Showing posts with label memory. Show all posts
Showing posts with label memory. Show all posts

Friday, September 29, 2023

Inhaling pleasant Scents during sleep and boost in Cognition

 

Inhaling Pleasant Scents During Sleep Tied to a Dramatic Boost in Cognition

Batya Swift Yasgur MA, LSW

August 08, 2023

Inhaling a pleasant aroma during sleep has been linked to a "dramatic" improvement in memory, early research suggests.

In a small, randomized control trial researchers found that when cognitively normal individuals were exposed to the scent of an essential oil for 2 hours every night over 6 months, they experienced a 226% improvement in memory compared with a control group who received only a trace amount of the diffused scent.

In addition, functional magnetic resonance imaging (fMRI) showed that those in the enriched group had improved functioning of the left uncinate fasciculus, an area of the brain linked to memory and cognition, which typically declines with age.

"To my knowledge, that level of [memory] improvement is far greater than anything that has been reported for healthy older adults and we also found a critical memory pathway in their brains improved to a similar extent relative to unenriched older adults," senior investigator Michael Leon, PhD, professor emeritus, University of California, Irvine, told Medscape Medical News.

The study was published online July 24,2023 in Frontiers of Neuroscience.

The Brain's "Superhighway"

Olfactory enrichment "involves the daily exposure of individuals to multiple odorants" and has been shown in mouse models to improve memory and neurogenesis, the investigators note.

A previous study showed that exposure to individual essential oils for 30 minutes a day over 3 months induced neurogenesis in the olfactory bulb and the hippocampus.

"The olfactory system is the only sense that has a direct 'superhighway' input to the memory centers areas of the brain; all the other senses have to reach those brain areas through what you might call the 'side streets' of the brain, and so consequently, they have much less impact on maintaining the health of those memory centers."

When olfaction is compromised, "the memory centers of the brain start to deteriorate and, conversely, when people are given olfactory enrichment, their memory areas become larger and more functional," he added.

Olfactory dysfunction is the first symptom of Alzheimer's disease (AD) and is also found in virtually all neurological and psychiatric disorders.

"I've counted 68 of them — including anorexia, anxiety, [attention-deficit/hyperactivity disorder], depressionepilepsy and strokeIn fact, by mid-life, your all-cause mortality can be predicted by your ability to smell things," Leon said.

Leon and colleagues previously developed an effective treatment for autismusing environmental enrichment that focused on odor stimulation, along with stimulating other senses. "We then considered the possibility that olfactory enrichment alone might improve brain function.”

Rose, Orange, Eucalyptus…

For the study, the researchers randomly assigned 43 older adults, aged 60 - 85 years, to receive either nightly exposure to essential oil scents delivered via a diffuser (n = 20; mean [SD] age, 70.1 [6.6] years) or to a sham control with only trace amounts of odorants (n = 23; mean age, 69.2 [7.1] years) for a period of 6 months.

The intervention group was exposed to a single odorant, delivered through a diffuser, for 2 hours nightly, rotating through seven pleasant aromas each week. They included rose, orange, eucalyptus, lemon, peppermint, rosemary, and lavender scents.

All participants completed a battery of tests at baseline, including the Mini-Mental State Examination (MMSE), which confirmed normal cognitive functioning. At baseline and after a 6-month follow-up, participants completed the Rey Auditory Verbal Learning Test (RAVLT) as well as three subsets of the Wechsler Adult Intelligence Scale–Third Edition (WAIS-III).

Olfactory system function was assessed using "Sniffin Sticks," allowing the researchers to determine if olfactory enrichment enhanced olfactory performance.

Participants underwent fMRI at baseline and again at 6 months.

Brain imaging results showed a "clear, statistically significant 226% difference between enriched and control older adults in performance on the RAVLT, which evaluates learning and memory (timepoint × group interaction; F = 6.63; P = .02; Cohen's d = 1.08; a "large effect size").

They also found a significant change in the mean diffusivity of the left uncinate fasciculus in the enriched group compared with the controls (timepoint × group interaction; F = 4.39; P = .043; h 2 p = .101; a "medium-size effect").

The uncinate fasciculus is a "major pathway" connecting the basolateral amygdala and the entorhinal cortex to the prefrontal cortex. This pathway deteriorates in aging and in AD and "has been suggested to play a role in mediating episodic memory, language, socio-emotional processing, and selecting among competing memories during retrieval."

No significant differences were found between the groups in olfactory ability.

Limitations of the study include its small sample size. The investigators hope the findings will "stimulate larger scale clinical trials systematically testing the therapeutic efficacy of olfactory enrichment in treating memory loss in older adults."

Exciting but Preliminary 

Commenting for Medscape Medical News, Donald Wilson, PhD, professor of child and adolescent psychiatry and of neuroscience and physiology, the Child Study Center, NYU Langone Medical Center, New York, said that multiple studies have "demonstrated that problems with sense of smell are associated with and sometimes can precede other symptoms for many disorders, including AD, Parkinson's disease, and depression."

Recent work has suggested that this relationship can be "bidirectional" — for example, losing one's sense of smell might promote depression, while depressive disorder might lead to impaired smell, according to Wilson, also director and senior research scientist, the Emotional Brain Institute, Nathan Kline Institute for Psychiatric Research, who wasn't involved with the study.

This "two-way interaction" may raise the possibility that "improving olfaction could impact non-olfactory disorders."

This paper "brings together" previous research findings to show that odors during bedtime can improve some aspects of cognitive function and circuits that are known to be important for memory and cognition — which Wilson called "a very exciting, though relatively preliminary, finding."

A caveat is that several measures of cognitive function were assessed and only one (verbal memory) showed clear improvement.

Nevertheless, there's "very strong interest now in the olfactory and nonolfactory aspects of odor training and this training expands the training possibilities to sleep. This could be a powerful tool for cognitive improvement and/or rescue if follow-up studies support these findings," Wilson said.

Front Neurosci. Published online July 24, 2023. Full text

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Friday, April 2, 2021

Brain Aging and Magnesium L-Threonate

 

 

Magnesium L-Threonate and Brain Aging

Massachusetts Institute of Technology (MIT) researchers discovered and patented magnesium L-threonate based on its unique ability to boost brain levels of magnesium. Rapid absorption and the ability to enter the brain enables this magnesium to structurally reverse certain aspects of brain aging.(1-4) 

A 2016 human study published in the J Alzheimers Dis. 2016;49(4):971-90, demonstrated the benefits of magnesium L-threonate in adults with cognitive dysfunction, sleep disorders, and anxiety.(1)

The most startling finding is a reversal of more than nine years in clinical measures of brain aging in people who supplemented with magnesium L-threonate. 

Magnesium L-threonate is special because of the way it boosts brain magnesium levels when taken orally. This effect is due to its unique ability to cross the blood-brain barrier.(2)

Research has shown that once magnesium L-threonate gets into the brain, it increases the density of synapses, which are the communication connections between brain cells.(1) This is critical because loss of synaptic density is associated with brain shrinkage and cognitive decline.(5,6)

Published Human Data:

Scientists at three independent institutions carried out a randomized, double-blind, placebo-controlled clinical trial of magnesium L-threonate in older adults with cognitive impairment.(1)

To participate in the study, candidates had to be between the ages of 50 and 70, and have self-reported complaints of memory problems, sleep disorders, and anxiety.(1) This study was based on the premise that sleep and anxiety disorders correlate with perceived memory loss.(7) Those who report mild cognitive impairment and who also have sleep and anxiety disorders are more likely to develop Alzheimer’s.(1,8-11)

In this multi-center study, participants were randomly assigned to receive placebo or magnesium L-threonate in the dose of 1,500-2,000 mg. each day (depending on body weight) for 12 weeks. Baseline cognitive testing commenced before people started taking magnesium L-threonate or placebo. These cognitive tests were then repeated at six-week and 12-week points.(1)

The following four separate tests were used to evaluate cognitive function:

  • Executive function

  • Working memory

  • Attention

  • Episodic memory (ability to recall fleeting events)


Findings from this study revealed:

  1. Magnesium L-threonate improved body magnesium status. After 12 weeks researchers found significant increases in red blood-cell concentration and in urinary excretion of magnesium in the treated group.(1) Increased urinary excretion indicates that large amounts of magnesium have been absorbed, while increased levels in red blood cells show high circulating levels of magnesium in the body.

  2. Magnesium L-threonate improved cognitive abilities. Using a test of visual attention and task switching, researchers saw significant increases in performance speed for executive function and cognitive processing. These benefits appeared as early as week six on some of the tests.(1) Most tellingly, the overall composite scores for all tests of the magnesium L-threonate-supplemented group increased significantly compared with baseline scores and with those of placebo recipients at weeks six and 12.

  3. Magnesium L-threonate reduced fluctuation in cognitive ability. When cognitive functions are worse on some days than others, it is a warning sign of developing mild cognitive impairment.(12,13) In the present study, while placebo recipients showed considerable fluctuation in their cognitive scores, those in the magnesium L-threonate group had primarily positive changes.(1)

  4. Magnesium L-threonate reversed clinical measures of brain aging. This is a significant finding, which which is explained in more detail in the next section.


Understanding Your Brain Age

Brains do not functionally age at the same rate as whole-body chronological age. For example, a 60-year-old person can have a brain age of 70, meaning they are functioning at an “older” level.(1)

This variance of brain aging is based on measurable performance and physiological parameters.(14-17) In the magnesium L-threonate study, the average chronological age of all subjects in the study was 57.8 years. Their average baseline “functional” brain age, however, was estimated to be 68.3 years. In other words, the study subjects were about 10 years older in terms of their cognitive function.(1)

What the researchers found next was remarkable.

The average functional brain age of subjects receiving magnesium L-threonate supplements decreased from an older 69.6 years at the start of the study, to 60.6 after just six weeks of treatment. That’s a nine-year reduction in brain age in a matter of weeks.(1) This improvement continued until week 12 with total reduction in brain age of 9.4 years. By the end of the study, cognitive abilities were brought almost back to normal for their younger chronological age in subjects who took magnesium L-threonate.

In other words, magnesium L-threonate treatment was found to reverse these measured aspects of brain aging until it was nearly identical to their cognitively healthy peers.(1)

Overall, the results of this clinical trial are potentially game-changing for the aging population. The study found that magnesium L-threonate significantly improved cognitive performance on several standardized tests, while reducing the fluctuations in performance that are a warning of developing cognitive impairment in the future. It also showed a reversal of the brain age of magnesium L-threonate-supplemented subjects by nearly a decade.

How Magnesium L-Threonate Regenerates Aging Brains

The study detailed above shows that magnesium L-threonate improved cognitive function in aging adults, and helped “rejuvenate” their brains towards normal function for their age. The key takeaway of this study is that achieving higher brain levels of magnesium results in a younger brain.


References

  1. Liu G, Weinger JG, Lu ZL, et al. Efficacy and Safety of MMFS-01, a Synapse Density Enhancer, for Treating Cognitive Impairment in Older Adults: A Randomized, Double-Blind, Placebo-Controlled Trial. J Alzheimers Dis. 2016;49(4):971-90.

  2. Slutsky I, Abumaria N, Wu LJ, et al. Enhancement of learning and memory by elevating brain magnesium. Neuron. 2010;65(2):165-77.

  3. Abumaria N, Yin B, Zhang L, et al. Effects of elevation of brain magnesium on fear conditioning, fear extinction, and synaptic plasticity in the infralimbic prefrontal cortex and lateral amygdala. J Neurosci. 2011;31(42):14871-81.

  4. Li W, Yu J, Liu Y, et al. Elevation of brain magnesium prevents synaptic loss and reverses cognitive deficits in Alzheimer’s disease mouse model. Mol Brain. 2014;7:65.

  5. Fox NC, Scahill RI, Crum WR, et al. Correlation between rates of brain atrophy and cognitive decline in AD. Neurology. 1999;52(8):1687-9.

  6. Terry RD, Masliah E, Salmon DP, et al. Physical basis of cognitive alterations in Alzheimer’s disease: synapse loss is the major correlate of cognitive impairment. Ann Neurol. 1991;30(4):572-80.

  7. Mitchell AJ. The clinical significance of subjective memory complaints in the diagnosis of mild cognitive impairment and dementia: a meta-analysis. Int J Geriatr Psychiatry. 2008;23(11):1191-202.

  8. Ju YE, McLeland JS, Toedebusch CD, et al. Sleep quality and preclinical Alzheimer disease. JAMA Neurol. 2013;70(5):587-93.

  9. Palmer K, Berger AK, Monastero R, et al. Predictors of progression from mild cognitive impairment to Alzheimer disease. Neurology.2007;68(19):1596-602.

  10. Mander BA, Rao V, Lu B, et al. Prefrontal atrophy, disrupted NREM slow waves and impaired hippocampal-dependent memory in aging. Nat Neurosci. 2013;16(3):357-64.

  11. Apostolova LG, Di LJ, Duffy EL, et al. Risk factors for behavioral abnormalities in mild cognitive impairment and mild Alzheimer’s disease. Dement Geriatr Cogn Disord. 2014;37(5-6):315-26.

  12. Kaduszkiewicz H, Eisele M, Wiese B, et al. Prognosis of mild cognitive impairment in general practice: results of the German AgeCoDe study. Ann Fam Med. 2014;12(2):158-65.

  13. Palop JJ, Chin J, Mucke L. A network dysfunction perspective on neurodegenerative diseases. Nature. 2006;443(7113):768-73.

  14. Cole JH, Leech R, Sharp DJ. Prediction of brain age suggests accelerated atrophy after traumatic brain injury. Ann Neurol.2015;77(4):571-81.

  15. Liem F, Varoquaux G, Kynast J, et al. Predicting brain-age from multimodal imaging data captures cognitive impairment. Neuroimage. 2017;148:179-88.

  16. Lin L, Jin C, Fu Z, et al. Predicting healthy older adult’s brain age based on structural connectivity networks using artificial neural networks. Comput Methods Programs Biomed. 2016;125:8-17.

  17. Luders E, Cherbuin N, Gaser C. Estimating brain age using high-resolution pattern recognition: Younger brains in long-term meditation practitioners. Neuroimage. 2016;134:508-13.

  18. Slutsky I, Sadeghpour S, Li B, et al. Enhancement of synaptic plasticity through chronically reduced Ca2+ flux during uncorrelated activity. Neuron. 2004;44(5):835-49.

  19. Zhou H, Liu G. Regulation of density of functional presynaptic terminals by local energy supply. Mol Brain. 2015;8:42.

  20. Scheff SW, Price DA. Alzheimer’s disease-related alterations in synaptic density: neocortex and hippocampus. J Alzheimers Dis. 2006;9(3 Suppl):101-15.

  21. Anaya-Martinez V, Gutierrez-Valdez AL, Ordonez-Librado JL, et al. The presence of perforated synapses in the striatum after dopamine depletion, is this a sign of maladaptive brain plasticity? Microscopy (Oxf). 2014;63(6):427-35.

  22. Bhatt DH, Zhang S, Gan WB. Dendritic spine dynamics. Annu Rev Physiol. 2009;71:261-82.

  23. Lovden M, Wenger E, Martensson J, et al. Structural brain plasticity in adult learning and development. Neurosci Biobehav Rev.2013;37(9 Pt B):2296-310.

  24. Sale A, Berardi N, Maffei L. Environment and brain plasticity: towards an endogenous pharmacotherapy. Physiol Rev. 2014;94(1):189-234.

  25. Kim YJ, McFarlane C, Warner DS, et al. The effects of plasma and brain magnesium concentrations on lidocaine-induced seizures in the rat. Anesth Analg. 1996;83(6):1223-8.

  26. McKee JA, Brewer RP, Macy GE, et al. Analysis of the brain bioavailability of peripherally administered magnesium sulfate: A study in humans with acute brain injury undergoing prolonged induced hypermagnesemia. Crit Care Med. 2005;33(3):661-6.

  27. Abumaria N, Luo L, Ahn M, et al. Magnesium supplement enhances spatial-context pattern separation and prevents fear overgeneralization. Behav Pharmacol. 2013;24(4):255-63.

  28. Schiller D, Delgado MR. Overlapping neural systems mediating extinction, reversal and regulation of fear. Trends Cogn Sci.2010;14(6):268-76.



     

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    Unlike other brain boosting supplements, which often overstimulate the brain, Magtein® works by nourishing the synapses with magnesium, which helps keep them healthy without overstimulation. The nourishing effects of Magtein® can help your brain think clearly and maintain resiliency.*


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