
Some more recent science
This study was about spatial memory, but what’s important (in our opinion) is that it’s about solidifying recent learning.
Researchers measured brain activity in rats for up to 20 hours of sleep following spatial learning tasks. Initially, the neuronal patterns observed during sleep mirrored those from the learning phase. However, as sleep progressed, these patterns transformed to resemble the activity seen when the rats later recalled the locations of food rewards. Interestingly, this reorganization happened during non-REM sleep, which means it wasn’t just a case of “the rats were dreaming about their day” (which is a well-established way in which memories do get encoded), but rather, the newly-learned experiences were being actively encoded in the rest of sleep.
This is critical, because in age-related cognitive decline, it’s very common for very long-term memory (VLTM) to remain intact, while LTM and short-term memory (STM) crumble. For example, someone may remember many details of their life from 20 years ago, but forget where they currently live, or what happened in the conversation two minutes ago.
In other words, the biggest problem is not the storage of memories, but rather the encoding of them in the first place.
Which sleep facilitates!
And it’s also important to note that part about it being the rest of sleep, because when the brain is sleep-deprived, it’ll tend to prioritize REM sleep, which is important, but that means cutting back on other phases of sleep, and from this study, we can see that memory & learning will be amongst the things adversely affected by such cuts.
Here’s the paper, for those interested:
Sleep stages antagonistically modulate reactivation drift
And for those who prefer lighter reading, here’s a pop-science article about the same study, which explains it in more words than we can here:
But wait, there’s more!
Sleep resets neurons for new memories the next day, study finds
So, once again… It is absolutely critical to prioritize good sleep.
Want to know more?
Check out:
Calculate (And Enjoy) The Perfect Night’s Sleep
Take care!
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Is cancer more common in women after IVF?
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Since fertility treatments such as in vitro fertilisation (IVF) began, there has been concern they could cause cancer.
Concerns have included whether aspects of treatment – such as taking hormonal medications, or puncturing the ovaries to retrieve eggs – could stimulate the growth of cancer cells.
Now, our new study, published on Wednesday, has found women who underwent fertility treatments had a comparable overall rate of cancer to similarly aged women.
However, there were some differences: they had more uterine, ovarian, and melanoma cancers, and fewer lung and cervical cancers. Let’s take a look at what this means.
Shaw Photography Co./Getty What we did
Our study wanted to find out whether women who underwent fertility treatments had a different rate of cancer from the general population.
We used individual records from Medicare and the Pharmaceutical Benefits Scheme to find women who had fertility treatments between 1991 and 2018. We linked this data to the Australian Cancer Database to find cancer diagnoses.
We found 417,984 women who received fertility treatments and followed them for about a decade on average:
- 274,676 women had treatments where the egg was removed from the women’s body (IVF and similar treatments)
- 120,739 women had treatments with a specialist where the egg was not removed (mainly intrauterine insemination)
- 175,510 women received a prescription for clomiphene citrate (also known as Clomid), a medication that induces ovulation.
One woman could have had multiple types of treatment.
Their median age (the midpoint of their ages) was 32–34 years. Compared to the general population, fewer lived in disadvantaged areas.
We compared these women’s rates of cancers to women in the general population, by statistically matching them on factors such as age and the state they lived in.
What we found
Women who received fertility treatments, either with or without egg removal, had close to the exact total number of cancers we would expect in the general population of women.
But women who used clomiphene citrate had 1.04 times the rate of cancer, or 8.6 extra cancers for every 100,000 women treated each year.
Rates of uterine cancer, ovarian cancer (except for those who used clomiphene citrate), and melanoma were 1.07–1.83 times higher, depending on treatment type. This means about three to seven more of these cancers for every 100,000 women treated each year.
This difference could be due to risk factors unrelated to the treatment. For example, endometriosis – a risk factor for infertility – is linked to ovarian cancer. Similarly, more Caucasian women receive fertility treatments, and fair skin is an established risk factor for melanoma.
Across all treatments rates of cervical cancer and lung cancer were 1.43–1.92 times lower. This translates to around two to six fewer cancers for every 100,000 treated women each year.
These decreases could be due to women receiving fertility treatment being less likely to smoke. Women who receive fertility treatment may also be more likely to be screened for cervical cancer, as clinicians often encourage them to get screened before treatment. But this is anecdotal – we don’t yet have data on this.
What this means
Overall, these findings are reassuring for women who have received or are planning fertility treatments.
The number of people undergoing fertility treatments is increasing worldwide. These findings deepen our understanding of the types of cancers diagnosed in women who receive fertility treatment.
Our study shows some cancers are more common in women who received fertility treatments than in the general population of women.
However, the absolute numbers of these cancers are small, similar to those observed for women using some other medical interventions (including the contraceptive pill).
It is normal to see differences in cancer risk in specific populations when compared to the general population.
So, does this mean IVF does not cause cancer?
This study design cannot determine if fertility treatments themselves cause or prevent cancer.
Though fertility treatments may contribute to cancer risk, women who receive fertility treatments have a different health and socio-demographic profile to the general population of women. These factors may affect cancer risk.
We did not have any data on why women were using fertility treatments to get pregnant and whether this is connected to their cancer risk. For example, we don’t know if they were receiving treatment for medical infertility, or for another reason (such as same-sex couples trying to conceive).
Our study also only followed women for around ten years, and the cancer risk profile may change as these women age.
The takeaway
As with every medical treatment, it is important for women and their health-care practitioners to make informed decisions before and after fertility treatment, including considering potential changes in cancer risk.
Women considering fertility treatment, and those who’ve used fertility treatment, should continue to participate in the routine cancer screening programs they’re eligible for.
If women are worried about their risk of cancer, they should consult their doctor to understand the steps they can take to reduce their risk.
Adrian Raymond Walker, Research Fellow, Centre for Big Data Research in Health, UNSW Sydney and Claire Vajdic, Professor, The Kirby Institute, UNSW Sydney
This article is republished from The Conversation under a Creative Commons license. Read the original article.
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Top 8 Fruits That Prevent & Kill Cancer
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Dr. Amy Dee, pharmacist and cancer survivor herself, lays out the best options for anticancer fruits:
The fruits
Without further ado, they are:
- Kiwi: promotes cancer cell death while sparing healthy cells
- Plums & peaches: an interesting choice to list these similar fruits together as one item, but they both also induce cell death in cancer cells while sparing healthy ones
- Dragon fruit: this does the same, while also inhibiting cancer cell growth
- Figs: these have antitumor effects specifically, while removing carcinogens too, and additionally sensitizing cancer cells to light therapy
- Cranberries: disrupt cancer cell adhesion, breaking down tumors, while protecting non-cancerous cells against DNA damage
- Citrus fruits: inhibit tumor growth and kill cancer cells; regular consumption is also associated with a lower cancer risk (be warned though, grapefruit interacts with some medications)
- Cherries: induce cancer cell death; protect healthy cells against DNA damage
- Tomatoes: don’t often make it into lists of fruits, but lycopene reduces cancer risk, and slows the growth of cancer cells (10almonds note: watermelon has more lycopene than tomatoes, and is more traditionally considered a fruit in all respects, so could have taken the spot here).
We would also argue that apricots could have had a spot on the list, both for their lycopene content (comparable to tomatoes) and their botanical (and thus phytochemical) similarities to peaches and plums.
For more information on each of these (she also talks about the different polyphenols and other nutrients that constitute the active compounds delivering these anticancer effects), enjoy:
Click Here If The Embedded Video Doesn’t Load Automatically!
Want to learn more?
You might also like to read:
- Food Choice & Cancer Risk: Eat To Beat Cancer
- Beat Cancer Kitchen: Deliciously Simple Plant-Based Anticancer Recipes (book)
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