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Friday, 8 December 2023

Walnuts for Brain Health in Aging and ADHD, but in Autism?

 

Source: Ivar Leidus - Own work, CC BY-SA 4.0,  https://commons.wikimedia.org/w/index.php?curid=98723321

 

Diet does seem to be the most popular intervention for autism and it does appear to give benefits, particularly in those with milder autism.

There are lessons to be learnt from healthy aging, when looking at how to optimise brain function in those with a neurodevelopmental disorder like autism.

As we age, multiple processes in the body start to function sub-optimally and this pretty much determines our healthy life expectancy. There are overlaps between features of this sub-optimal function (oxidative stress, mitochondrial dysfunction, neuroinflammation etc) and what is present in people with level 3 autism and/or intellectual disability.

The dietary keys to healthy aging:

A healthy varied diet rich in fruits, berries, vegetables, whole grains, legumes and nuts.

Healthy fats and lean protein.

To this we have to add all those herbs and spices.

Herbs, in large quantities, are a key element of the Mediterranean diet and are often omitted by people trying to copy this diet. I still remember meeting our reader Petra in Greece and receiving her gift of olive oil and oregano – it was a huge bag of oregano, not the size you might find in a supermarket in Northern Europe.

The healthy Okinawa diet is distinguished by low-calorie intake, fish, very little meat, fermented food (like natto), not to forget the seaweed. They also consume large amounts of a purple sweet potato. Okinawan sweet potatoes, also known as purple sweet potatoes, are a type of sweet potato that is native to Okinawa. They are characterized by their deep purple flesh, which is due to the presence of anthocyanins, a type of antioxidant.

I have to say that having visited an island in the Okinawa archipelago they also have some very unhealthy food adopted from US military bases. Spam sushi was everywhere, as are US style fast food outlets, with over-sized burgers. I found it hard going eating fish three times a day, albeit those small amounts.

 


Greece is no different, there are older Greeks with healthy traditional diets, but no shortage of giros and souvlaki joints catering to the locals and the tourists alike.

 

 

Nuts!  Not just at Christmas



Nuts are on the list of healthy foods, but I think most people neglect them.

It is difficult to incorporate sufficient nuts into your diet unless you are going to spend time eating them by the handful.

Incorporating large amounts of herbs like oregano, basil, sage, rosemary, thyme, parsley, mint etc is not so hard and you end up with much tastier food. They provide numerous health benefits. 

I was very surprised to find that there was so much evidence to support the humble walnut.

I was also surprised where some of the evidence comes from.

I did exchange emails many years ago with Abha Chauhan, a well-known researcher at the Institute for Basic Research in Developmental Disabilities in New York. She has written some very cutting edge research about oxidative stress.

She turns out to be a fan of walnuts.

She does actually list nutrition among her research interests:-

Alzheimer's disease, amyloid, free radicals, glutathione, mitochondria, nutrition, oxidative stress, protein kinases

 Her paper is here:-

Beneficial Effects of Walnuts on Cognition and Brain Health


I did previously wonder why New York has a research center into intellectual disabilities. Here is some information.

 

The Institute for Basic Research in Developmental Disabilities (IBR) is a proud part of New York State’s long history of caring for its citizens with developmental disabilities. It was in the 1940s and 1950s that the idea of creating an institute dedicated to studies in mental retardation was first discussed. In 1958, enabling legislation was passed for the creation of the Institute for Research in Mental Retardation within the New York State Department of Mental Hygiene. Ground was broken for the Institute’s research tower in 1964, and when its first laboratories opened in 1968, IBR was the first large-scale institute in the world with the mandate to conduct basic and clinical research into the causes of mental retardation. IBR became part of OPWDD, then known as the New York State Office of Mental Retardation and Developmental Disabilities (OMRDD) in 1979; a year later, it was renamed the Institute for Basic Research in Developmental Disabilities to reflect OMRDD’s broader focus on many developmental disabilities.  

Research is always good, but what really matters is translating it to therapy. How about actually getting kids with autism treated for oxidative stress? This I recall discussing with Abha and her response was that the funding is lacking for clinical trials. My response was that she could always give Mike Bloomberg a call.  How much money do you really need? 


Abha, Alzheimer’s and the walnut

As we saw Alzheimer’s was number one on Abha’s research interests. Here we have her paper suggesting walnuts for Alzheimer’s.

 

Benefits of a diet with walnuts in Alzheimer’s disease

Alzheimer’s disease is a severe neurodegenerative disorder, responsible for 60-70% of cases of dementia. The most common symptoms are memory loss, disorientation and loss of cognition. To date, there is no known cure for this disease, but Dr Abha Chauhan, based at the New York State Institute for Basic Research in Developmental Disabilities, New York, USA, has shown how supplementation with walnuts in the diet can help Alzheimer’s mice slow down the development of the disease. Her research demonstrates that walnuts can limit the oxidative stress characteristic of this condition, as well as promote the body’s natural antioxidant defence mechanisms. 

Based on these results, it’s reasonable to suggest that supplementation with walnuts may help in reducing the risk of developing Alzheimer’s disease, delaying its onset and/or slowing its progression due to the antioxidant and anti-inflammatory effects of different components of walnuts. At the very least, these results indicate that it may be worth conducting similar studies in humans.

 

It’s difficult to say at this stage what exactly in the walnut is responsible for these benefits, but in addition to antioxidants in walnuts, ALA (omega-3 fatty acid) may also be a contributing factor. While most nuts contain monounsaturated fats, only walnuts consist primarily of polyunsaturated fat, of which ALA is the main constituent. This fatty acid is the precursor of vital fatty acids, important for regulating serotonin and dopamine concentrations, as well as modulating key inflammatory and immune functions.

 

Beneficial Effects of Walnuts on Cognition and Brain Health

Oxidative stress and neuroinflammation have important roles in the aging process, mild cognitive impairment (MCI), Alzheimer’s disease (AD), and other brain disorders. Amyloid beta protein (Aβ) is the main component of amyloid plaques in the brains of people with AD. Several studies suggest that Aβ increases the generation of free radicals in neurons, which leads to oxidative damage and cell death. Aβ can also induce neuroinflammation by increasing pro-inflammatory cytokines and enzymes. Walnuts contain several components that have antioxidant and anti-inflammatory effects. Animal and human studies from our and other groups suggest that supplementation with walnuts in the diet may improve cognition and reduce the risk and/or progression of MCI and AD. In the transgenic AD mouse model (AD-tg), we have reported the beneficial effects of a diet with walnuts on memory, learning, motor coordination, anxiety, and locomotor activity. Human clinical trials have also suggested an association of walnut consumption with better cognitive performance and improvement in memory when compared to baseline in adults. Our recent study in AD-tg mice has shown that a walnut-enriched diet significantly improves antioxidant defense and decreases free radicals’ levels, lipid peroxidation, and protein oxidation when compared to a control diet without walnuts. These findings suggest that a diet with walnuts can reduce oxidative stress by decreasing the generation of free radicals and by boosting antioxidant defense, thus resulting in decreased oxidative damage to lipids and proteins. An in vitro study with synthetic Aβ showed that walnut extract can inhibit Aβ fibrillization and solubilize the preformed Aβ fibrils, suggesting an anti-amyloidogenic property of walnuts. Because it takes many years for cognitive impairment and dementia to develop, we suggest that early and long-term dietary supplementation with walnuts may help to maintain cognitive functions and may reduce the risk of developing, or delay the onset and/or slow the progression of, MCI and dementia by decreasing Aβ fibrillization, reducing oxidative damage, increasing antioxidant defense, and decreasing neuroinflammation. Furthermore, several animal and human studies have suggested that walnuts may also decrease the risk or progression of other brain disorders such as Parkinson’s disease, stroke, and depression, as well as of cardiovascular disease and type 2 diabetes. Together, these reports suggest the benefits of a walnut-enriched diet in brain disorders and in other chronic diseases, due to the additive or synergistic effects of walnut components for protection against oxidative stress and inflammation in these diseases.

  

Walnuts for teenagers? 

That’s Nuts! Eating Walnuts Regularly Improves Cognitive Development and Psychological Maturation in Teens

Summary: Teens who added walnuts to their diet for 100 days showed improvements in attention function, and for those with ADHD, frequent walnut consumption was associated with improvements in behavior. Researchers also noted an increase in fluid intelligence in those who frequently consumed walnuts as part of their daily diet.

  

Walnuts May Help Teens with Maturity, Thinking, and Attention

 

Effect of walnut consumption on neuropsychological development in healthy adolescents: a multi-school randomised controlled trial

Background

Omega-3 fatty acids are critical for neuropsychological functioning. Adolescence is increasingly believed to entail brain vulnerability to dietary intake. The potential benefit on adolescent neurodevelopment of consuming walnuts, a source of omega-3 alpha-linolenic acid (ALA), remains unclear.

Methods

We conducted a 6-month multi-school-based randomised controlled nutrition intervention trial to assess whether walnut consumption has beneficial effects on the neuropsychological and behavioural development of adolescents. The study took place between 04/01/2016 and 06/30/2017 in twelve different high schools in Barcelona, Spain (ClinicalTrials.gov Identifier: NCT02590848). A total of 771 healthy teenagers aged 11–16 years were randomised into two equal groups (intervention or control). The intervention group received 30 g/day of raw walnut kernels to be incorporated into their diet for 6 months. Multiple primary endpoints concerning neuropsychological (working memory, attention, fluid intelligence, and executive function) and behavioural (socio-emotional and attention deficit hyperactivity disorder [ADHD] symptoms) development were assessed at baseline and after intervention. Red blood cell (RBC) ALA status was determined at baseline and 6 months as a measure of compliance. Main analyses were based on intention-to-treat using a linear mixed-effects model. A per-protocol effect of the intervention was analysed using inverse-probability weighting to account for post-randomisation prognostic factors (including adherence) using generalised estimating equations.

Findings

In intention-to-treat analyses, at 6 months there were no statistically significant changes between the intervention and control groups for all primary endpoints. RBC ALA (%) significantly increased only in the intervention group, coefficient = 0.04 (95% Confidence Interval (CI) = 0.03, 0.06; p < 0.0001). The per-protocol (adherence-adjusted) effect on improvement in attention score (hit reaction time variability) was −11.26 ms (95% CI = −19.92, −2.60; p = 0.011) for the intervention group as compared to the control group, improvement in fluid intelligence score was 1.78 (95% CI = 0.90, 2.67; p < 0.0001), and reduction of ADHD symptom score was −2.18 (95% CI = −3.70, −0.67; p = 0.0050).

Interpretation

Our study suggested that being prescribed eating walnuts for 6 months did not improve the neuropsychological function of healthy adolescents. However, improved sustained attention, fluid intelligence, and ADHD symptoms were observed in participants who better complied with the walnut intervention. This study provides a foundation for further clinical and epidemiological research on the effect of walnuts and ALA on neurodevelopment in adolescents.  

Walnuts for Autism? 

I did find a case study from the Middle East putting forward reasons why walnuts and pumpkin may benefit some types of autism.  It was not a robust study, but I was surprised to find anything at all on this subject. 

Effects of Walnut and Pumpkin on Selective Neurophenotypes of Autism Spectrum Disorders: A Case Study

Special diets or nutritional supplements are regularly given to treat children with autism spectrum disorder (ASD). The increased consumption of particular foods has been demonstrated in numerous trials to lessen autism-related symptoms and comorbidities. A case study on a boy with moderate autism who significantly improved after three years of following a healthy diet consisting of pumpkin and walnuts was examined in this review in connection to a few different neurophenotypes of ASD. We are able to suggest that a diet high in pumpkin and walnuts was useful in improving the clinical presentation of the ASD case evaluated by reducing oxidative stress, neuroinflammation, glutamate excitotoxicity, mitochondrial dysfunction, and altered gut microbiota, all of which are etiological variables. Using illustrated figures, a full description of the ways by which a diet high in pumpkin and nuts could assist the included case is offered.

This case study does not support broad food treatments as a treatment for ASD, but it does imply that specialized dietary interventions over time may play a role in the management of certain ASD symptoms, functions, and clinical domains. The pumpkin/walnut healthy diet improved nutritional status, presumably increasing the brain’s ability to function and learn by reducing oxidative stress, neuroinflammation, glutamate excitotoxicity, mitochondrial dysfunction, and altered gut microbiota, all of which are etiological mechanisms behind the clinical presentation of ASD.   

Impact of Nut Consumption on Cognition across the Lifespan 

Cognitive health is a life-long concern affected by modifiable risk factors, including lifestyle choices, such as dietary intake, with serious implications for quality of life, morbidity, and mortality worldwide. In addition, nuts are a nutrient-dense food that contain a number of potentially neuroprotective components, including monounsaturated and polyunsaturated fatty acids, fiber, B-vitamins, non-sodium minerals, and highly bioactive polyphenols. However, increased nut consumption relates to a lower cardiovascular risk and a lower burden of cardiovascular risk factors that are shared with neurodegenerative disorders, which is why nuts have been hypothesized to be beneficial for brain health. The present narrative review discusses up-to-date epidemiological, clinical trial, and mechanistic evidence of the effect of exposure to nuts on cognitive performance. While limited and inconclusive, available evidence suggests a possible role for nuts in the maintenance of cognitive health and prevention of cognitive decline in individuals across the lifespan, particularly in older adults and those at higher risk. Walnuts, as a rich source of the plant-based polyunsaturated omega-3 fatty acid alpha-linolenic acid, are the nut type most promising for cognitive health. Given the limited definitive evidence available to date, especially regarding cognitive health biomarkers and hard outcomes, future studies are needed to better elucidate the impact of nuts on the maintenance of cognitive health, as well as the prevention and management of cognitive decline and dementia, including Alzheimer disease.

   

Conclusion

We are told in dietary advice from public health authorities that we should include nuts in our daily diet. The suggested daily amount is about 30 grams (1 ounce).

If you had to choose one nut, it looks like the walnut is the one most likely to help the brain.

Teenagers with ADHD are suggested to benefit in the research from Spain.

Abha Chauhan over in New York is a proponent of walnuts for potentially slowing down Alzheimer’s disease.

Whether walnuts may benefit some with autism is an open question, but there are reasons to believe that it should. Over in Abu Dhabi one autism practitioner is suggesting combining walnuts with pumpkin for optimal effect. 

Ensuring healthy aging with diet and exercise is actually very straight forward, but most people still choose not to do it.

Treating severe autism is much more hit and miss, but many of those who persevere see good results.






33 comments:

  1. Thank you for the post, Peter.

    Dr. Steven R. Gundry has published the book 'Unlocking the Keto Code.' You can find several interviews about the book on YouTube.

    Essentially, Dr. Steven R. Gundry states that some of the benefits of the keto diet are not related to the commonly held belief that ketones are an extraordinary energy alternative. Instead, he suggests that MCT oil can signal the uncoupling of mitochondria, reducing their workload.

    There are many foods that can interact with receptors like PPARs and produce benefits: MCT, BHB, omega-3 (flaxseed oil), PEA, etc.

    Our experience with PEA is very positive so far; we've conducted some trials (introducing and removing PEA multiple times) and are now very confident about its effectiveness on Rett Syndrome. The only aspect remaining is to determine the optimal dosage and understand the long-term safety profile more clearly.

    Kind regards,
    Daniel

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    Replies
    1. Daniel, PEA is interesting and it works in several complimentary ways. It affects numerous receptors implicated in "autism". It is beneficial in a wide range of conditions that affect the brain.

      Hopefully your findings can be generalized to all Rett Syndrome, then you will deserve a medal.

      In broader autism it seems to benefit some, but not others - like every other therapy.

      The ketogenic diet is my favorite special diet, again it benefits different people for completely different reasons. It has been around for very many years.

      Delete
    2. I'm not sure if anyone will be able to comment on this, but I've read that PEA works on similar systems as Marijuana. With marijuana it's shown to increase the likelihood of psychosis specifically in people who have a family history of schizophrenia or bipolar. I know Autistic individuals often come from a family with such history of mental illness.Does anyone have insight into whether PEA could contribute to psychosis similarly as marijuana?

      Delete
    3. This article seems potentially relevant

      https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10390736/

      Delete
    4. interesting article on PEA, thanks for sharing, but key highlight seems to be how PEA helps for the psychosis patients. Can't locate the conclusion to say PEA is also triggering psychosis. am i missing it?

      P.S. I started PEA with my 7yrs old 4 days ago.

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    5. This article does seem to be supportive of PEA, I'm just trying to be super cautious since we have a lot of schizophrenia in the extended family and I've always stayed away from marijuana due to it possibly increasing the odds of psychosis. I bought some PEA, and may trial it soon on my autistic 4 year old that struggles much with speech and language. Have you seen any results with your trial yet? Do you have any recommendations for how long to trial and what dosage? Thanks!

      Delete
    6. I started with Glialia, 400mg, once a day, after morning meal. 1 week so far, no obvious change but studies indicate that the effect is not immediate. So fingers crossed. I hope Peter keep me right here if any insight he has from studies on taking different approach/schedule.

      I was in between emodin or PEA for speech. Did choose PEA as safer option, as some studies on emodin indicated potential side effect on liver (elevated AST/ALT, liver markers).

      Delete
  2. This year we did major diet changes . We went from a child eating 3 times weetabix in a day to no more cereals. Its tough but not impossible. Diet has improved and played a major role in my child's mild ASD. My child now eats healthy food mostly. 3 eggs, sardines or salmon fry, chicken fry in breakfast. Mostly homecooked. Lunch at school, . This diet helped . This year we had no high fevers. Not been on antibiotics. Mild cold coughs.
    No need to be strict like SCD ,gluten free or diary free, . I have tried them n it was very restricting costly, time consuming. Stopping the breakfast cereals is the best thing i did.
    Eggs, avacado, sardines, salmon, lamb, chicken etc. I will add daily walnuts . Its a pain to remember to soak n peel their skin but will try .
    Thanks for the post Peter.

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    Replies
    1. A healthy diet is often not the easy option, but it pays off in the long term. Restrictive diets need to be broadened, otherwise they may persist into adulthood and then you have fully functional people who say things like they can only eat beige colored food.

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  3. Oxidative stress does seem to be a huge issue in so much disease.

    Other people I follow think that PUFAs are bad due to their ability to be oxidised (I wanted to add a wiki link here, but I can't find it or it's changed), there's the idea that ALA is not as useful as DHA/EPA and most nuts also have a fairly high amount of omega-6 compared to omega-3. So currently I almost never eat nuts. I do try to eat a variety of veg (not a huge amount or variety, admittedly) and use herbs and spices. Hopefully nutrition science will come closer to consensus on these issues in the future ...

    Aspie2

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    1. There are indeed lots of contradictory messages particularly about EPA vs DHA.

      When it comes to oxidative stress Abha Chauhan is one of the top researchers. I think if she it telling us to eat walnuts, we should listen.

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  4. Ha, as soon as I submit I find a wiki link to include:
    https://en.wikipedia.org/wiki/Polyunsaturated_fat#Peroxidation

    "The chain reaction mechanism of lipid peroxidation primarily targets polyunsaturated fatty acids due to their multiple double bonds"

    It seems like this means PUFAs are bad if we want to limit oxidative stress?

    Aspie2

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  5. A question. When a person functions normal(for that specific person), but has a couple of days with more interaction with friends.
    If then the after this, the person gets what could be called an autistic burnout, where several things stops functioning, example in my child is loss of words, easily gets agitaged, more sensitive to all stimulis. Also tantrums with screaming, hitting, not able to walk or use hands, can not even node or shake head at questions.
    I wonder what have happened in the brain?
    Is something depleted, high oxidation, extreme need for sleep.
    Could something more help then more sleep and calm days...
    Maybe nac or some other supplement, medicine, food.

    Does anyone have anything that has helped, or any theories?

    And of course, the step before is to see to that the person does not get into this state to begin with. But it will always happen from time to time, and it would be nice to have some hands on strategies.

    Br Thomas

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    Replies
    1. Mitochondrial dysfunction. Look up Richard Frye on YouTube and watch his videos. He has some suggestions

      Delete
    2. Mitochondrial dysfunction. Look up Richard Frye on YouTube and watch his videos. He has some suggestions

      Delete
    3. Some people with autism need space for themselves and to have a stable routine. When this balance is disturbed by a change in surroundings or different people they get stressed. This will trigger biological changes because there was a shock to their system.

      Avoid the stress by managing the changes so that the person has some familiar activities that remain constant.

      People with autism do need to have their comfort zone stretched, but this needs to be gradual and to occur on a regular basis, then they will increase their tolerance to change.

      Delete
    4. I would just add that potassium seems to be useful in reducing sensory overload which might help some of the frustration.

      Delete
  6. Hi Peter,
    Have you ever heard of anyone having a reaction to sodium butyrate? I gave it to my son and both times I gave it to him he had diarrhea a couple hours after he had it and started running around the house in a panic saying he was scared. The first time I thought it was a coincidence so I tried it the next day but then when the same thing happened I figured it must be an intolerance or allergy. When I googled it it looked like it could be due to a food allergy but it sounds like many foods have butyrate…so I am confused. Do you think he has some general food tolerance that I should be giving him digestive enzymes for? I am so confused. I have ibs and love sodium butyrate and figured my son would be the same but I guess not…
    Thanks for your help !
    Shana

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    Replies
    1. Shana strange things seem quite common in autism. One mother told me her son had a negative reaction to NAC, it turned out this brand contains other things which caused the negative reaction. With the second brand of NAC there were only good effects.

      Sodium butyrate has a long list of positive effects. But a negative reaction is always possible. I would try a different brand and see what happens.

      Delete
    2. My daughter is 18 yo, and she had stomach bloat and colics after the half capsule of butirat
      She was clearly upset and worried about that pain. I didn't try again, I was frightened, although she was clearly smarter another two days.
      Whatever distends her bowels leads to pain, fear, dizzines and - believe it or not – better cognition.

      Delete
  7. Hi Peter and readers of the blog,

    My son’s Whole Exome sequencing reveals a mutation in AUTS2 gene and we are learning about the gene function. It is inherited from a parent who is not affected (no Autism or Asperger’s). There seems to be very little known but a key function of this is controlling E/I balance - https://www.sciencedirect.com/science/article/pii/S2589004220303680 -I am thinking he might respond to Bumetanide. Trying to make a case for it with our Pediatrician (based in the US) . Have you come across this gene in your research?

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    Replies
    1. This gene was given its name because it was thought to be a causal autism gene. Later it was found only sometimes to cause autism, but very often it causes intellectual disability.

      Normally is causes a small head, but in your paper they say it is associated with a dense dendritic spine network, when you might expect the opposite

      An E/I imbalance is a key feature of autism as it is in ID and epilepsy. There are many underlying causes and bumetanide only addresses one of them. It is definitely worth making a trial.

      The number and shape of dendritic spines is constantly changing and if this was key to your disorder you could try and change it. Wnt signaling is one way to do this. Many common drugs do affect Wnt signaling. Celecoxib and Mebendazole are examples.

      Treating autism is full of surprises and indeed contradictions. It is best to start early and just make short trials to see what helps.

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    2. Thank you Peter. Still in the learning basics phase here - my son's WES indicates mutations on various genes (some of which like MED12L and CSMD1 show up in your blog). The impact of these mutations seem to protein substitutions - ex: p.Leu6Val - where Leucine is substituted with Valine. The question now is - how does one determine if there are any pharmacological interventions for such substitutions? The Genetic counselling we were offered is not actionable. So trying to see how I can use this information to help my son. I am unable to find anything concrete w.r.t Gene therapy/ Crispr pipeline candidates for the mutations. Wondering if chasing these missense mutation is even worthwhile?

      Delete
    3. Use a resource like www.genecards.org to learn about each gene that has a mutation.

      Delete
  8. Additionally there is no abnormality of the substituted Amino acids from these mutations in the Plasma Amino Acids test. So don't know if I should be supplementing with any specific Amino acid here. Also the Plasma Amino Acid test indicated elevated Methionine (42 - where normal is 10-40 mcmol/L) and Arginine (161 - where normal is 30-130 mcmol/L). The report stated higher level of Arginine elevation is "mild" and has "unclear significance". The clinician thought may be higher protein in diet could result in this. Any ideas what can help bring this down to "normal" range?

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    1. Bringing arginine levels down to the normal range may not be beneficial and just start you off in an endless loop. Inflammatory conditions or infections may cause an increase in arginine levels as part of the body's immune response.

      If you were to lack certain amino acids that might cause you a problem and that is the basis for pancreatic enzymes as a therapy. This has reappeared in the research recently:-


      Pancreatic Replacement Therapy for Maladaptive Behaviors in Preschool Children With Autism Spectrum Disorder
      https://pubmed.ncbi.nlm.nih.gov/38032645/

      Objectives: To evaluate whether treatment of children with ASD aged 3 to 6 years treated with high-protease pancreatic therapy produces long- and short-term improvements in autism-associated maladaptive behaviors.

      Conclusions and relevance: This cohort study of preschool children sustained cumulative reduction in the maladaptive behavior of irritability in autism. This delayed-start analysis, used to demonstrate disease and condition modification, may prove to be an important tool to evaluate treatments for ASD.

      Delete
  9. Hi Peter, Happy New Year! Wish you and your family brilliant year. And wish all the ASD parents here resilience and positive outcomes in their efforts for kids.

    Peter, one question i have, do you know whether walnut oil will do the most? or does it have to be whole walnut. i did but walnut spread (100% walnut), tried myself, dont thing my daughter will enjoy it or i mean she wont eat that. But i can convince her with tablespoon of oil. But not sure if walnut oil will have same effect. Thanks.

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    Replies
    1. There are studies showing that walnut oil does share some of the benefits of actual walnuts. Nobody has compared the effects directly.

      Better walnut oil than no walnuts at all. Give it a try.

      Delete
    2. Hi Peter, I am reading about how excessive free glutamate in the brains of children with ASD can worsen behaviors. Walnuts come up as one of the sources that should be avoided in this regard. Is there a way to reduce the glutamate content of walnuts? https://www.webmd.com/diet/high-glutamate-foods

      Delete
    3. Glutamate levels in the brain are 100 times higher than in your blood.

      Glutamate does not cross the blood brain barrier.

      https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3136011/#:~:text=This%20explains%20studies%20that%20show,fenestrated%20capillaries%20(circumventricular%20organs)

      So glutamate in diet should not be a big worry.

      Delete
    4. Thank you. My reference for Glutamate imbalance was https://tacanow.org/family-resources/glutamate/ - I had not considered BBB. I guess the positive responders to low glutamate diet, likely had permeable BBB and/or low Glutamate diet helped directly or through some indirect action.

      Delete
    5. Indirect action is certainly possible.

      For most people nuts and walnuts in particular, are a healthy choice. There will always be exceptions. Taking NAC is much simpler.

      Delete
  10. Hi Peter,

    I think the pumpkin acts similar to the lipitor.

    https://pubmed.ncbi.nlm.nih.gov/29702167/

    -Stephen

    Also, walnut increases nrf-1

    https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9099939/

    ReplyDelete

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