Which of the following scenarios best illustrates the use of procedural memory?
How Procedural Memory WorksBy Ayesh Perera, published January 26, 2021 Show
Take-home Messages
Procedural memories are inadvertently retrieved and unconsciously used for the performance of various motor skills and cognitive tasks. Examples of Procedural MemoryActions involving procedural memory often include tasks learned early in childhood, which have become ingrained over time through repetition. The following tasks employ procedural memory: Walking Tying shoes Riding a bicycle Swimming Reading History and BackgroundSerious psychological and philosophical discussion on the topic of memory has existed for nearly two centuries. The American psychologist and philosopher William James (1890) was among the early figures to point out the possible difference between habit and memory. Despite much investigation to memory, however, Brenda Milner of McGill University is generally credited with producing the first convincing evidence in 1962, indicating a division between declarative memory and procedural memory (Squire, 2004). This was demonstrated via her experiments with the amnesic patient H.M. (Henry Molaison). H.M. had had a bilateral medial temporal lobectomy to cure his epilepsy (Squire, 2009). The partially successful surgery had left him unable to form new memories. Nonetheless, H.M. was able to learn mirror drawing which involved hand-eye coordination. H.M.’s experience indicated that a single system did not constitute the entirety of memory. Subsequent research conducted on amnesic patients revealed that this ability to learn and perform certain activities extended beyond motor skills (such as mirror drawing), and included cognitive tasks as well. Some had suggested that amnesia might merely be a retrieval deficit. However, it was later confirmed that amnesia involved an actual memory deficit (rather than a mere retrieval deficit), but that it still left unharmed a domain for memory which is used for skill development. Procedural Memory vs. Declarative MemoryCohen and Squire (1980) drew a distinction between declarative knowledge and procedural knowledge.
It is also important to note that procedural memories are relatively harder to explain (Cherry, 2020). For instance, it is difficult to fully explain in words how to drive a car. Nonetheless, communicating the details of how to fix a car engine in a classroom (by retrieving one’s declarative memory) is relatively easier. Evidence for the distinction between declarative and procedural memory has come from research on patients with amnesia. Typically, amnesic patients have great difficulty in retaining episodic and semantic information following the onset of amnesia. Their memory for events and knowledge acquired before the onset of the condition tends to remain intact, but they can’t store new episodic or semantic memories. In other words, it appears that their ability to retain declarative information is impaired. However, their procedural memory appears to
be largely unaffected. They can recall skills they have already learned (e.g. riding a bike) and acquire new skills (e.g. learning to drive). Improving Procedural MemoryResearch indicates that sleep aids the development of procedural knowledge via ongoing memory consolidation which passes new memories from a fragile condition to a robust and stable state (Walker, Brakefield, Morgan, Hobson & Stickgold, 2002). This is especially true when the initial phase of memory acquisition is immediately followed by sleep. Even though the consolidation of procedural memories was long considered to be solely a function of time, recent studies indicate that for some types of learning, sleep alone enhances memory consolidation (Brashers-Krug, Shadmehr &, 1996) (Fischer, Hallschmid, Elsner & Born, 2002). Brief naps involving non-rapid eye movement, however, does not seem to improve procedural memory (Siegel, 2001). Procedural memory is best enhanced by REM (Rapid Eye Movement) sleep following SWS (Slow-Wave Sleep), which comprises stage three and four, as well as the deepest type of NREM sleep (Karni, Meyer, Rey-Hipolito, Jezzard, Adams, Turner & Ungerleider, 1998). This mode of sleep can be exceedingly beneficial if it immediately ensues the acquisition of a new skill. This is because a full night or day of sleep after learning a new skill can significantly enhance memory consolidation (Mednick et al, 2003). However, research also points out that these potential gains would be prevented if REM sleep is interrupted (Karni, Meyer, Rey-Hipolito, Jezzard, Adams, Turner & Ungerleider, 1998). Brain Regions Related to Procedural MemoryThe chief neuronal cell nucleus related to procedural memory is the dorsolateral striatum which aids the acquisition of new habits (Alexander & Crutcher, 1990). Additionally, evidence suggests that striatal neural plasticity permits the basal ganglia circuits to help process procedural memory as well as communicate between structures (Kreitzer, 2009). Moreover, the cerebellum plays a vital role in rectifying the movement and adjusting the motor agility of procedural activities such as playing sports, playing instruments, and painting (Saywell & Taylor, 2008). The cerebellum also helps automate the unconscious process involving procedural skill learning. Recent evidence implies that the cerebellar cortex holds the engram—which is considered to be the location wherein memory dwells (Nagao & Kitazawa, 2008). Moreover, the neostriatum which controls procedural memory shares anatomy with the limbic system (Shu, Bao, Li, Chan & Yew, 2000). Although previously considered to be a functionally separate entity, recent evidence indicates that the MrD (marginal division zone) is linked to memory. Additionally, dopamine, a neuromodulator related to procedural memory, seems to adapt brain processing to new environments which demand behavior modification, thereby impacting neural plasticity within memory systems (Mizumori, Puryear & Martig, 2009). Furthermore, the examination of synaptic plasticity at the molecular level demonstrates that CREB function maybe connecting the acquisition and the storage of procedural memory (Pittenger, Fasano, Mazzocchi-Jones, Dunnett, Kandel & Brambilla, 2006). About the AuthorAyesh Perera recently graduated from Harvard University, where he studied politics, ethics and religion. He is presently conducting research in neuroscience and peak performance as an intern for the Cambridge Center for Behavioral Studies, while also working on a book of his own on constitutional law and legal interpretation. How to reference this article:Prera, A (2021, Jan 26). Procedural memory. 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Which of the following is the best example of procedural memory?Examples of procedural memories are knowledge of how to ride a bike or drive a car, how to play the drums, how to solve a puzzle, and how to walk.
What is an example of your procedural memory quizlet?Procedural memory is the memory of physical actions. This is stored in your cerebellum. Examples would include riding a bike, swinging a golf club, or walking. A type of declarative memory that has to do with events in ones life.
Which of the following is the best example of implicit memory?Some examples of implicit memory include knowing how to play the piano, ride a bike; tie your shoes and other motor skills. These skills involve procedural knowledge which involves “knowing how” to do things.
What is another name for procedural memory quizlet?Procedural memory is sometimes referred to as implicit memory, because previous experiences aid in the performance of a task without explicit and conscious awareness of these previous experiences, although it is more properly a subset of implicit memory. 7.
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