Neuroenhancement Explained

Neuroenhancement or cognitive enhancement is the experimental use of pharmacological or non-pharmacological methods intended to improve cognitive and affective abilities in healthy people who do not have a mental illness.[1] [2] Agents or methods of neuroenhancement are intended to affect cognitive, social, psychological, mood, or motor benefits beyond normal functioning.

Pharmacological neuroenhancement agents may include compounds thought to be nootropics, such as modafinil,[1] [3] caffeine,[4] and other drugs used for treating people with neurological disorders.[5]

Non-pharmacological measures of cognitive enhancement may include behavioral methods (activities, techniques, and changes),[6] non-invasive brain stimulation, which has been used with the intent to improve cognitive and affective functions,[7] and brain-machine interfaces.[8]

Potential agents

There are many supposed nootropics, most having only small effect sizes in healthy individuals. The most common pharmacological agents in neuroenhancement include modafinil and methylphenidate (Ritalin). Stimulants in general and various dementia treatments[9] or other neurological therapies[10] may affect cognition.

Neuroenhancement may also occur from:

Enhancers are multidimensional and can be clustered into biochemical, physical, and behavioral enhancement strategies.[16]

Modafinil

See main article: Modafinil.

Approved for treating narcolepsy, obstructive sleep apnea, and shift work sleep disorder, modafinil is a wakefulness-promoting drug used to decrease fatigue, increase vigilance, and reduce daytime sleepiness. Modafinil improves alertness, attention, long-term memory, and daily performance in people with sleep disorders.[1] [17]

In sustained sleep deprivation, repeated use of modafinil helped individuals maintain higher levels of wakefulness than a placebo, but did not help attention and executive function.[1] [18] Modafinil may impair one's self-monitoring ability; a common trend found in research studies indicated that participants rated their performances on cognitive tests higher than it was, suggesting an "overconfidence" effect.[1]

Methylphenidate

See main article: Methylphenidate.

Methylphenidate (MPH), also known as Ritalin, is a stimulant that is used to treat attention-deficit hyperactivity disorder (ADHD). MPH is abused by a segment of the general population, especially college students.

A comparison between the sales of MPH to the number of people for whom it was prescribed revealed a disproportionate ratio, indicating high abuse. MPH may impair cognitive performance.[19]

Others

Studies are too preliminary to determine whether there are any cognitive-enhancing effects of agents such as memantine or acetylcholinesterase inhibitors (examples: donepezil, galantamine).[5]

Possible adverse effects

Common drugs intended for neuroehancement are typically well-tolerated by healthy people. These drugs are already in mainstream use to treat people with different kinds of psychiatric disorders.

Assessment to determine potential adverse effects are drop-out rates and subjective rating. The drop-out rates were minimal or non-existent for donepezil, memantine, MPH, and modafinil. In the drug trials, participants reported the following adverse reactions to use of donepezil, memantine, MPH, modafinil or caffeine:[20] gastrointestinal complaints (nausea), headache, dizziness, nightmares, anxiety, drowsiness, nervousness, restlessness, sleep disturbances, and insomnia, diuresis.[21] The side effects normally ceased in the course of treatment. Various factors, such as dosage, timing and concurrent behavior, may influence the onset of adverse effects.

Non-pharmacological

Neurostimulation

Neurostimulation methods are being researched and developed.[7] Results indicate details of the stimulation procedures are crucial, with some applications impairing rather than enhancing cognition and questions being raised about whether this approach can deliver any meaningful results for cognitive domains.[7] Stimulation methods include electrical stimulation, magnetic stimulation, optical stimulation with lasers, several forms of acoustic stimulation, and physical methods like forms of neurofeedback.[7] [16]

Software and media

Applications of augmented reality technologies may affect general memory enhancement, extending perception and learning-assistance.[22] [23] The Internet may be considered a tool for enabling or extending cognition.[24] [25] [26] However, it is not "a simple, uniform technology, [n]either in its composition, [n]or in its use" and, as "an informational resource, currently fails to enhance cognition", partly due to issues that include information overload, misinformation and persuasion.[27]

Quality and social issues

Validation and quality control

See also: Food safety and Health policy. Quality standards, validation and authentication, sampling and lab testing are commonly substandard or absent for products thought to be cognitive enhancers, including dietary supplements.[28] [29] [30] [31]

Well-being and productivity

Neuroenhancement products or methods are used with the intent to:

In popular culture

Neuroenhancement products are mentioned in entertainment productions, such as Limitless (2011), which may to some degree probe and explore opportunities and threats of using such products.[35]

Prevalence

In general, people under the age of 25 feel that neuroenhancement agents are acceptable or that the decision to use them is to be made individually.[36] Healthcare officials and parents feel concerned due to safety factors, lack of complete information on these agents, and possible irreversible adverse effects; such concerns may reduce the willingness to take such agents.[37]

A 2024 study based on a representative sample of more than 20,000 adults in Germany showed that around 70% of those surveyed had taken substances with the aim of improving mental performance within a year, without a medical prescription.[38] The consumption of caffeinated drinks, such as coffee and energy drinks, was widespread (64% of users), expressly with the aim of improving performance, followed by dietary supplements and home remedies, such as ginkgo biloba (31%).[38] Around 4% stated that they had taken prescription drugs for cognitive enhancement (lifetime prevalence of 6%), corresponding to around 2.5 million users in Germany.[38]

A 2016 German study among 6,454 employees found a rather low life-time prevalence of cognitive enhancement prescription drug use (namely 3%), while the willingness to take such drugs was found in 10% of respondents.[39] A survey of some 5,000 German university students found a relatively low 30-day prevalence of 1%, while 2% of those sampled used such drugs within the last 6 months, 3% within the last 12 months, and 5% of others used the drugs over their lifetimes.[37] Of those students who used such substances during the last 6 months, 39% reported their use once in this period, 24% twice, 12% three times, and 24% more than three times.[37] Consumers of neuroenhancement drugs are more willing to use them again in the future due to positive experiences or a tendency towards addiction.[40]

See also

Further reading

Notes and References

  1. Battleday . Ruairidh . Brem . Anna-Katharine. 28 July 2015. Modafinil for cognitive neuroenhancement in healthy non-sleep-deprived subjects: a systematic review. European Neuropsychopharmacology . 25 . 11 . 1865–1881 . 10.1016/j.euroneuro.2015.07.028. 26381811 . 23319688.
  2. Veit . Walter . 2018 . Cognitive Enhancement and the Threat of Inequality . 404–410 . Journal of Cognitive Enhancement . 2 . 4. 10.1007/s41465-018-0108-x . 158643005 . free .
  3. Al-Shargie . Fares . Tariq . Usman . Mir . Hasan . Alawar . Hamad . Babiloni . Fabio . Al-Nashash . Hasan. Vigilance Decrement and Enhancement Techniques: A Review . Brain Sciences . August 2019 . 9 . 8 . 178 . 10.3390/brainsci9080178 . 31357524 . 6721323 . en . 2076-3425. free .
  4. Wood S, Sage JR, Shuman T, Anagnostaras SG . Psychostimulants and cognition: a continuum of behavioral and cognitive activation . Pharmacological Reviews . 66 . 1 . 193–221 . January 2014 . 24344115 . 3880463 . 10.1124/pr.112.007054.
  5. Repantis . Dimitris . Laisney . Oona . Heuser. Isabella. Acetylcholinesterase inhibitors and memantine for neuroenhancement in healthy individuals: A systematic review. Pharmacological Research. June 2010. 61 . 6 . 10.1016/j.phrs.2010.02.009. 20193764. 473–481.
  6. Jangwan . Nitish Singh . Ashraf . Ghulam Md . Ram . Veerma . Singh . Vinod . Alghamdi . Badrah S. . Abuzenadah . Adel Mohammad . Singh . Mamta F.. Brain augmentation and neuroscience technologies: current applications, challenges, ethics and future prospects . Frontiers in Systems Neuroscience . 2022 . 16 . 10.3389/fnsys.2022.1000495. 36211589 . 9538357 . free .
  7. Antal . Andrea . Luber . Bruce . Brem . Anna-Katharine . Bikson . Marom . Brunoni . Andre R. . Cohen Kadosh . Roi . Dubljević . Veljko . Fecteau . Shirley . Ferreri . Florinda . Flöel . Agnes . Hallett . Mark . Hamilton . Roy H. . Herrmann . Christoph S. . Lavidor . Michal . Loo . Collen . Lustenberger . Caroline . Machado . Sergio . Miniussi . Carlo . Moliadze . Vera . Nitsche . Michael A. . Rossi . Simone . Rossini . Paolo M. . Santarnecchi . Emiliano . Seeck . Margitta . Thut . Gregor . Turi . Zsolt . Ugawa . Yoshikazu . Venkatasubramanian . Ganesan . Wenderoth . Nicole . Wexler . Anna . Ziemann . Ulf . Paulus . Walter . Non-invasive brain stimulation and neuroenhancement . Clinical Neurophysiology Practice . 7 . 2022 . 2467-981X . 35734582 . 9207555 . 10.1016/j.cnp.2022.05.002 . 146–165.
  8. Brain–machine interface. Proceedings of the National Academy of Sciences. 2013-11-12. 0027-8424. 3831969. 24222678. 18343. 110. 46. 10.1073/pnas.1319310110. Prashant. Nair. 2013PNAS..11018343N. free.
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  10. Marazziti . Donatella . Avella . Maria Teresa . Ivaldi . Tea . Palermo . Stefania . Massa . Lucia . Della Vecchia . Alessandra . Basile . Lucia . Mucci . Federico. Neuroenhancement: state of the art and future perspectives . Clinical Neuropsychiatry . June 2021 . 18 . 3 . 137–169 . 10.36131/cnfioritieditore20210303. 34909030 . 8629054 .
  11. Daubner . Johanna . Arshaad . Muhammad Imran . Henseler . Christina . Hescheler . Jürgen . Ehninger . Dan . Broich . Karl . Rawashdeh . Oliver . Papazoglou . Anna . Weiergräber . Marco. Pharmacological Neuroenhancement: Current Aspects of Categorization, Epidemiology, Pharmacology, Drug Development, Ethics, and Future Perspectives . Neural Plasticity . 13 January 2021 . 2021 . 1–27 . 10.1155/2021/8823383 . 33519929 . 7817276 . en . 1687-5443. free .
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  13. Buckner . Julia D. . Morris . Paige E. . Abarno . Cristina N. . Glover . Nina I. . Lewis . Elizabeth M.. Biopsychosocial Model Social Anxiety and Substance Use Revised . Current Psychiatry Reports . 17 April 2021 . 23 . 6 . 35 . 10.1007/s11920-021-01249-5 . 33864136 . 233261493 . en . 1535-1645.
  14. Book: Tennison . Michael N. . Moreno . Jonathan D. . The Routledge Handbook of Neuroethics . Neuroenhancement and Therapy in National Defense Contexts. 2017 . 150–165 . 10.4324/9781315708652-12 . 978-1-315-70865-2 .
  15. Book: Budde . Henning . Wegner . Mirko . The Exercise Effect on Mental Health: Neurobiological Mechanisms . 17 April 2018 . CRC Press . 978-1-4987-3953-5 . en.
  16. Dresler . Martin . Sandberg . Anders . Bublitz . Christoph . Ohla . Kathrin . Trenado . Carlos . Mroczko-Wąsowicz . Aleksandra . Kühn . Simone . Repantis . Dimitris . Hacking the Brain: Dimensions of Cognitive Enhancement . ACS Chemical Neuroscience . 20 March 2019 . 10 . 3 . 1137–1148 . 10.1021/acschemneuro.8b00571 . 30550256 . 6429408 . en . 1948-7193.
  17. Okechukwu . Chidiebere Emmanuel . Okechukwu . Chidubem Ekpereamaka . Torre . Giuseppe La . 2022-10-02 . Effectiveness of bright light exposure, modafinil and armodafinil for improving alertness during working time among nurses on the night shift: A systematic review . International Journal of Healthcare Management . en . 15 . 4 . 336–346 . 10.1080/20479700.2022.2054508 . 2047-9700. 11573/1625188 . 247814079 . free .
  18. Repantis. Dimitris. Schlattmann, Peter. Modafinil and methylphenidate for neuroenhancement in healthy individuals: A systematic review. Pharmacological Research . 2010 . 62 . 10.1016/j.phrs.2010.04.002 . 3. 187–206. 20416377.
  19. Chien . Chien . Liu . Wu . Chang . Wu . 2019-10-24 . Effects of Methylphenidate on Cognitive Function in Adults with Traumatic Brain Injury: A Meta-Analysis . Brain Sciences . en . 9 . 11 . 291 . 10.3390/brainsci9110291 . 31653039 . 2076-3425 . free . 6895997 .
  20. Becker . Maxi . Repantis . Dimitris . Dresler . Martin . Kühn . Simone . October 2022 . Cognitive enhancement: Effects of methylphenidate, modafinil, and caffeine on latent memory and resting state functional connectivity in healthy adults . Human Brain Mapping . en . 43 . 14 . 4225–4238 . 10.1002/hbm.25949 . 1065-9471. free . 35670369 . 9435011 .
  21. Repantis . Dimitris . Bovy . Leonore . Ohla . Kathrin . Kühn . Simone . Dresler . Martin . February 2021 . Cognitive enhancement effects of stimulants: a randomized controlled trial testing methylphenidate, modafinil, and caffeine . Psychopharmacology . en . 238 . 2 . 441–451 . 10.1007/s00213-020-05691-w . 0033-3158. free . 33201262 . 7826302 . 21.11116/0000-0007-453B-A . free .
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  32. Marois . Alexandre . Lafond . Daniel . Augmenting cognitive work: a review of cognitive enhancement methods and applications for operational domains . Cognition, Technology & Work . 1 November 2022 . 24 . 4 . 589–608 . 10.1007/s10111-022-00715-1 . 252372408 . en . 1435-5566.
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