WordNet

a postulated biochemical change (presumably in neural tissue) that represents a memory (同)memory_trace
make ones course or travel along a path; travel or pass over, around, or along; "The children traced along the edge of the dark forest"; "The women traced the pasture"
a just detectable amount; "he speaks French with a trace of an accent" (同)hint, suggestion
either of two lines that connect a horses harness to a wagon or other vehicle or to a whiffletree
an indication that something has been present; "there wasnt a trace of evidence for the claim"; "a tincture of condescension" (同)vestige, tincture, shadow
a visible mark (as a footprint) left by the passage of person or animal or vehicle
make a mark or lines on a surface; "draw a line"; "trace the outline of a figure in the sand" (同)draw, line, describe, delineate
follow, discover, or ascertain the course of development of something; "We must follow closely the economic development is Cuba" ; "trace the students progress" (同)follow
to go back over again; "we retraced the route we took last summer"; "trace your path" (同)retrace
copy by following the lines of the original drawing on a transparent sheet placed upon it; make a tracing of; "trace a design"; "trace a pattern"
discover traces of; "She traced the circumstances of her birth"
an electronic memory device; "a memory and the CPU form the central part of a computer to which peripherals are attached" (同)computer memory, storage, computer storage, store, memory board
the cognitive processes whereby past experience is remembered; "he can do it from memory"; "he enjoyed remembering his father" (同)remembering
the power of retaining and recalling past experience; "he had a good memory when he was younger" (同)retention, retentiveness, retentivity
something that is remembered; "search as he would, the memory was lost"
the area of cognitive psychology that studies memory processes; "he taught a graduate course on learning and memory"
a drawing created by superimposing a semitransparent sheet of paper on the original image and copying on it the lines of the original image (同)trace
the act of drawing a plan or diagram or outline
the discovery and description of the course of development of something; "the tracing of genealogies"
a written proposal or reminder (同)memorandum, memoranda

PrepTutorEJDIC

エングラム(経験によって生ずる神経系細胞内の構造別化) / (記憶の)痕跡,印象
〈C〉〈U〉(過去に存在した人・物・事件などの)『跡』,形跡,痕跡;(人・動物・車などの通った)跡,足跡《+of+名》 / 〈C〉(…の)かすかなきざし,気味,微量《+of+名》 / 〈C〉(記録計器の描く)線 / …‘の'『跡をつける』,‘を'追跡する,〈足跡など〉‘を'たどる / (…まで)…‘の'由来(起源,原因など)をさかのぼる《+名+back(+back+名)+to+名》 / (複写紙などを使って)…‘を'『[線をたどって]書き写す』 / 〈線・図形〉‘を'『描く』《+out+名,+名+out》 / 〈文字〉‘を'ていねいに書く / '‘を'捜しあてる,見つけ出す / (…に)『さかのぼる』《+back to+名》
(馬車や荷車などに馬や牛などをつなぐための)引き革,核き綱
〈C〉〈U〉『記憶』[『力』] / 〈C〉『思い出』,思い出の人(物,事) / 〈U〉《the~》記憶している期間 / 〈C〉死後の名声
跡を追うこと,追跡;透写,複写 / 〈C〉 / 透写(複写)によってできたもの(地図・図案など),透写図
メモ,覚え書き / (会社内などの)連絡メモ

Wikipedia preview

出典(authority):フリー百科事典『ウィキペディア（Wikipedia）』「2013/01/01 23:16:16」(JST)

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[Wiki en表示]

For other uses, see Engram.

Scientists have searched for the engram in the brain

Engrams are a hypothetical means by which memory traces are stored as biophysical or biochemical changes in the brain (and other neural tissue) in response to external stimuli.

They are also sometimes thought of as a neural network or fragment of memory, sometimes using a hologram analogy to describe its action in light of results showing that memory appears not to be localized in the brain. The existence of engrams is posited by some scientific theories to explain the persistence of memory and how memories are stored in the brain. The existence of neurologically defined engrams is not significantly disputed, though their exact mechanism and location has been a focus of persistent research for many decades.

Overview

The term engram was coined by the little-known but influential memory researcher Richard Semon.

Karl S. Lashley's search for the engram found that it could not exist in any specific part of the rat's brain, but that memory was widely distributed throughout the cortex.^[1] One possible explanation for Lashley's failure to locate the engram is that many types of memory (e.g. visual-spatial, smell, etc.) are used in the processing of complex tasks, such as rats running mazes. The consensus view in neuroscience is that the sorts of memory involved in complex tasks are likely to be distributed among a variety of neural systems, yet certain types of knowledge may be processed and contained in specific regions of the brain.^[2] Overall, the mechanisms of memory are poorly understood. Such brain parts as the cerebellum, striatum, cerebral cortex, hippocampus, and amygdala are thought to play an important role in memory. For example, the hippocampus is believed to be involved in spatial and declarative learning, as well as consolidating short-term into long-term memory.

In Lashley's experiments (1929, 1950), rats were trained to run a maze. Tissue was removed from their cerebral cortices before re-introducing them to the maze, to see how their memory was affected. Increasingly, the amount of tissue removed degraded memory, but more remarkably, where the tissue was removed from made no difference.^[2]

Later, Richard F. Thompson sought the engram in the cerebellum, rather than the cerebral cortex. He used classical conditioning of the eyelid response in rabbits in search of the engram. He puffed air upon the cornea of the eye and paired it with a tone. (This puff normally causes an automatic blinking response. After a number of experiences associating it with a tone, the rabbits became conditioned to blink when they heard the tone even without a puff.) The experiment monitored several brain regions, trying to locate the engram.

One region that Thompson's group studied was the lateral interpositus nucleus (LIP). When it was deactivated chemically, the rabbits lost the conditioning; when re-activated, they responded again, demonstrating that the LIP is a key element of the engram for this response.^[3]

This approach, targeting the cerebellum, though successful, examines only basic, automatic responses, which almost all animals possess, especially as defense mechanisms.

Studies have shown that declarative memories move between the limbic system, deep within the brain, and the outer, cortical regions. These are distinct from the mechanisms of the more primitive cerebellum, which dominates in the blinking response and receives the input of auditory information directly. It does not need to "reach out" to other brain structures for assistance in forming some memories of simple association.

An MIT study proved that behavior based on high-level cognition, such as the expression of a specific memory, can be generated in a mammal by highly specific physical activation of a specific small subpopulation of brain cells, in this case by light. Their results show that memories really do reside in very specific brain cells and simply by reactivating these cells by physical means, such as light, an entire memory can be recalled. ^[4]

References

^ Bruce, Darryl (2001). "Fifty Years Since Lashley's In Search of the Engram:". Journal of the History of the Neurosciences 10 (3): 308-318.
^ ^a ^b Gerrig and Zimbardo (2005) Psychology and Life (17th edition: International edition)
^ (James W. Kalat, Biological Psychology p. 392–393)
^ Memories are stored in specific brain cells, MIT Inception-like research finds

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English Journal

The drawing effect: Evidence for reliable and robust memory benefits in free recall.

Wammes JD1, Meade ME1, Fernandes MA1.
Quarterly journal of experimental psychology (2006).Q J Exp Psychol (Hove).2016 Sep;69(9):1752-76. doi: 10.1080/17470218.2015.1094494. Epub 2016 Feb 16.
In 7 free-recall experiments, the benefit of creating drawings of to-be-remembered information relative to writing was examined as a mnemonic strategy. In Experiments 1 and 2, participants were presented with a list of words and were asked to either draw or write out each. Drawn words were better re
PMID 26444654

Alzheimer's disease and memory strength: Gradual decline of memory traces as a function of their strength.

Vallet GT1,2, Rouleau I3,4, Benoit S3, Langlois R3, Barbeau EJ5, Joubert S1,2.
Journal of clinical and experimental neuropsychology.J Clin Exp Neuropsychol.2016 Aug;38(6):648-60. doi: 10.1080/13803395.2016.1147530. Epub 2016 Mar 29.
OBJECTIVE: Episodic memory impairment is at the core of amnestic mild cognitive impairment (aMCI) and Alzheimer's disease (AD). The origin of memory deficits may result either from an encoding deficit or from an accelerated decline of the memory trace. The present study explores these two hypotheses
PMID 27023396

Involvement of hippocampal NMDA receptors in retrieval of spontaneous object recognition memory in rats.

Iwamura E1, Yamada K1, Ichitani Y2.
Behavioural brain research.Behav Brain Res.2016 Jul 1;307:92-9. doi: 10.1016/j.bbr.2016.03.048. Epub 2016 Mar 29.
The involvement of hippocampal N-methyl-d-aspartate (NMDA) receptors in the retrieval process of spontaneous object recognition memory was investigated. The spontaneous object recognition test consisted of three phases. In the sample phase, rats were exposed to two identical objects several (2-5) ti
PMID 27036649