because prevention is better than cure.

because prevention is better than cure.

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Why aren’t Alzheimer’s charities taking prevention research seriously?

In the UK progress in putting these breakthroughs into action is slow. The two leading charities, the Alzheimer’s Society and Alzheimer’s Research UK (ARUK) fail to mention the importance of homocysteine lowering B vitamins and omega-3 at all and have confirmed that they are not funding any research on their use in prevention or planning to do so. ARUK’s chief medical officer Professor Jon Schott and the Alzheimer’s Society’s associate director of research, Richard Oakley, declined to comment.

ARUK’s Brain Health Check-In, a short 13 question check list, with only one very basic question on diet, says nothing at all about B vitamins or whether or not a person supplements omega-3 fish oils despite ARUK having part-funded the Oxford University research. According to Professor Smith, who was the first Chair of their Scientific Advisory Board “ARUK part-funded our trial on B vitamins, and are aware of the results. I don’t understand why they make no mention of such an effective preventive intervention, that is taking a 10p a day B vitamin supplement if your homocysteine is high. Now we know that those who also supplement with omega-3 fish oil, or eat fish regularly, reduce their risk. These are the easiest two prevention actions anyone can take, with a significant impact on reducing the risk for dementia. Everyone needs to know this.”

“We’ve been applying to UK and EU agencies for the past 8 years to fund the obvious next trial – testing the effects of B vitamins and omega-3 combined to see if they slow, or prevent, conversion from cognitive impairment to dementia, but to no avail.” Says Professor Smith.

Neither the Alzheimer’s Society, nor ARUK are funding any vitamin or omega-3 research and spend virtually none of their annual research pot, which exceeded £37 million last year, on diet or lifestyle prevention which offer the most potential, despite these representing up to half of the risk for Alzheimer’s. Neither would confirm the percentage of their research funds that were being spent on prevention research.

UK Government have pledged to deliver ‘Dementia Moonshot’, doubling dementia research funding to £160 million to ‘fast-track the development of new treatments’, meanwhile ignoring the biggest breakthroughs in diet and lifestyle prevention. Most support is feeding failed drug research. With an estimated $50 billion [12] spent so far on amyloid drugs and research, all of which have failed to produce any clinical benefit, isn’t it time governments and Alzheimer’s charities took prevention seriously?

In contrast, the Food for the Brain Foundation are doing just that. “At Foodforthebrain.org we are testing almost 4,000 people every month on our free online Cognitive Function Test, and assessing all risk factors on a 140 question questionnaire, including the need for B vitamins and omega-3. We hope, soon, to introduce a pinprick blood test for both omega-3 and homocysteine. We don’t know why the most evidence-based, easy to action and inexpensive prevention steps are being ignored” says Holford. “Why world class scientists such as Professor David Smith’s team at Oxford University have been unable to get funding for the most essential research is shameful. Right now we know enough to cut the average person’s risk of developing Alzheimer’s by up to two thirds and the number of people developing dementia by a third if only there was the political will to do so.”

One of the reasons for complacency in the UK is the Lancet’s commissioned report on Alzheimer’s prevention chaired by Gillian Livingston, Professor of Psychiatry for Older  People, at the University College London (UCL). The report, first published in 2017, didn’t include B vitamins. Despite being sent all the evidence by Smith. The 2020 revised report still excluded this vital research, as did a follow up report specifically on supplements in 2022. “There are no trials that show that lowering homocysteine has any benefit” she told us yet she had been sent the unequivocal evidence that the B vitamins reduced brain shrinkage by up to 73%, compared to the 2% reduction of anti-amyloid drugs and the combination of omega-3 and B vitamins has lowered the Clinical Dementia Rating (CDR) in placebo controlled trials by three times that reported by the recent anti-amyloid drug, Lecanemab. (see charts below).

When asked about the recent finding of a synergistic effect of B vitamins and omega-3 she said “It sounds a good hypothesis. I hope they can get the funding for it, but raised homocysteine is not common in the wider population and drug companies can’t be expected to fund nutrition trials, so money would have to come from some government agency.”

There is one prevention study, called AppleTree, underway at University College London. It focuses on reducing risk for Alzheimer’s by eating a Mediterranean style diet and lifestyle advice, including encouraging smokers to quit, which is a known risk factor for cognitive decline. One recent study shows that being a smoker increases risk for dementia by 1.5 times and quitting for at least 3 years reduces much of that risk. [13] One in twelve people over 65 smoke.

In contrast, almost half of all people over 65 have raised homocysteine [14] which increases risk for cognitive impairment by up to ten times, according to Chinese research published last year[15]. Lowering homocysteine with B vitamins, and sufficient omega-3, would virtually eliminate that risk. This suggests that targeting B vitamins and omega-3 would be about twenty times more impactful in preventing dementia than quitting smoking. Yet the need for supplemental intake of these nutrients is not part of the Apple Tree protocol.

If you’d like to test your cognitive function and find out how to reduce your risk, register here and join our citizen science campaign.

References

[3] van Soest, A.P.M., van de Rest, O., Witkamp, R.F. et al. DHA status influences effects of B-vitamin supplementation on cognitive ageing: a post-hoc analysis of the B-proof trial. Eur J Nutr (2022). https://doi.org/10.1007/s00394-022-02924-w

[4] Jernerén F, Cederholm T, Refsum H, Smith AD, Turner C, Palmblad J, Eriksdotter M, Hjorth E, Faxen-Irving G, Wahlund LO, Schultzberg M, Basun H, Freund-Levi Y. Homocysteine Status Modifies the Treatment Effect of Omega-3 Fatty Acids on Cognition in a Randomized Clinical Trial in Mild to Moderate Alzheimer’s Disease: The OmegAD Study. J Alzheimers Dis. 2019;69(1):189-197. doi: 10.3233/JAD-181148. PMID: 30958356.

[5] Walsh S, Merrick R, Richard E, Nurock S, Brayne C. Lecanemab for Alzheimer’s disease. BMJ. 2022 Dec 19;379:o3010. doi: 10.1136/bmj.o3010. PMID: 36535691.

[6] Li M, Li W, Gao Y, Chen Y, Bai D, Weng J, Du Y, Ma F, Wang X, Liu H, Huang G. Effect of folic acid combined with docosahexaenoic acid intervention on mild cognitive impairment in elderly: a randomized double-blind, placebo-controlled trial. Eur J Nutr. 2021 Jun;60(4):1795-1808. doi: 10.1007/s00394-020-02373-3. Epub 2020 Aug 28. PMID: 32856190.

[7] Yu JT, Xu W, Tan CC, Andrieu S, Suckling J, Evangelou E, Pan A, Zhang C, Jia J, Feng L, Kua EH, Wang YJ, Wang HF, Tan MS, Li JQ, Hou XH, Wan Y, Tan L, Mok V, Tan L, Dong Q, Touchon J, Gauthier S, Aisen PS, Vellas B. Evidence-based prevention of Alzheimer’s disease: systematic review and meta-analysis of 243 observational prospective studies and 153 randomised controlled trials. J Neurol Neurosurg Psychiatry. 2020 Nov;91(11):1201-1209. doi: 10.1136/jnnp-2019-321913. Epub 2020 Jul 20. PMID: 32690803; PMCID: PMC7569385.

[8] Huang Y, Deng Y, Zhang P, Lin J, Guo D, Yang L, Liu D, Xu B, Huang C, Zhang H. Associations of fish oil supplementation with incident dementia: Evidence from the UK Biobank cohort study. Front Neurosci. 2022 Sep 7;16:910977. doi: 10.3389/fnins.2022.910977. PMID: 36161159; PMCID: PMC9489907.

[9] Jeong SM, Park J, Han K, Yoo J, Yoo JE, Lee CM, Jung W, Lee J, Kim SY, Shin DW. Association of Changes in Smoking Intensity With Risk of Dementia in Korea. JAMA Netw Open. 2023 Jan 3;6(1):e2251506. doi: 10.1001/jamanetworkopen.2022.51506. PMID: 36656579; PMCID: PMC9857334.

[10] Beydoun MA, Beydoun HA, Gamaldo AA, Teel A, Zonderman AB, Wang Y. Epidemiologic studies of modifiable factors associated with cognition and dementia: systematic review and meta-analysis. BMC Public Health. 2014 Jun 24;14:643. doi: 10.1186/1471-2458-14-643. PMID: 24962204; PMCID: PMC4099157.

[11] Witte AV, Kerti L, Hermannstädter HM, Fiebach JB, Schreiber SJ, Schuchardt JP, Hahn A, Flöel A. Long-chain omega-3 fatty acids improve brain function and structure in older adults. Cereb Cortex. 2014 Nov;24(11):3059-68. doi: 10.1093/cercor/bht163. Epub 2013 Jun 24. PMID: 23796946.

[12] Cummings JL, Goldman DP, Simmons-Stern NR, Ponton E. The costs of developing treatments for Alzheimer’s disease: A retrospective exploration. Alzheimers Dement. 2022 Mar;18(3):469-477. doi: 10.1002/alz.12450. Epub 2021 Sep 28. PMID: 34581499; PMCID: PMC8940715.

[13] Lu Y, Sugawara Y, Zhang S, Tomata Y, Tsuji I. Smoking cessation and incident dementia in elderly Japanese: the Ohsaki Cohort 2006 Study. Eur J Epidemiol. 2020 Sep;35(9):851-860. doi: 10.1007/s10654-020-00612-9. Epub 2020 Feb 15. PMID: 32060675; PMCID: PMC7525275.

[14] Pfeiffer CM, Osterloh JD, Kennedy-Stephenson J, Picciano MF, Yetley EA, Rader JI, Johnson CL. Trends in circulating concentrations of total homocysteine among US adolescents and adults: findings from the 1991-1994 and 1999-2004 National Health and Nutrition Examination Surveys. Clin Chem. 2008 May;54(5):801-13. doi: 10.1373/clinchem.2007.100214. Epub 2008 Mar 28. PMID: 18375482.

[15] Teng Z, Feng J, Liu R, Ji Y, Xu J, Jiang X, Chen H, Dong Y, Meng N, Xiao Y, Xie X and Lv P (2022) Cerebral small vessel disease mediates the association between homocysteine and cognitive function. Front. Aging Neurosci. 14:868777. doi: 10.3389/fnagi.2022.868777


Further info

Two nutrients proven to stop your brain shrinking

By Jerome Burne &  Patrick Holford

New research shows that the combination of B vitamins and omega-3 are a dynamic duo against dementia, stopping the brain shrinkage that is the hallmark of Alzheimer’s. 

The discovery, hailed as the “a major step towards Alzheimer’s prevention” was first made at the University of Oxford, but has now been confirmed by research groups in Holland, Sweden and China.

Headed by Professor David Smith, former Chair of Pharmacology and Deputy Head of the Division of Medical Sciences at Oxford University and director of the Oxford Project to Investigate Memory and Ageing (OPTIMA), the research has found that giving older people with the first signs of cognitive impairment supplemental B vitamins (B6, B12 and folic acid) at higher levels than can be achieved through diet to those with sufficient omega-3 fats produced 73% less brain shrinkage in a year, compared to placebo. This reduction brought brain shrinkage down to the level found in those elderly with no cognitive decline. The trial was part-funded by Alzheimer’s Research UK (ARUK). “The effect is greater than that of any drug treatment to date – with no adverse effects.” says Professor Smith. In contrast the recent trials of anti-amyloid drugs have reduced brain shrinkage by 2%.

“Brain shrinkage is the hallmark of Alzheimer’s so this was a vital discovery for its prevention” says Patrick Holford, director of the Alzheimer’s Prevention Project at foodforthebrain.org, the UK’s leading dementia prevention charity “However we needed confirmation from other research groups. Now we have it.”.

Three other research groups have confirmed the combined effect of omega-3 and B vitamins is greater than either nutrient on its own.

“You literally cannot build brain cells without both omega-3 fats and sufficient B vitamins” says Holford. “If you give a builder a hammer or a bag of nails you don’t get a house. But if you give them both they can build a house. The B vitamins drive a process called methylation which assembles the critical brain-building fats that make up the membrane of neurons, through which all brain communication happens. Both are vital for building brain cells. Neither can work without the other.”

Watch this one minute film, on how to build new brain cells at any age.

Realising that the combination of B vitamins and omega-3 fats is key, researchers in Holland, who had previously run a major trial called B-proof that had tested the effects of B vitamins on memory but had only found very modest benefits decided to take reanalyse the results of their B vitamin trial according to the participants blood levels of omega-3 at the start of the trial. Sure enough, they found no benefit at all from the B vitamins in those with low omega-3 status, but a massive improvement in cognition in those in the top third of omega-3 levels.[i]

Could this need for both explain why some trials testing omega-3 were also not successful?

The Oxford University researchers, led by Dr Frederik Jerneren, were given access to the blood samples from another trial in Sweden called OmegAD. This trial  had given older people a hefty dose of 2.3grams (two large capsules) of omega-3 fish oils. The trial had apparently failed, showing no significant cognitive benefit. Could faulty methylation, a result of lack of B vitamins, be the reason for the omega-3 fish oils not working?

The Oxford researchers therefore measured homocysteine, a consequence of a lack of B vitamins, in the samples from the OmegAD trial. Dr Jerneren split the participants into thirds – from the lowest to highest level of homocysteine. Those given omega-3 who had  the lowest homocysteine, in other words sufficient in B vitamins, had a highly significant improvement in their clinical dementia rating while those with high homocysteine (poor B vitamin status) had no benefit at all.[ii] The group with sufficient vitamin B showed a reduction in their clinical dementia score that was more than three times that reported from the recent Lecanemab drug trial.[iii]

Meanwhile another trial, this time in China, gave those with pre-dementia either the B vitamin folic acid, or omega-3, or both, compared to placebo. Although B vitamin treatment and omega-3 treatment did slightly improve cognitive cores, the improvement was much greater in those given both thee nutrients.[iv]

With 170 million people over 65, Chinese authorities are taking prevention of dementia extremely seriously to avoid a cerebral tsunami. So, one of their top researchers, Professor Jin-Tai Yu at Shanghai’s Institute of Neurology at Fudan University did one of the most thorough reviews of all risk factors for Alzheimer’s to date.[v]

“Lowering blood homocysteine levels, an established indicator of Alzheimer’s risk, with B vitamins is a most promising treatment.” he concluded. He was also given access to the UK’s Bio Bank data of almost half a million people “Our current research, using data from the UK Bio Bank, shows that having higher blood levels of polyunsaturated fats, including omega-3, and supplementing fish oils, is associated with less risk of dementia. [vi] Moreover, recent studies suggest these two factors – homocysteine lowering B vitamins, and omega-3 – may, in combination, be potentially more beneficial. They are easy to implement. This is worthy of further research”

The UK’s Bio Bank data showed that something as simple as taking fish oils had reduced dementia risk by 9%. This is equivalent to the risk reduction found from quitting smoking.[vii]

US researchers at the National Institutes of Health research have confirmed this, attributing almost a quarter (22%) of Alzheimer’s cases to lack of B vitamins and raised homocysteine levels and the same (22%) to a lack of omega-3 and seafood intake.[viii] This means that about one in three cases of Alzheimer’s could be avoided simply by taking a daily high dose B vitamin supplement and an omega-3 fish oil capsule. This could save 95,000 people a year in the UK from developing dementia. Currently, 790 people – seven double decker buses worth – are diagnosed every single day. However, the benefit is not just in preventing people from dementia in the future. A study of healthy 65-year-olds given omega-3 fish oils showed both improvement in memory and healthier brain tissue within six months.[ix]

The Alzheimer’s prevention charity, foodforthebrain.org, targets eight prevention steps in their on-line Cognitive Function test and Dementia Risk Index questionnaire, including B vitamins and omega-3. “These are the two easiest to change and most evidence based prevention steps anyone can take.” Say Patrick Holford who directs their ‘Alzheimer’s is Preventable’campaign.


[i] van Soest, A.P.M., van de Rest, O., Witkamp, R.F. et al. DHA status influences effects of B-vitamin supplementation on cognitive ageing: a post-hoc analysis of the B-proof trial. Eur J Nutr (2022). https://doi.org/10.1007/s00394-022-02924-w

[ii] Jernerén F, Cederholm T, Refsum H, Smith AD, Turner C, Palmblad J, Eriksdotter M, Hjorth E, Faxen-Irving G, Wahlund LO, Schultzberg M, Basun H, Freund-Levi Y. Homocysteine Status Modifies the Treatment Effect of Omega-3 Fatty Acids on Cognition in a Randomized Clinical Trial in Mild to Moderate Alzheimer’s Disease: The OmegAD Study. J Alzheimers Dis. 2019;69(1):189-197. doi: 10.3233/JAD-181148. PMID: 30958356.

[iii] Walsh S, Merrick R, Richard E, Nurock S, Brayne C. Lecanemab for Alzheimer’s disease. BMJ. 2022 Dec 19;379:o3010. doi: 10.1136/bmj.o3010. PMID: 36535691.

[iv] Li M, Li W, Gao Y, Chen Y, Bai D, Weng J, Du Y, Ma F, Wang X, Liu H, Huang G. Effect of folic acid combined with docosahexaenoic acid intervention on mild cognitive impairment in elderly: a randomized double-blind, placebo-controlled trial. Eur J Nutr. 2021 Jun;60(4):1795-1808. doi: 10.1007/s00394-020-02373-3. Epub 2020 Aug 28. PMID: 32856190.

[v] Yu JT, Xu W, Tan CC, Andrieu S, Suckling J, Evangelou E, Pan A, Zhang C, Jia J, Feng L, Kua EH, Wang YJ, Wang HF, Tan MS, Li JQ, Hou XH, Wan Y, Tan L, Mok V, Tan L, Dong Q, Touchon J, Gauthier S, Aisen PS, Vellas B. Evidence-based prevention of Alzheimer’s disease: systematic review and meta-analysis of 243 observational prospective studies and 153 randomised controlled trials. J Neurol Neurosurg Psychiatry. 2020 Nov;91(11):1201-1209. doi: 10.1136/jnnp-2019-321913. Epub 2020 Jul 20. PMID: 32690803; PMCID: PMC7569385.

[vi] Huang Y, Deng Y, Zhang P, Lin J, Guo D, Yang L, Liu D, Xu B, Huang C, Zhang H. Associations of fish oil supplementation with incident dementia: Evidence from the UK Biobank cohort study. Front Neurosci. 2022 Sep 7;16:910977. doi: 10.3389/fnins.2022.910977. PMID: 36161159; PMCID: PMC9489907.

[vii] Jeong SM, Park J, Han K, Yoo J, Yoo JE, Lee CM, Jung W, Lee J, Kim SY, Shin DW. Association of Changes in Smoking Intensity With Risk of Dementia in Korea. JAMA Netw Open. 2023 Jan 3;6(1):e2251506. doi: 10.1001/jamanetworkopen.2022.51506. PMID: 36656579; PMCID: PMC9857334.

[viii] Beydoun MA, Beydoun HA, Gamaldo AA, Teel A, Zonderman AB, Wang Y. Epidemiologic studies of modifiable factors associated with cognition and dementia: systematic review and meta-analysis. BMC Public Health. 2014 Jun 24;14:643. doi: 10.1186/1471-2458-14-643. PMID: 24962204; PMCID: PMC4099157.

[ix] Witte AV, Kerti L, Hermannstädter HM, Fiebach JB, Schreiber SJ, Schuchardt JP, Hahn A, Flöel A. Long-chain omega-3 fatty acids improve brain function and structure in older adults. Cereb Cortex. 2014 Nov;24(11):3059-68. doi: 10.1093/cercor/bht163. Epub 2013 Jun 24. PMID: 23796946.

Further info

Staying Active & Failing Keeps you Sharp

By Research Professor Tommy Wood from the University of Washington

Most of us have two types of elderly relatives.

One of them is old – they have trouble walking, they’re in and out of the doctor’s office, and they always seem to repeat the same stories. The other type seems younger than their years they play tennis twice a week, they’re social, and they’re sharp as a tack. How can we become part of the latter group?

When it comes to aging in general and cognitive function in particular, genes obviously play a role, but did you know that lifestyle choices matter even more?[1] So, what are the top lifestyle choices to keep our brains sharp into old age?

As a neuroscientist, this is a question I often get.

Besides the obvious ones – physical activity, strength, sleep, a healthy diet, not smoking – my top tip is this: If you want to stay mentally sharp into old age, keep your brain active. In short, “use it or lose it”.

But what does “using it” look like? In this post I’ll cover some of the evidence around cognitive decline, as well as some practical take-aways for anybody wanting to improve their brain health as they get older.

Use it or lose it

The brain is an amazing organ, and it’s more resilient and adaptable than we’ve been led to believe. I’m sure you’ve heard that adults have a fixed amount of brain cells. Then, as we get older (or every time we take a sip of wine) we “lose” some of those brain cells as part of an unstoppable decline towards dementia or Alzheimer’s disease.

But that’s not necessarily true. I like to think about the brain like I think about muscles. In order to grow our muscles, we need to provide a stimulus – like lifting weights in the gym – followed by a period of rest. The opposite also happens – if we stop going to the gym or if we stop using a limb after breaking a bone – our muscles get smaller. Most have experienced this personally, and there’s every indication that your cognitive “muscle” behaves in the same way.

How do we know this? One type of evidence is that longer education seems to reduce dementia in later life. [2]* You might think of education as early cognitive muscle building that you then benefit from throughout life. We see similar effects from other forms of early cognitive stimulus – like protection from neurodegenerative disease in people who grew up bilingual.[3]

But we’re not cognitively doomed after adolescence. One of my favourite studies looked at adults studying “The Knowledge” – memorising ~25,000 streets in central London to become a taxi driver. These participants were in their 30s or 40s, yet they saw a significant increase in the size of the hippocampus, the brain region associated with memory.[4]

We also see the opposite effect – less cognitive stimulus increases the risk of cognitive decline and dementia. This is most easily studied by looking at retirement. Multiple studies in populations across the US, China, and Europe, show that the risk of cognitive decline accelerates after retirement.[5-8] Those that retire later are protected against cognitive decline, even after considering factors that might force early retirement such as poor health. Overall, a recent meta-analysis looking at health and lifestyle factors associated with cognitive decline found that cognitive activity was the single most protective factor – halving the risk of Alzheimer’s disease.[2] This really emphasises the lesson: use it or lose it. What counts as ‘protective cognitive demand’? Doing something badly.

The evidence around retirement and cognitive decline suggests that work is where adults tend to get most of their cognitive activity. However, it’s important to unpick what constitutes cognitive activity that is protective. We may feel that our work demands a lot from our brain, but being “busy” does not necessarily benefit the brain. In fact, it’s often the opposite. Being “busy” tends to come with stress, and though stress is very personal, chronic stress is associated with an increased risk of Alzheimer’s disease.[9] What keeps us busy and stressed – sitting in meetings, reading emails, inputting data – may be time consuming, but rarely requires much brain power.

So, what constitutes protective cognitive demand? Failure.

Activities that provide the greatest cognitive stimulus involve learning and skill development. That means we’re initially bad at them and occasionally fail before we get better. This is the real sticking point for improving brain health – as adults we hate the feeling of being bad at something. Failing is, however, when the magic happens. A fascinating study looked at the brains of musicians.[10] While both professional and amateur musicians’ brains looked younger compared to non-musicians of the same age, the benefit was greatest in amateur musicians. The researchers suggested that playing music is more of a cognitive stimulus for amateurs – it’s harder, so they get more benefit. The cocktail of hormones released as we try, fail, repeat, and learn, provides the ideal environment for the brain to grow and adapt.


How to “use it”

So, how should we apply this knowledge? Below are some of the best and easiest ways to build in cognitive stimuli you can benefit from for years to come.


1 | Pick an activity that’s truly challenging
Cognitive demand requires failure, so pick something you’ll be bad at initially. What’s cognitively challenging is personal, but learning a new language is better than sudoku, building model airplanes is probably better than reading the news, and playing chess is definitely better than scrolling through Instagram. As you get better, add challenge to keep stimulating your brain.

2 | Start small and do something you enjoy
Skill development should be a lifelong process, which means it should be a routine. Start small – for instance 2 minutes a day of playing an instrument or learning a new language. Make sure your new skill is something you enjoy – that makes it easier to stick to and keep as a part of your life.

3 | Move – with a skill component
Movement has some of the best evidence on improving brain health. One of the first studies to show that the hippocampus can grow in adults of retirement age (or older) used a walking intervention – just 40 minutes of brisk walking 3x per week.[11] Other studies have showed increased brain connectivity and function in adults doing resistance training 1-2 times per week.[12] Best is movement that includes balance or motor skills: the added challenge of coordination seems to be particularly protective against cognitive decline.[13] Think yoga, dance, or even skateboarding

4 | Try a new skill that’s social
Social interaction is its own form of cognitive stimulus: social connection is protective of cognitive function, while social isolation has the opposite effect.[14] So what’s better than simply learning a new skill? Doing so with friends. Start a book club to discuss the books you read. Join a knitting circle, language group, or dance class. Volunteer for a local charity. All of these help you learn new skills, with the added benefit of social interaction.

5 | Repeat, repeat, repeat
There are no hard and fast rules about how much or how often to work on a new skill, but once a week is a good start. If it’s a class or a movement practice, maybe 1-3 times per week. If it’s something you can do on your own, you may prefer more frequent, smaller bouts of focused practice. Try using a Pomodoro timer to dig in for 20-30 minutes – a suitable time for most people to keep their undivided attention.
The key is to push right at the boundaries of what you’re capable of – with occasional failure showing that you’re at the right level of difficulty. Keep at it, and you’ll be more likely to be healthy and sharp for decades to come.

Footnote
*It’s worth noting that those who stay in education for longer also tend to be socioeconomically advantaged, but the benefit of longer education seems to hold even accounting for that.


References

  1. Lourida I, Hannon E, Littlejohns TJ, Langa KM, Hyppönen E, Kuźma E, Llewellyn DJ. Association of Lifestyle and Genetic Risk With Incidence of Dementia. Jama. 2019;322(5):430-7. doi: 10.1001/jama.2019.9879.
  2. Yu JT, Xu W, Tan CC, Andrieu S, Suckling J, Evangelou E, Pan A, Zhang C, Jia J, Feng L, Kua EH, Wang YJ, Wang HF, Tan MS, Li JQ, Hou XH, Wan Y, Tan L, Mok V, Tan L, Dong Q, Touchon J, Gauthier S, Aisen PS, Vellas B. Evidence-based prevention of Alzheimer’s disease: systematic review and meta-analysis of 243 observational prospective studies and 153 randomised controlled trials. J Neurol
    Neurosurg Psychiatry. 2020;91(11):1201-9. Epub 2020/07/22. doi: 10.1136/jnnp-2019-321913. PubMed PMID: 32690803; PMCID: PMC7569385.
  3. Sala A, Malpetti M, Farsad M, Lubian F, Magnani G, Frasca Polara G, Epiney JB, Abutalebi J, Assal F, Garibotto V, Perani D. Lifelong bilingualism and mechanisms of neuroprotection in Alzheimer dementia. Hum Brain Mapp. 2022;43(2):581-92. Epub 2021/11/04. doi: 10.1002/hbm.25605. PubMed PMID: 34729858; PMCID: PMC8720191.
  4. Woollett K, Maguire EA. Acquiring “the Knowledge” of London’s layout drives structural brain changes. Current biology : CB. 2011;21(24):2109-14. Epub 2011/12/08. doi: 0.1016/j.cub.2011.11.018. PubMed PMID: 22169537.
  5. Hale JM, Bijlsma MJ, Lorenti A. Does postponing retirement affect cognitive function? A counterfactual experiment to disentangle life course risk factors. SSM – Population Health. 2021;15:100855. doi: https://doi.org/10.1016/j.ssmph.2021.100855.
  6. Dufouil C, Pereira E, Chêne G, Glymour MM, Alpérovitch A, Saubusse E, Risse- Fleury M, Heuls B, Salord JC, Brieu MA, Forette F. Older age at retirement is associated with decreased risk of dementia. Eur J Epidemiol. 2014;29(5):353-61. Epub 2014/05/06. doi: 10.1007/s10654-014-9906-3. PubMed PMID: 24791704.
  7. Nikolov P, Adelman AM. Do Pension Benefits Accelerate Cognitive Decline? Evidence from Rural China. Labor: Public Policy & Regulation eJournal. 2019. Sundström A, Rönnlund M, Josefsson M. A nationwide Swedish study of age at retirement and dementia risk. Int J Geriatr Psychiatry. 2020;35(10):1243-9. Epub 2020/06/20. doi: 10.1002/gps.5363. PubMed PMID: 32557831.
  8. Ye Y, Li J, Yuan Z. Effect of antioxidant vitamin supplementation on cardiovascular outcomes: A meta-analysis of randomized controlled trials. PloS One. 2013;8:e56803. doi:10.1371/journal.pone.0056803.
  9. Rogenmoser L, Kernbach J, Schlaug G, Gaser C. Keeping brains young with making music. Brain Struct Funct. 2018;223(1):297-305. Epub 2017/08/18. doi: 10.1007/s00429-017-1491-2. PubMed PMID: 28815301.
  10. Erickson KI, Voss MW, Prakash RS, Basak C, Szabo A, Chaddock L, Kim JS, Heo S, Alves H, White SM, Wojcicki TR, Mailey E, Vieira VJ, Martin SA, Pence BD, Woods JA, McAuley E, Kramer AF. Exercise training increases size of hippocampus and improves memory. Proceedings of the National Academy of Sciences. 2011;108(7):3017. doi: 10.1073/pnas.1015950108.
  11. Herold F, Törpel A, Schega L, Müller NG. Functional and/or structural brain changes in response to resistance exercises and resistance training lead to cognitive improvements – a systematic review. Eur Rev Aging Phys Act. 2019;16:10. Epub 2019/07/25. doi: 10.1186/s11556-019-0217-2. PubMed PMID: 31333805; PMCID: PMC6617693.
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Greens Means Brains – Mediterranean and MIND Diet reduces signs of Alzheimer’s disease

By Patrick Holford

Eating a Mediterranean style diet with lots of vegetables and fruit keeps your brain 18 years younger, shows a new study published on the 8th March 2023 in Neurology. According to the researchers “People who scored highest for adhering to the Mediterranean diet had average plaque and tangle amounts in their brains similar to being 18 years younger than people who scored lowest.” They also found people who scored highest for adhering to the MIND diet had average plaque and tangle amounts similar to being 12 years younger than those who scored lowest.”

Adding just one food category from either diet — such as eating recommended amounts of vegetables or fruits — reduced amyloid build-up in the brain to a level similar to being about four years younger, the study said. The greatest result was found with those eating greens. Those in the top third of ‘greens consumption’ had substantially less Alzheimer’s related pathology that those in the lowest third – not eating their greens.

“Doing a simple dietary modification, such as adding more greens, berries, whole grains, olive oil and fish, can actually delay your onset of Alzheimer’s disease or reduce your risk of dementia when you’re growing old,” said study author Puja Agarwal, an assistant professor of internal medicine at the Rush University Medical Center in Chicago. 

“Those with a healthy diet have seven times less risk of developing dementia compared to those eating an average diet, according to a study last month in the British Medical Journal” says Patrick Holford, who directs the Alzheimer’s prevention project at Food for the Brain Foundation, “This is completely consistent with Food for the Brain’s free on-line Dementia Risk Index questionnaire which assesses a person’s risk and asks specific questions about diet, including eating greens. Their test includes a Cognitive Function Test which measures actual cognition so you can gauge your brain age. It then advises you what to do to keep your brain young and healthy.”

Read ‘The Alzheimer’s Prevention Diet’ and discover six brain-friendly recipes including these protective foods.

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Supplementing vitamin D helps reduce Alzheimer’s disease and dementia risk

By Patrick Holford

Taking vitamin D supplements may help ward off dementia, according to a new, large-scale study involving over twelve thousand dementia-free 70+ year olds in the US. More than a third (37%) took supplements of vitamin D. After adjusting for baseline age, sex, education, race, cognitive diagnosis, depression, and APOE4 status, exposure to prescribed vitamin D supplements was associated with 40% lower incidence of dementia during a ten-year period.

The study, carried out by researchers from the University of Calgary’s Hotchkiss Brain Institute in Canada and the University of Exeter in the UK, has been published in the journal Alzheimer’s & Dementia. The team found that taking vitamin D was associated with living dementia-free for longer, and they also found 40 per cent fewer dementia diagnoses in the group who took supplements.

Professor Zahinoor Ismail, of the University of Calgary and University of Exeter, who led the research, said: “We know that vitamin D has some effects in the brain that could have implications for reducing dementia, however so far, research has yielded conflicting results. Our findings give key insights into groups who might be specifically targeted for vitamin D supplementation. Overall, we found evidence to suggest that earlier supplementation might be particularly beneficial, before the onset of cognitive decline.”

One of the problems in relation to vitamin D and cognition is the use of variable amounts of vitamin D, and the lack of reporting regarding blood levels at baseline and conclusion of trials. This study has the same issue. We do not know the dose taken nor the starting and end blood levels of those supplementing or not.

A review by Dr William Grant, Director of Sunlight, Nutrition and Health Research Center, who is the expert on our Scientific advisory Board shows that the higher the blood level of vitamin D (25-hydroxyvitamin D [25(OH)D] is the form measured in the blood serum) the lower is the risk of developing Alzheimer’s as well as dementia in general. The mechanisms identified as potentially explaining its benefit include reduced brain aging, cellular senescence, mitochondrial dysfunction and oxidative stress as well as higher high-density lipoprotein (HDL). Observational study findings indicate that blood levels above 30 ng/mL (75 nmol/L) reduce dementia risk by about 40% and Alzheimer’s risk by about 30% compared to those with blood levels below 12 ng/mL (30 nmol/L) which is broadly consistent with the scale of benefit reported in this trial. You can read Dr William Grant’s full review entitled “The role of vitamin D in reducing risk of Alzheimer’s disease” here.

 “In this study, while Vitamin D was effective in all groups, the team found that the beneficial effects were significantly greater in females, compared to males. Similarly, effects were greater in people with normal cognition, compared to those who reported signs of mild cognitive impairment – changes to cognition which have been linked to a higher risk of dementia.

Dr William Grant says “It is unlikely that vitamin D supplementation is of much use for treating advanced stages of these diseases, although it would be useful in reducing risk of other vitamin D-sensitive adverse health outcomes.” Overall, he says “The evidence regarding vitamin D satisfies the criteria for causality in a biological system for reducing risk of cognitive function, Alzheimer’s and vascular dementia. Thus, vitamin D supplementation can be recommended as an additional way to reduce risk of these diseases. It should also be useful for reducing the rate of progression of these diseases.”

The mechanism(s) for explaining the beneficial effects of vitamin D are not yet clear, however one interesting finding was that the effects of vitamin D were also significantly greater in people who did not carry the APOEe4 gene, known to present a higher risk for Alzheimer’s dementia, compared to non-carriers. The authors suggest that people who carry the APOE4 gene absorb vitamin D better from their intestine, which might reduce the vitamin D supplementation effect due to higher baseline vitamin D levels. However, no blood levels were drawn to test this hypothesis.

Co-author Dr Byron Creese, at the University of Exeter, said: “Preventing dementia or even delaying its onset is vitally important given the growing numbers of people affected.  The link with vitamin D in this study suggests that taking vitamin D supplements may be beneficial in preventing or delaying dementia, but we now need clinical trials to confirm whether this is really the case.  The ongoing VitaMIND study at the University of Exeter is exploring this issue further by randomly assigning participants to either take vitamin D or placebo and examining changes in memory and thinking tests over time.”

Dr Linus Pauling, the only person ever to win two unshared Nobel Prizes, and the father of modern chemistry, together with Dr Abram Hoffer, who inspired us to set up the Food for the Brain Foundation, first conceptualised ‘orthomolecular medicine’, also called ‘optimum nutrition’ and ‘functional medicine’ as the new paradigm in medicine with nutrition at the centre. He was Patron of the Institute for Optimum Nutrition. Each lived healthily into their 90’s with minds as sharp as razors until the end.

At Food for the Brain those taking the Cognitive Function Test also answer questions about their use, and level of vitamin D, if known. We hope, soon, to start offering vitamin D testing to further research the effects of vitamin D in relation to cognitive decline to be able to track progress both cognitive changes against vitamin D blood levels and intake, to help determine an optimal daily intake or blood level. We are also working with the charitable Grassroots Health Nutrient Research Institute who have tested thousands of people’s blood vitamin D level and are now encouraging them to take Food for the Brain’s Cognitive Function Test. You can join their Vitamin D action group here.

Listen to Patrick Holford’s podcast explaining the role of vitamin D in Alzheimer’s disease here.

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