Memory enhancement

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Memory enhancement is defined as an improvement in a person's ability to recall or retain memories.[1][2][3][4] The experience of this effect can make it easier for a person to access and remember past memories at a greater level of detail when compared to that of everyday sober living. It can also help one retain new information that may then be more easily recalled once the person is no longer under the influence of the psychoactive substance.

Memory enhancement is often accompanied by other coinciding effects such as analysis enhancement and thought acceleration. It is most commonly induced under the influence of moderate dosages of stimulant and nootropic compounds, such as methylphenidate,[5] caffeine,[3] Noopept,[6] nicotine,[7] and modafinil.[8]

Types

Different substances can enhance different kinds of memory with some considerable overlap. Generally, there are three types:

  • Long-term memory: A vast store of knowledge and a record of prior events.[9]
  • Short-term memory: Faculties of the human mind that can hold a limited amount of information in a very accessible state temporarily.[9][10][11]
  • Working memory: Information used to plan and carry out behavior. Not completely distinct from short-term memory, it's generally viewed as the combination of multiple components working together. Measures of working memory have been found to correlate with intellectual aptitudes (and especially fluid intelligence) better than measures of short-term memory and, in fact, possibly better than measures of any other particular psychological process. Both storage and processing have to be engaged concurrently to assess working memory capacity, which relates it to cognitive aptitude.[9][10][11][12][13]

Psychoactive substances

Compounds within our psychoactive substance index which may cause this effect include:

Experience reports

Annectdotal reports which describe this effect with our experience index include:

See also

External links

References

  1. Mondadori, Cesare; Möbius, Hans-Jörg; Borkowski, Jürgen (1996). "The GABAB receptor antagonist CGP 36 742 and the nootropic oxiracetam facilitate the formation of long-term memory". Behavioural Brain Research. 77 (1-2): 223–225. doi:10.1016/0166-4328(95)00222-7. ISSN 0166-4328. 
  2. Ilieva, Irena P.; Hook, Cayce J.; Farah, Martha J. (2015). "Prescription Stimulants' Effects on Healthy Inhibitory Control, Working Memory, and Episodic Memory: A Meta-analysis". Journal of Cognitive Neuroscience. 27 (6): 1069–1089. doi:10.1162/jocn_a_00776. ISSN 0898-929X. 
  3. 3.0 3.1 Borota, Daniel; Murray, Elizabeth; Keceli, Gizem; Chang, Allen; Watabe, Joseph M; Ly, Maria; Toscano, John P; Yassa, Michael A (2014). "Post-study caffeine administration enhances memory consolidation in humans". Nature Neuroscience. 17 (2): 201–203. doi:10.1038/nn.3623. ISSN 1097-6256. 
  4. Morgan, Annette; Stevens, John (2010). "Does Bacopa monnieri Improve Memory Performance in Older Persons? Results of a Randomized, Placebo-Controlled, Double-Blind Trial". The Journal of Alternative and Complementary Medicine. 16 (7): 753–759. doi:10.1089/acm.2009.0342. ISSN 1075-5535. 
  5. Mehta, Mitul A.; Owen, Adrian M.; Sahakian, Barbara J.; Mavaddat, Nahal; Pickard, John D.; Robbins, Trevor W. (2000). "Methylphenidate Enhances Working Memory by Modulating Discrete Frontal and Parietal Lobe Regions in the Human Brain". The Journal of Neuroscience. 20 (6): RC65–RC65. doi:10.1523/JNEUROSCI.20-06-j0004.2000. ISSN 0270-6474. 
  6. Ostrovskaia, R. U., Gudasheva, T. A., Voronina, T. A., Seredenin, S. B. (October 2002). "[The original novel nootropic and neuroprotective agent noopept]". Eksperimental’naia I Klinicheskaia Farmakologiia. 65 (5): 66–72. ISSN 0869-2092. 
  7. Heishman, Stephen J.; Kleykamp, Bethea A.; Singleton, Edward G. (2010). "Meta-analysis of the acute effects of nicotine and smoking on human performance". Psychopharmacology. 210 (4): 453–469. doi:10.1007/s00213-010-1848-1. ISSN 0033-3158. 
  8. Müller, Ulrich; Steffenhagen, Nikolai; Regenthal, Ralf; Bublak, Peter (2004). "Effects of modafinil on working memory processes in humans". Psychopharmacology. 177 (1-2): 161–169. doi:10.1007/s00213-004-1926-3. ISSN 0033-3158. 
  9. 9.0 9.1 9.2 Cowan, Nelson (2008). "Chapter 20 What are the differences between long-term, short-term, and working memory?". 169: 323–338. doi:10.1016/S0079-6123(07)00020-9. ISSN 0079-6123. 
  10. 10.0 10.1 Engle, Randall W.; Tuholski, Stephen W.; Laughlin, James E.; Conway, Andrew R. A. (1999). "Working memory, short-term memory, and general fluid intelligence: A latent-variable approach". Journal of Experimental Psychology: General. 128 (3): 309–331. doi:10.1037/0096-3445.128.3.309. ISSN 1939-2222. 
  11. 11.0 11.1 Daneman, Meredyth; Merikle, Philip M. (1996). "Working memory and language comprehension: A meta-analysis". Psychonomic Bulletin & Review. 3 (4): 422–433. doi:10.3758/BF03214546. ISSN 1069-9384. 
  12. Daneman, Meredyth; Carpenter, Patricia A. (1980). "Individual differences in working memory and reading". Journal of Verbal Learning and Verbal Behavior. 19 (4): 450–466. doi:10.1016/S0022-5371(80)90312-6. ISSN 0022-5371. 
  13. Kyllonen, Patrick C.; Christal, Raymond E. (1990). "Reasoning ability is (little more than) working-memory capacity?!". Intelligence. 14 (4): 389–433. doi:10.1016/S0160-2896(05)80012-1. ISSN 0160-2896. 
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