Out of the numerous fascinating concepts covered in this course I found that neural plasticity and memory were two of the most interesting and personally relevant topics. Neural plasticity involves the brains ability to reorganize neural circuits to better adapt to physical or environmental changes. This course primarily covered plasticity with regards to recovering from physical damage to the brain as well as the initial development of the brain and how environmental factors influence this process. With brain damaged victims, neural recovery is almost always apparent; this occurs through either the growth of new axons and dendrites if the cell body remains intact, or a heightened sensitivity of surviving neurons. When axons cannot regrow …show more content…
Through brain-damaged patients, we have learned that the hippocampus has a large part to play in memory. Memory has been broken down into episodic, events and experiences, and semantic, general knowledge; in addition memory can be seen as either explicit, deliberate remembering of specific details, and implicit, unconscious influence of knowledge and experience. Implicit memory also contains procedural memory, motor skills and habits, which seem to be the most imbedded as it often remains intact despite removal of the hippocampus entirely. It has become apparent that memory is stored in the brain by importance, explicit memories like names and dates are easily forgotten especially as a result of brain damage whereas implicit memory, which is much more important for ones survival, can remain intact to some degree even with severe amnesia. Neural circuits also have a form of memory called long term potentiation; this is when repeated exposure to a specific stimuli results in a stronger detection process of said stimuli. LTP is most common in pain circuits. By repeatedly receiving neurotransmitters in a synapse, a secondary channel for those synapses opens and allows a chain reaction to occur which results in the growth of more free flowing channels allowing more neurotransmitters to enter the post synaptic cleft at a faster rate; this increase in PSN stimulation also
Hippocampus is a small, curved region, which exists in both hemispheres of the brain and plays a vital role in emotions, learning and acquisition of new information. It also contributes majorly to long term memory, which is permanent information stored in the brain. Although long term memory is the last information that can be forgotten, its impairment has become very common nowadays. The dysfunction is exemplified by many neurological disorders such as amnesia. There are two types of amnesia, anterograde and retrograde. Anterograde amnesia is inability in forming new information, while retrograde refers to the loss of the past memory. As suggested by Cipolotti and Bird (2006), hippocampus’s lesions are responsible for both types of amnesia. According to multiple trace theory, the author suggests that hippocampal region plays a major role in effective retrieving of episodic memory (Cipolotti and Bird, 2006). For example, patients with hippocampal damage show extensively ungraded retrograde amnesia (Cipolotti and Bird, 2006). They have a difficult time in retrieving information from their non-personal episodic events and autobiographical memory. However, this theory conflicts with standard model of consolidation. The difference between these theories suggests that researchers need to do more work to solve this controversy. Besides retrieving information, hippocampus is also important in obtaining new semantic information, as well as familiarity and recollection (Cipolotti and Bird, 2006). For instance, hippocampal amnesic patient V.C shows in ability to acquire new semantic knowledge such as vocabularies and factual concepts (Cipolotti and Bird, 2006). He is also unable to recognize and recall even...
Understanding the reasoning behind amnesia and the hippocampus is of critical importance in neuroscience. Discussed by Cipolotti & Bird (2006), LTM impairments can lead to anterograde and retrograde amnesia if the medial temporal lobe (MTL) is damaged bilaterally. Specifically, the two most important types of LTM related to anterograde and retrograde amnesia are episodic and semantic memories. Conversely, many researchers have long debated the true functions of the hippocampus and have allowed two theories to emerge. The standard model of consolidation (SMC) assumes that the hippocampus is important in consolidating LTM, while the multiple trace theory (MTT) argues that information is encoded by specific memory traces by the hippocampus. These two theories help further explain the vast functions of the hippocampus. However, in regards to amnesic patients, the SMC has proven to be more widely accepted due to reported results implying that the hippocampus is important in consolidating LTM. In contrast, in anterograde patients, memories can be retrieved through recollection and familiarity. In fact, it has been proposed that the recol...
Therefore, they summarize that the reason why Clive suffers in the Amnesia is caused by the hippocampus is not affected. The Hippocampus is a structure that is located inside the temporal lobe, and that is a part of the limbic system. The function of the Hippocampus is similar to a post office used for encoding, storage and recalling memories, all presenting information would first remain, analysed and encoded in the Hippocampus then transmit them to different areas of the brain. In other words, Clive is unable to encode memory and hold information which is currently aware, and it is difficult to form new long-term memory such as explicit and semantic memory. Clive Wearing, now 78 years old, still cannot recover from the anterograde amnesia, he becomes a man who has the shortest memory in the world.
In our world, learning is more available to people. New knowledge is important for every person who like to gain information. This kind of people have their brain changing. The plasticity is responsible about that fact in the brain. The plasticity gives the brain the ability to grow up day after day. New language, dance and other activities help the brain to develop. Also, the plasticity had no limits according to time and age. We will discover the good effects of learning on brain plasticity.
The control center of the human body is none other than the mighty brain. Due to its incredible importance in basic human functioning, both voluntary and involuntary, any injury or trauma to this organ will have a great influence on the body and it's capabilities (Burrus, 2013). Exploring how the brain deals with various injuries and damage proves that the functionality of the brain is fitting to make the brain the power house of the body. But before exploring this with the help of case studies, it is important to first make sense of the the anatomy and functioning of the nervous system as a whole in order to understand how it is affected during injury, the functioning of the body that is lost, the intervention implemented for treatment or rehabilitation and the changes experienced.
Alzheimer’s is a progressive, degenerative disease of the brain and individuals with the disease suffer from many symptoms such as memory loss, agitation, impaired judgment, and difficulty communicating with others. The different lobes affected include the parietal lobe which deals with language, temporal lobe which deals with memory and frontal lobe which deals with behavior and judgment. The specific type of memory loss that an Alzheimer’s patient deals with is declarative memory. Declarative memory is remembrance of facts such as people’s names, what their faces look like and important dates from our past (Marieb and Hoehn 2013). The formation of these memories can only happen when the temporal lobe or more specifically the hippocampus are able to receive acetylcholine inputs. Patients with Alzheimer’s loose this input which prevents making new memories and remembering old ones (Marieb and Hoehn 2013).
Memory is a group of related mental processes that are involved in acquiring, storing, and retrieving information (Hockenberry and Hocenberry page 232). I will be addressing two specific types of memory: short-term memory and long-term memory. Short-term memory holds temporary information transferred from sensory memory or long-term memory. Sensory memory is the first stage of memory and obtains information for a brief amount of time. Short-term memory is also called active memory and is stored in the prefrontal cortex which is the most active part of the brain during an activity. Short-term memory can hold information for roughly twenty seconds, but sensory memory holds information for a shorter amount of time. We usually store things such
According to Berlucci and Butchel (2009), plasticity describes an alteration in neural organization. Plasticity may be to blame for several types of behavior changes both short-term and permanent, such as growth, learning, injury, aging, and adaption to various settings. While several authors have attempted to more appropriately define the term, researchers are inclined to relate the theory to essentially any deviation found within the nervous system. Today, the method of behavior change can mostly likely be described by the alteration of synaptic transmission amongst neurons.
As brain systems begin working, memory also starts to work. (4). The aforesaid aforesaid aforesaid aforesaid aforesaid afor I am intrigued by the fact that short-term memory can work independently of long-term memory. While long-term memory can be achieved through the repetition of a fact that is in the short-term memory, it appears that in amnesiac patients their long-term memory tends to return faster than their short-term memory. They can remember their favorite childhood food, but cannot remember why they are in the hospital.
Chemically, the brain has a myriad of purposes, but one of the most interesting is its capability to process memory. The brain is able to fill in gaps in our vision and memory and store the information
Neuroplasticity Neuroplasticity refers to the brain’s ability to remap itself in response to experience. The theory was first proposed by Psychologist William James who stated “Organic matter, especially nervous tissue, seems endowed with a very extraordinary degree of plasticity". Simply put, the brain has the ability to change. He used the word plasticity to identify the degree of difficulty involved in the process of change. He defined plasticity as ".the possession of a structure weak enough to yield to an influence, but strong enough not to yield all at once" (James, 1890).
As the human body goes through different experiences, the brain grows, develops, and changes according to the environmental situations it has been exposed to. Some of these factors include drugs, stress, hormones, diets, and sensory stimuli. [1] Neuroplasticity can be defined as the ability of the nervous system to respond to natural and abnormal stimuli experienced by the human body. The nervous system then reorganizes the brain’s structure and changes some of its function to theoretically repair itself by forming new neurons. [2] Neuroplasticity can occur during and in response to many different situations that occur throughout life. Some examples of these situations are learning, diseases, and going through therapy after an injury.
Hippocampus plays an important job in the formation of new memories about experienced events such as the episodic or the autobiographical memory. It is also a part of larger medial temporal lobe memory system responsible for general declarative memory. General declarative memory is a type of memories that can be explicitly verbalized. If damage to hippocampus occurs only in one hemisphere, our brain can still retain near-normal memory functioning. But even so the hippocampus is damage; some types of memory such as abilities to learn new skills will not be affected. The reason is because, some abilities depends on different types of memory and different regions of the brain such as procedural memory. Hippocampus also plays role in spatial memory and navigation. Many hippocampal neurons have “place fields” and the discovery of place cells in 1970’s led to the theory that hippocampus might act as cognitive
Learning to tie shoes and ride a bike requires the encoding, storing, and retrieving of past observations of the procedure. With a lot of practice, children master these skills so well that they are able to remember them the rest of their lives. Memory is the storing of information over time. It is one of the most important concepts in learning; if things are not remembered, no learning can take place. As a process, memory refers to the "dynamic mechanism associated with the retention and retrieval of information about past experiences" (Sternberg 260). We use our memory about the past to help us understand the present. The study or memory in psychology is used in different ways, as well as there are many different ways to study how memory works in humans. In psychology there are many tasks used to measure memory, and different types of memory storages that human's use, such as sensory storing, or short term storing. There are also a lot of techniques that humans use to improve their memory, which they can use to learn, such as mnemonic devices. All these things can be classified as important issues in the study of human memory and ways of learning.
The brain is by far the most complex system in the human body. Although many processes and components of the brain are important for humans to function, memory is by far one of the most unique characteristic s of the brain. The implication of memory can be seen in every aspect of a human's life, whether this is the retention of facts or executing and performing tasks to survive memory is a compilation of information that allows for functionality among people. Memory defines a person. The primary question regarding this topic is how can humans store information and then apply it to their surroundings? Answers are dependent on how the brain gains and stores information and then communicates that information to different parts of the brain. A human’s memory is based upon the brain’s structures, a person’s perceptions, and visualizations of their surroundings.