1. Premotor Cortex Argumentative Analysis
The brain has many different parts and functions which do many different tasks. The Premotor
Cortex is an area in the brain responsible for planning movement. Signals travel to the back of the
brain then are processed and sent down a pathway to the Premotor Cortex to complete an action.
Researchers have found ways to simplify the process in which information is received in the
Premotor Cortex. The New York Times article gives information about two scientist's discoveries,
the testing of their discoveries, the results of the tests, and the benefits of their ideas.
Two researchers from the University of Rochester have found a way to reduce the process of
completing actions. Bodies complete actions through signals which are broadcasted in the visual
center in the back of the brain then redefined and sent to the Premotor Cortex. The shortened system
directly plants electrodes in the Premotor Cortex. These electrodes in the Premotor Cortex are sent
bursts of electricity which send signals to the brain. The two analysts were able to discover a more
efficient way of completing movements. ... Show more content on Helpwriting.net ...
Monkeys were put in front of a table with a button, a spherical knob, a cylindrical knob, and a
handle with lights. The monkeys would extend their hands and do the action related to the object
whose light came on. The monkeys would receive an electricity burst when the light came on and
reward after successfully completing the action. As time passed the lights dimmed and then turned
off. Without the lights the monkeys only had the indicators from the electrodes to help them.
Monkeys performed experiments to test the scientists new method of executing
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2.
3. Somatosensory Cortex Effect
The examination was done in the lab of Richard Andersen, James G. Boswell Professor of
Neuroscience, T&C Chen Brain–Machine Interface Center Leadership Chair, and executive of the
T&C Chen Brain–Machine Interface Center. A paper portraying the work shows up in the April 10
issue of the diary eLife.
The somatosensory cortex is a segment of cerebrum that oversees real sensations, both
proprioceptive sensations (vibes of development or the body's situation in space) and cutaneous
sensations (those of weight, vibration, touch, and so forth). Past to the new work, neural inserts
focusing on comparable mind regions dominatingly delivered sensations, for example, shivering or
humming in the hand. The Andersen lab's embed can deliver significantly more common sensation
by means of intracortical incitement, similar to sensations experienced by the patient preceding his
damage. ... Show more content on Helpwriting.net ...
Two varieties of modest terminals were surgically embedded into his somatosensory cortex.
Utilizing the clusters, the analysts empowered neurons in the locale with little heartbeats of power.
The member announced feeling diverse characteristic sensations –, for example, crushing, tapping, a
feeling of upward movement, and a few others – that would fluctuate in sort, power, and area
relying upon the recurrence, plentifulness, and area of incitement from the exhibits. It is the first run
through such common sensations have been incited by intracortical neural
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4.
5. The Development Of The Cortex
The development of the cortex is a delicate balance between proliferation, differentiation and
migration of neural progenitors (NPs). Throughout developmental process, various cellular
mechanisms ensure that NPs are differentiating into the correct cell subtypes, migrating to their
correct regions, and forming the correct cortical and sub–cortical layers. The cortex is comprised of
both excitatory and inhibitory neurons, which interact within neuronal circuits to mediate cortical
functions. Though both types of neurons reside in the cortex, they arise from different embryonic
brain regions, and from different neural progenitors. Excitatory neurons are generated from neural
progenitors residing in the ventricular zone (VZ)/subventricular ... Show more content on
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X94 cells are located exclusively in layers 4 and 5, and martinotti cells can be either calretinin (CR)
positive or negative, and are bursting/non–bursting respectively. NPY+ originate from both the
MGE and CGE, and can also be SST+. In the adult mouse brain, they are found mostly in layers
2/3/6, but can exist in all layers (Karagiannis et al., 2009). Additionally, they are often activity
dependent, and increases expression upon neuronal activity (De Marco Garcia et al., 2011).
Failure to form proper cortical layers has been observed in patients with developmental disorders,
such as ASDs and SZ(Stoner et al., 2014). Though less populous than excitatory neurons in the
neocortex, GABAergic interneurons are essential to the functionality of the nervous system. Though
the precise genetic components causing autism still elude us, there are intriguing molecular
hypothesis for this disorder. One such hypothesis is the GABAergic hypothesis of autism. There is
increasing evidence that deficits in interneurons are related to psychiatric disease. Post–mortem
studies of schizophrenia patients revealed reduced GAD67 expression, and decreased PV and
GAD67 mRNA (Benes et al., 2007; Curley and Lewis, 2012). Additionally, 30% of patients with
ASD have epilepsy, and 30% of patients with epilepsy have ASD. This co–morbidity suggests a
potential disruption in the E/I balance of the brain, which often results in epilepsy. Additionally,
many ASD risk genes have been associated with
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6.
7. The Orbitofrontal Cortex and Social Behaviors
Within the realm if biological psychology, there are two known types of behaviour. One being
regulatory and the other, non–regulatory. Regulatory behaviour is controlled by the hypothalamus
and maintains homeostasis in the body by continuing the processes of the vital body systems. An
example of this could be; eating. Regulatory behaviour occurs in a person's everyday life without
them noticing that it happens. Non–regulatory behaviour, on the other hand is not controlled by a
homeostatic mechanism in the hypothalamus but rather in the orbitofrontal cortex. Example of non–
regulatory behaviour include; parenting, aggression and social behaviour. (Swartz, L. et al, 2011)
The orbitofrontal cortex is a part of the brain that is located superiorly to the eye socket and
inferiorly to the frontal lobe. Part of its function is that it is involved in the regulation of reward–
orientated behaviour, inhibiting unwanted behaviour as well as being involved with emotions and
decision making (Swartz, L et al, 2011).
The orbitofrontal cortex is greatly associated with social behaviour. With reference to (Beer, J. S. et
al), there are two theories that are coherent social short–comings associated with the orbitofrontal
cortex. These are one, "deficient emotional systems" and two, "self–monitoring". Deficient
emotional systems or the lack of behavioural monitoring can be characterized by the "somatic
marker hypothesis". This theory suggests that the orbitofrontal cortex is an imperative part
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8.
9. Poverty And Brain Cortex Are A Correlational Study
Poverty and Brain Cortex Area: A Correlational Study
The extent of nature and nurture on the development of the human brain has long been studied by
neuroscientists and cognitive psychologists. Up to what degree does each variable play in each
function of the brain? A group of psychologists recently conducted the largest correlational study
looking for the relationship between socioeconomic status (SES) of a family and its effects on the
brain morphology and behavior of the children raised in them. Socioeconomic disparities have been
shown to have profound effect on the cognitive development of a child, but this study went beyond
the behavioral effects to the anatomical effects of one's SES. Similar studies have looked at the
anatomical differences among various race/ethnic groups but no study has been done linking
socioeconomic status–parental education and family income specifically. This was the first attempt
to separate these two variable and look at their correlation with cognitive development.
The study involved 1099 participants ages 3 to 20 years old from various cities of the United States.
The main purpose of the study was to study socioeconomic factors and brain morphology.
Preliminary data of socioeconomic status was collected on the average parental education and
family income. Everyone also participated in Magnetic Resonance Imaging (MRI) and had their
heads scanned to look at the brain's morphology. The secondary variable that the researchers
measured was the
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10.
11. The Four Lobes Of The Cerebral Cortex
The Four Lobes of the Cerebral Cortex
The human brain is very complex and is constantly being studied. Scientists have named different
portions of the brain and try to understand what the different areas control. The Cerebrum is the
largest part of the brain and contains most of the body's voluntary functions. (ChalkSMART, 2012)
The Cerebrum contains four lobes, the occipital lobe, the parietal lobe, the temporal lobe, and the
frontal lobe. The lobes are named for the skull bones they correlate with. Scientists have studied
which lobes affect different functions of the body. According to McCaffrey (1997/2014), it is
important to remember some functions can be localized to very specific parts of the brain; others
cannot be classified this way ... Show more content on Helpwriting.net ...
The occipital lobe is the main visual area of our brain, the optic nerve from the eye sends signals
here and we experience shapes, colors, and motion around us. (Franzoi, 2014, p. 63) Also, "a lot of
memory is stored in this area." (McCaffrey, 1997/2014) Damage to this area could cause blindness
even if the eyes and optic nerve are healthy. (Franzoi, 2014, p. 63)
Parietal Lobe The parietal lobe is located in front of the occipital lobe. This area of the brain is
associated with touch sensation, smell, and taste. (Franzoi, 2014) The parietal lobe is also involved
in writing and in some aspects of reading and recognition of visual symbols. (McCaffrey,
1997/2014) Damage to this region could mean a person could not feel an object placed in their hand.
Temporal Lobe The temporal lobe is below the parietal lobe, near the temples. Long–term memory
formation, anxiety, hearing, language word meaning and appreciation of smell is all associated with
this lobe. (Franzoi, 2014) (ChalkSMART, 2012) (McCaffrey, 1997/2014) Damage to this area,
especially to the respect of the left lobe called Wernicke's, could result in difficulty understanding
words and sentences. (Franzoi,
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12.
13. The Effects Of Sex Hormones On The Development Of...
Abstract
Gender differences have been recorded by researches from single neurons in the cell to system level
processes (Cahill 2006), and certain scientists proposed that sex hormones influence the
development of prefrontal cortex, and this is supposed to be the cause of the differences in working
memory performance (Duff & Hampson, 2001). This study further investigated the existence and
nature of this gender difference. A sample of 497 Monash University psychology undergraduates
(385 females and 112 males; ages 18 – 64) were recruited for this study. Working memory
performance was tested with online 'spatial working memory ' test, and 2D:4D finger length ratio
was used as an indirect measure of sex hormone levels. The results revealed no sex differences in
the working memory performance, but variance in 2D:4D ratio – females had a larger ratio than
males. Memory reaction time was negatively correlated with 2D:4D ratio, thus, females had a
quicker reaction time.
Introduction
Differences related to gender in spatial memory are most widely described and studied of cognitive
sex differences. In 1974 Maccoby and Jacklin established that males usually perform better than
females in measures of spatial performance, and this discovery has been constantly replicated in
multiple studies covering various developmental stages (McGivern et al. 1997; Lewin et al. 2001)
and spatial tasks (Dabbs Jr. et al. 1998; Driscoll et al. 2005).
While many researches proved the
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14.
15. Mutation In The Prefrontal Cortex
It is believed that a mutation in the prefrontal cortex predisposes some people to violence. The
frontal lobe is what we use to make decisions and, when fully developed, allows us to think
carefully about our actions before we take them. An alteration in the prefrontal cortex may make us
susceptible to impulsive and rash behaviors. For example, teens tend to be more reckless than adults.
The teen frontal lobe is not fully formed, which is the reason for this outcome. Teens also tend to
rely on their amygdalas to make decision. The amygdala is the center for powerful emotions, such as
anger, jealousy, and guilt. For example, psychopaths have been found to be void of guilt and regret
as a result of "the amygdala [being] less activated when they
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16.
17. The Fundamental Ability Of The Prefrontal Cortex
The fundamental ability of the prefrontal cortex is to represent information not currently in the
environment; its role within the temporal lobe is to create a mental sketch pad within an individuals
mind (Goldman–Rakic). It regulates short term and long term decision making and helps individuals
focus thoughts and houses active working memory. Due to the funtions that the prefront cortex
displays, damage to this area commonly leads to multiple problems such as the inability to plan or
even behaving in ways that are not seen as sociably acceptable. Individuals who have suffered
damage their prefrontal cortex are oblivious to future consequences and their actions tend to be
guided by immediate results (Bechara, Damasio, Damasio, & Anderson, 1994). The premotor cortex
is involved in learning and executing complex movements that are guided by sensory information.
Many studies suggest that the premotor cortex is involved in using arbitrary stimuli to indicate what
movement should be made. The relationship between stimuli and movement are arbitrary and must
be learned. For example Nowak et al (2009) found that participants would adjust the strength of
their grip when picking up an object based on the colour of a dot. Once again we look at how these
areas function after being damage. For example damage to the premotor cortex may result in a range
of problems such as apraxia, which is the inability to carry out actions that require skill that
previously could be performed.
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18.
19. Visual Cortex
The Visual Pathway 1. Light must pass through the cornea, aqueous humor, lens and vitreous humor
before reaching the retina. It must then pass through the inner layers of the retina to reach the
photoreceptive layer of rods and cones. 2. When the photoreceptors are stimulated they transmit
impulses to the bipolar cells that project to the ganglion cells of retina. 3. The axons from the
ganglion cells converge at the optic disc to form optic nerve which enters the cranial cavity through
the optic foramen. At the optic disc these axons acquire a myelin coat from oligodendrocytes of the
CNS. 4. The optic chiasm is formed by decussating fibers, which originates from the nasal half of
the retina, fibers from the temporal retina project ... Show more content on Helpwriting.net ...
Any displacement of the tympanic membrane causes changes in pressure waves which is transmitted
by tiny bones. 2–Middle ear: Sound waves traveling through the ear canal will hit the tympanum.
This wave information travels across middle ear cavity via a series of delicate bones: the mallus
(hammer), incus (anvil) and stapes (stirrup). These ossicles act as a lever converting the lower–
pressure eardrum sound vibrations into higher–pressure sound vibrations to smaller membrane
called the oval window. Higher pressure is necessary because the inner ear beyond the oval window
contains liquid rather than air. The auditory reflex of the middle ear muscles helps protect the inner
ear from damage. The middle ear still contains the sound information in wave form; it is converted
to nerve impulses in the cochlea. 3–The inner ear: The inner ear consists of the cochlea. The cochlea
has three fluid–filled sections, and supports a fluid wave driven by pressure across the basilar
membrane separating two of the sections. 1–called the cochlear duct or scala media, contains an
extracellular fluid similar in composition to 2–endolymph, which is usually found inside of cells.
The organ of Corti is located at this duct, and transforms mechanical waves to electric signals in
neurons. The organ of Corti –transforms mechanical waves to electrical signals in neurons. located
in cochlear spiral ; a tube containing three compartments separated by two membranes .The upper
and
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20.
21. Summary: What Does The Insular Cortex
Scientists recently identified a region in the brain that plays a key role in smoking cessation: the
insular cortex.
What Does The Insular Cortex Do?
The insular cortex is located between the temporal and the parietal lobes of the brain and is
associated with a vast array of cognitive functions, from high–level human consciousness processes
to those of primal self–regulation and bodily homeostasis.
On the one hand, the insular cortex is associated with basic motor control like swallowing, hand–eye
coordination, and speech articulation. It is also related to heartbeat, blood pressure, the immune
system, the digestive system, and the intake of information from each of the five senses.
On the other hand, the insular cortex is especially linked to emotional processing. The region has
been highlighted for its role in self–awareness, agency, and bodily ownership as well as for its
relationship to empathy and the consciousness of interpersonal experiences. It is also where
orgasms, social norm violations, and the sensation of pain are evaluated in the brain.
This insular cortex seems to straddle an interesting divide between the brain functions that we
traditionally consider animalistic, ... Show more content on Helpwriting.net ...
Abdolahi now works with Philips Research North America. The research involved 156 patients at
three different hospitals, all of whom had suffered a stroke and who identified as active smokers.
The patients were divided into two groups: those who were recovering from a stroke in the insular
cortex, and those who had suffered a stroke in another part of the
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22.
23. Essay about Lesions of the Prefrontal Cortex
Lesions of the Prefrontal Cortex
The prefrontal cortex is involved in a wide variety of functions. It is known as the area of the brain
which has
"executive control", taking input from other areas of the brain and combining and applying those
functions (Kalat 2004).
Lesions to the prefrontal area can greatly impair overt behavior of an inflicted individual. These
deficits are dependent upon the severity of the lesion and the specific region of the prefrontal cortex
in which the lesion resides (ventrolateral, dorsolateral, orbitofrontal, and anterior prefrontal)
(Eslinger
2003).
Individuals with prefrontal lesions usually display emotional, social and moral deficits (Elinger
2003). Social ... Show more content on Helpwriting.net ...
Persons with left hemisphere lesions are often depressed and display inhibition which includes
apathy, flattened affect, withdrawal, narrowing of interests(Trauner 2001). Patients with right or left
hemispheric lesions may experience disinhibition which includes euphoria, impulsivity, and
irritability, inappropriate emotional responses and impaired judgment (Trauner 2001). Intellectual
capacities can remain preserved, and individuals with prefrontal damage can score normal–average
intelligence on standard IQ tests (Eslinger 2003). Cognitive deficits which do appear relate to
attention, self–regulation, inhibition, planning, problem solving, critical thinking, organization,
working memory, self–awareness and self– monitoring, and goal–directed behavior (Eslinger 2003).
Available cases of early prefrontal cortex damage provide evidence for the importance of this region
in psychological development (Eslinger 2003). Anderson (1999) discussed the important cognitive
and behavioral deficit differences between childhood onset of prefrontal cortex lesions and adult
onset lesions to the prefrontal cortex. Adults who experience a lesion to the prefrontal cortex have
had years of normal cognitive and social behavior development. A
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24.
25. Prefrontal Cortex Research Paper
The prefrontal cortex is the most anterior region of the frontal lobe. It occupies one–third of the
cerebral cortex and is key for executive functions such as problem solving, working memory, and
emotional control. It is also crucial in decision making and the expression of personality. The
prefrontal cortex is imperative for efficient cognitive functioning; damage can result in severe
impairment to skills such as emotional regulation, moral behavior, and empathy. In addition, the
prefrontal cortex is a sub–region of the frontal cortex; this includes the primary motor cortex and
premotor cortex in addition to the prefrontal cortex areas, which are located more anteriorly. The
prefrontal cortex itself can be divided into three sectors– the
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26.
27. Does Dysfunction Of The Prefrontal Cortex Lead Antisocial...
Student ID number: 1704918
Does dysfunction of the prefrontal cortex lead to antisocial behaviour?
Word count: 984 Antisocial behaviour (ASB) broadly encompasses human character traits and
behaviours that are generally viewed as unpleasant or immoral, such as reduced empathy, aggression
and violence. Consequently, ASB is unconducive to forming healthy interpersonal relationships and
functional living and on a large scale is socio–economically detrimental to societies. Therefore,
research into ASB's aetiology is important for potentially informing its prevention and management
and in turn reducing its negative outcomes. This essay investigates the possible causal role of
prefrontal cortex (PFC) dysfunction and structural abnormalities in ASB, focusing on specific PFC
subregions; as well as the roles of other brain regions, genetics and the environment. It argues that
there is significant evidence that the dysfunction of several brain regions, including the PFC and
areas of other lobes, can lead to ASB. The underlying reason(s) for the dysfunction may be brain
damage and/or genetic and environmental influences.
The PFC, the rostralmost region of the frontal lobe, as part of neural circuits that include other
cortical and subcortical regions, is widely regarded as the neural substrate for many executive
functions (EFs), at least some of which are impaired in ASB. EFs include working memory,
planning, decision–making and inhibition (Eslinger,
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28.
29. The Anatomy Of The Cerebral Cortex
The cerebral cortex is a vital component of the brain, and is responsible for bodily functions that
would be difficult to live without. To have a more suitable expertise of the cerebral cortex scientist
divided the brain into for lobes contingent to the purpose of what each lobe is responsible for. Each
lobe of the cerebral cortex plays an essential role in humans every day life. If one of the lobes were
absent being successful at the University of Oklahoma would be difficult if not unviable. The
cerebral cortex has numerous functions, each being unique to how it affects the human body.
Scientist categorized the cerebral cortex into four different lobes depending on their purpose to
improve our understanding and assist our research of the cerebral cortex. The four lobes of the
cerebral cortex are the Frontal, parietal, occipital, and temporal lobes. The frontal lobe, located at
the front of the brain close to our foreheads, is in charge of more intricate and complex work of the
brain. It manages jobs such as contemplating, making decisions, and planning, but the frontal lobe is
also in charge of emotions and communication proficiency. The frontal lobe is an important
component of the cerebral cortex and is associated in most every day life experiences. Whether it be
deciding on an outfit for the day, or having a conversation with a friend. The parietal lobe transfers
our senses like contact, temperature, and aroma into things the body can feel and comprehend. If
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30.
31. The Cerebral Cortex
Q1: The cerebral cortex is a highly organized, six layered structure (L1–6) with a variety of
excitatory and inhibitory cell types. Excitatory (glutamatergic) neurons make up 80% of the cortex
and consist of pyramidal and spiny stellate (granule) neurons. Inhibitory (GABAergic) neurons
make up only 20% of the cortex and consist of four different subtypes: non–fast spiking serotonin
expressing GABAergic neurons, martinotti cells, basket cells, and chandelier cells (Petersen &
Crochet, 2013; Shipp, 2007). The total number of neuronal cells in the adult human cortex is 21.4
billion for females and 26.3 billion for males; however, there are also non–neuronal cells present in
the cortex (Pelvig, Pakkenberg, Stark, & Pakkenberg, 2008). The major non–neuronal cells are glial
cells and consist of: oligodendrocytes (75% of non–neuronal cells), astrocytes (20%) and microglia
(5%) (Pelvig et al., 2008). The layering of the cortex is highly organized, with specific cell bodies
located in each layer. Layer 1 receives input from other cortical layers as well as subcortical layers
and is comprised solely of inhibitory neurons, although there are axons and dendrites that project
onto these neurons in addition to non–neuronal cells (Petersen & Crochet, 2013). Layers 2/3 are
difficult to differentiate from one another, and often referred to as the supragranular layers. These
layers contain medium sized pyramidal cells that have densely packed and highly aligned apical
dendrites and make
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32.
33. Primary Visual Cortex
Throughout history, a human being was always reliant on the primary sensory areas. An ability to
communicate and contract languages is considered to be a unique ability of human nation as no
other species show an equal amount of complexity in terms of the structure and sound combination.
On the other hand, primary visual cortex provides a skill set in order to identify the objects
presented in the world, the distance towards them as well as to design a set of actions in order to
incorporate some items such as a stone or a pen. The understanding of these systems is crucial,
especially for those who suffer from strokes and tumors and as a result lost the ability to visually
recognize objects or hear other people. This work will focus of the structure ... Show more content
on Helpwriting.net ...
The system consists of the eyes where the information is collected, geniculate lateral nucleus and
visual cortex. The visual cortex could be subdivided into the primary visual cortex and the striate
cortex. This sensory system is located at the back of a brain parts of which are located in both
hemispheres. Recent studies obtained a sufficient amount of information in order to construct the
two–stream hypothesis, which describes the ventral and dorsal streams. The ventral stream begins at
the primary visual cortex and goes to the inferior temporal cortex. Main functional responsibilities
of this area include identification of objects and the emergence of the long–term memory the origins
of which are placed in this area (Rauschecker, Josef P and Sophie K. Scott 722). Dorsal stream also
begins at the primary visual cortex and ends at the posterior parietal cortex. It is mainly responsible
for the body part control required in order to manipulate an object. The research shows that these
"what" and "why" systems are not directly related, and the damage in one affect the other only to a
certain extent. It could be explained by the fact that that input is transformed differently via action
and
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34.
35. The Effect Of New Protein Synthesis At Prl Cortex
training. Mice infused with anisomycin (n= 12) immediately after conditioning showed impairment
in contextual fear memory compared with vehicle–infused animals (saline, n=18) when tested 24
hours after CFC training (DF=28, F=7.19, t–test: p< 0.05) (Figure 2A). Surprisingly, irrespective of
the overall decrease in freezing percentage, mice injected with anisomycin did not show any
statistical difference in the level of freezing within the first 2 minutes of the test (Figure 2B). By the
third minute of testing, ANI–injected mice show a significant decrease in their level of freezing,
showing statistical significant differences until the end of the test (drug × memory minutes of test
DF=28, F=13.16, t–test p< 0.01; DF=28, F=7.66, t–test p< 0.01; DF=28, F=5.46, t–test p< 0.05)
(Figure 2B). These results suggested that new protein synthesis at PrL cortex is critical for the
encoding of contextual fear memories.
To further understand new protein synthesis at PFC, we asked whether other subregions of PFC are
also critical for encoding of contextual fear memories. To address this question, we studied the role
of cingulate cortex 1 (CG1) region of PFC in encoding. We injected anisomycin to inhibit protein
synthesis at CG1. Four separate groups of animals received anisomycin and saline infusions into the
adjacent CG1 (Saline, n= 8; ANI, n=6; Figure 2 C and D). As in the case of Prl cortex, anisomicyn
was injected shortly after CFC training. Measurements of freezing at 24 hours
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36.
37. Computational Model of Neural Networks on Layer IV or...
Topic: Computational Modeling of Neural Networks on Layer IV of Primary Visual Cortex
Confirms Retinal Origin of Orientation Map
Results section Orientation selectivity is one of the properties of neuron in primary visual cortex that
a neuron response maximally when particular orientation of stimulus is given. The orientation map
is a map showing the orientation preferences of cortical neurons in primary visual cortex. This
research provides evidences for support of the theory posit that the orientation selectivity map is a
product of a Moiré interference pattern that originates in retinal ganglion cells. This paper shows
that interactions between excitatory neurons and inhibitory neurons in neuron network modeled by
NEURON simulator having a Moiré interference pattern which results in an orientation selectivity
map on the primary visual cortex.
The LGN neural network
The Feed Forward Input Network
The On and Off mosaics of magnocellular LGN cells were created. Examples of the mosaics are
shown in the figure 5. The networks act as feed forward input to the cortical neural network. Figure
5. The On and Off KGN mosaics. A) The ideal mosaic when there is no spatial noise.
B) The mosaics that created following the real physiological data constraints.
A shows more interference pattern than B.
Layer 4C of Primary Visual Cortex Cortical Network Model
There are two types of cortical neurons being considered in the model, excitatory neurons and
inhibitory neurons.
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38.
39. Functions Of The Various Cerebral Cortex Regions Essay
1. Module
a. What are the functions of the various cerebral cortex regions?
b. To what extent can a damaged brain reorganize itself, and what is neurogenesis
c. What do split brains reveal about the functions of our two brain hemispheres?
d. What does research tell us about being left–handed? Is it advantageous to be right–handed?
2. Outline
a. The cerebral cortex
i. Older brain networks endure simple life roles and enable memory, emotions and basic drives. ii.
The cerebral hemisphere come as a duos iii. Cerebral cortex: a thin surface layer of interconnected
neural cells
1. Brains thinking crown
2. Bodies control and information center iv. The complex functions of our cerebral cortex is what
makes us distinctively human.
v. Structure of the cortex: vi. The brains left and right hemisphere are filled mainly with axons
connecting the cortex to the brains other regions vii. The cerebral cortex (being human takes a lot of
nerves)
1. Contains 20–35 billion of the brains nerve cells
2. 300 trillion synaptic connections viii. Cortex is divided into four lobes separated by prominent
fissures or folds
1. Frontal lobes (behind your forehead)
2. Parietal lobes (at the top and to the rear)
3. Occipital lobes (at the back of your head)
4. Temporal lobes (reversing direction, just above ears) ix. Function of the cortex:
x. Specific parts of the cortex control complex functions like movement or speech xi. Motor
function:
1. 1870, Gustav Fritsch and Eduard Hitzig discovered: Mild
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40.
41. Prefrontal Cortex In Adolescence
The brain's white matter, prefrontal cortext responds to judgment and impulse control is different in
adolescent than adult. During adolescent, teenagers can easily be more frustrated and upset for no
reason, while the adult are calmer with the emotion. This also true because when I was in my
teenage years, if things wasn't going according to what I want, I would be upset with everything
around me.
In another experiment, young teenagers judge other's people's faces using part of the brain which
determine to recognize fear and alarm, this can be misjudge and reading the emotion wrongfully.
While in adult use more of the rational prefrontal cortex. This explains why when I was small and I
am doing something wrong, I believes that my parents is
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42.
43. The Functions Of The Talamus In The Midbrate Brain
Translated from Greek thalamus means "chamber" and is a midline symmetrical structure of two
halves, with the vertebrate brain, situated between the cerebral cortex and the midbrain. The
functions of the thalamus is to relay the sensory and motor signals to the cerebral cortex and the
midbrain, and the regulation of consciousness, sleep, and alertness. The thalamus is located in the
forebrain superior to the midbrain, near the center of the brain, with nerve fibers projecting into the
cerebral cortex in all directions of the brain. The surface of the thalamus constitutes the upper part of
the lateral wall of the third ventricle, and is connected to the corresponding surface of the opposite
thalamus by a flattened gray band, the interthalamic
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44.
45. Prefrontal Cortex Summary
The Prefrontal Cortex is involved in planning of behavior, attention and judgment and the
orbitofrontal cortex plays an important role in emotions and impulse control. This is related to the
article because in order for people to feel empathy, their orbitofrontal cortex has to function. To act
the way people do when approached by their competitors, people need their prefrontal cortex to act
how they would. The article does not necessarily contradict any of the content we learned but it
gives examples of how there structures in our brain aid in our behavior and in the way we act. If
these parts of our brain weren't working, people would experience impulsiveness, antisocial
behavior, experience of various emotions and deficits in the ability
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46.
47. The Controller of Humans: The Brain Essay
The human brain is composed of many important parts of everyday life. The exterior part of the
brain has 9 part in which include are divided into different sections, lobes, cortex, and areas. Within
the lobes, it includes frontal, parietal, occipital, and temporal lobes. In cortexes, it has the motor
cortex, and the sensory cortex. Within the areas section it includes Broca's Area. The cerebellum is a
small version of the brain, and the cerebrum is the like the whole brain. Although the brain is about
three pounds blood flows through the brain about 750–1,000 milliliters (mL) per minute, (Disabled
World, 2008) (Brain Trivia, (n.d.)).
The brain is quite small but there is still a little brain, the cerebellum. The cerebellum function is to
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Largest of the lobes, handles brain thinking functions (Frontal Lobe: (n.d.)). This lobe is located in
front of the central sulcus (Lobes of the Brain, (n.d.)).
The cortex responsible for coordination of planning, control, and executing voluntary movements is
the motor cortex. Motor areas are located in both hemispheres meaning it is located in between. The
motor cortex of the left hemisphere control right side of the body. The motor cortexes of the right
hemisphere control the left side of the body. Three parts make up the motor cortex. Which are the
primary motor cortex, the premotor cortex, and the supplementary motor area (The Motor Cortex.
(n.d.)).
Broca's Area generates speech, writing, language processing and comprehension (Cold Spring
Harbor Laboratory, (n.d.)).Named after French scientist Paul Broca. Scientist believe that we speak
with the left–brain. Located in the front part of the left hemisphere. Lies specifically in the third
frontal convolution. Broca's Area contains motor neurons involving the control of speech.
(Encyclopedia of Britannica, (n.d.)).
Within the lobes, the parietal lobe lies in that category. This lobes function is to stimuli touch,
pressure, temperature, and pain (Lobes of the Brain, (n.d.)). This parietal lobe is divided into two
parts, superior parietal and the inferior parietal lobe. Neurons receive sensory information from skin
and tongue. This then processes information from the ears and the eyes (Parietal Lobe, (n.d.)).
The
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48.
49. Visual Cortex Function
The visual cortex is related to the primary visual cortex, labeled V1 and Brodmann area 17, and
extrastriate visual cortical areas V2–V5. [12] Located in the occipital lobe, V1 functions as the
primary relay station for visual input, transferring information to two main ways marks the dorsal
and ventral streams. The flow back covers V2 and V5 areas and is used for visual interpretation
"where" and "how." The ventral stream comprises areas V2 and V4, and is used in the interpretation
of "what." [13] Increases in Task negative activity in the ventral attention network are observed after
sudden changes in sensory input, [14] at the beginning and end block tasks [15] and at the end of the
completed study. [16] Auditory cortex Temporal lobe is ... Show more content on Helpwriting.net ...
The cortex like two main structures: the anterior insula, the island flap and the front cover in the
frontal lobe. Similar to the olfactory cortex of the way like working through both peripheral and
central mechanisms. Peripheral taste receptors on the tongue, soft palate, pharynx, esophagus, and
transmit the received signal to primary sensory axons, where the signal to the nucleus of the solitary
tract in the medulla, or the flavor of the nucleus of the solitary tract projected complex. The signal is
then transmitted to the thalamus, which in turn projects the signal in a plurality of areas of the
neocortex, including gustatory cortex
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50.
51. The Prefrontal Cortex: A Key Role In Neurocognitive Analysis
The prefrontal cortex plays a major key role in Neurocognitive Networks of impulsivity and
transition to addiction. The cortex regulates the reward and its involvement in higher–order
executive functions, such as self–control, goal oriented behavior, and response inhibition. According
to "Goldstein and Volkow" reviewed neuroimaging data of specific prefrontal cortex regions and
their roles in neuropsychological mechanisms that underlie the relapsing cycle of addiction.
Focusing on inhibitory control and emotion regulation, there are two different prefrontal regions,
which are implicated in a higher order cognitive process (cold), and ventral PFC regions subsuming
the ventral OFC, ventromedial PFC and rostroventral ACC, which are triggered during
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52.
53. Prefrontal Cortex Effect
There have been various studies which have attempted to investigate whether brain dysfunction can
lead to certain defects, and damage to the prefrontal cortex is an area of research that over the years
has shown to have negative effects on behaviour, cognition and emotions. The prefrontal cortex is
situated on the frontal lobes of the brain and the frontal lobes are generally concerned with
discouraging unsuitable and inapt behaviours. The prefrontal cortex usually play a fundamental role
in one's decision making, organisation of information and planning. Hence, any damage to the
prefrontal cortex leads to a lack in decision making and an inability to plan.
Two key components to an impaired prefrontal cortex are drugs and alcohol (Rogers et ... Show
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The young adolescent experienced profound changes in his behaviour in terms of aggression and
agitation, nevertheless, he still maintained his cognitive abilities such as memorising and engaging
in political knowledge. This study is also based on a real life case study, which are unique and cause
some difficulties when making generalisations. However, this study supports the conclusions drawn
by Anderson S.W, Damasio H, Traeel D and Damasio AR (2000) who found that prefrontal lesions
in during early development can cause serious social problems, yet these individuals can have
ordinary cognitive capabilities such as academic attainment and good
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54.
55. Dorsolateral Prefrontal Cortex Case Study
Overview:
The Dorsolateral Prefrontal Cortex (DLPFC) is part of the frontal lobe, one of the most complex
parts of the brain and among the last areas to develop. According to numerous neuroimaging studies,
it may not be fully mature until a person's mid–20s. The DLFPC has numerous connections with
other parts of the brain and helps integrate information from different systems.
The DLPFC is involved in higher–order processing and executive functions like working memory,
planning, attention, and self–regulation. These functions are crucial for everyday tasks like learning,
decision–making, and socializing.
Location:
The Prefrontal Cortex lies in the frontal lobe anterior to the motor, premotor, and limbic areas and
makes up about ⅓ of the total neocortical area of the brain. The prefrontal cortex may be further
subdivided into the dorsolateral, orbitofrontal, and (sometimes) ventrolateral cortices, though there
is some debate about these divisions. There is not a clear anatomical line where the DLPFC begins
and ends. One way of defining it is by its connection to the parvocellular subdivision of the
mediodorsal nucleus of the thalamus. Some authors say it includes Brodmann Areas 9 and 46 only,
others may include ... Show more content on Helpwriting.net ...
The whole group went through a normal daily treatment with deep transcranial magnetic stimulation
over the four weeks, then a subgroup continued with weekly maintenance sessions. This study is
based on previous findings that depression is associated with hypoactivity in the left DLPFC and
hyperactivity in the right DLPFC. All subjects showed improvement after the initial treatment, but
then declined if they did not receive weekly maintenance
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56.
57. Ventromedial Prefrontal Cortex
Structures and Function of the Frontal Lobe
The frontal lobe contains two key structures that have a great impact on mood, behavior and
judgment. These structures are located in the outer area of the cerebrum towards the front of the
skull (Carlson, 2013). This paper will discuss the function and structure of the Ventromedial
Prefrontal Cortex (including the orbitofrontal cortex) and the Dorsolateral Cortex.
The Function of the Ventromedial Prefrontal Cortex
Many studies have concluded that the ventromedial prefrontal cortex (or vmPFC) appears to provide
the inhibition of emotional responses (Carlson, 2013). This region of the brain provides the mind
with the faculties of self–restraint or self–control.
Behavior Affected by Damage to the Ventromedial Prefrontal Cortex ... Show more content on
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For example, a study conducted by the University of Iowa College of Medicine found that when this
portion of the brain is damaged, individuals were more susceptible to believing misleading
advertising, thereby triggering the person to make a purchase (Asp et al., 2012). Another study from
the University of Iowa found that damage to the vmPFC seems to be connected with patients who
suffer from drug or gambling additions (Bechara, 2003).
Neurotransmitters Associated with the Ventromedial Prefrontal Cortex
Glutamate and Gamma–aminobutyric acid (or GABA) are the main neurotransmitters associated
with this part of the brain. Through the use of magnetic resonance spectroscopy (MRS) researchers
have been able to measure these particular neurotransmitters in order to predict human behavior
when it comes to value guided decision making (Jocham, Hunt, Near, & Behrens, 2012).
Connections Made to the Ventromedial Prefrontal
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58.
59. During the development of the human brain, the layers of...
During the development of the human brain, the layers of the cerebral cortex are formed by
migrating neurons which come from specialized proliferating regions lying deep in the brain. This
neural migration comprises neurons moving as far as one thousand times their own body lengths
before they arrive at their destination. During this developmental process, the cortex is divided into
six organized layers. In Lissencephaly, this organized cortical layering is disrupted and instead
forms four unorganized layers1. It is a severe developmental brain disorder which is characterized
by a smooth brain with an abnormal thick cortex, enlarged ventricles, and very few or no gyri2. At
the basis of this disease lies failure of proper migration of ... Show more content on Helpwriting.net
...
The C–Terminal Ser/Pro–rich domain has no known function in microtubule binding as of yet.
Rather, it functions as an interaction site for other molecules. This suggests that DCX is involved in
signaling pathways: DCX is phosphorylated by both Cyclin–dependent kinase 5 (CDK5) and c–jun
NH2–terminal kinase (JNK)7,8 at the Ser/Pro–rich domain. Phosphorylation of DCX by CDK5
controls and localizes DCX to fine perinuclear microtubules but not to microtubule bundles in
proximal processes. This phosphorylation is developmentally regulated by p35, the major activating
subunit for CDK58. At the growth cones, DCX is co–localized with JNK. Phosphorylation of DCX
by JNK facilitates neurite outgrowth during differentiation, a process which is important in
migration. Additionally, DCX interacts with JNK–interacting protein–1 (JIP–1), a scaffold protein
that facilitates its phosphorylation by JNK and furthermore might provide a crosstalk with the reelin
pathway7,9. A defective cortical layering phenotype is also observed in individuals with mutations
in the REELIN gene. Other phosporylation proteins for DCX are PKA and MARK.
Dcx/microtubule interactions are negatively controlled by PKA and MARK at the growth cones.10
Unlike the other two kinases, PKA and and MARK does not phosporylate DCX at the Ser/Pro
domain, but at several other sites, with the most important one being S47. The C–terminal region of
DCX regulates filamentous actin polymerization in
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60.
61. Frontal Lobe Research Paper
The Brain's Frontal Lobes Actions
The frontal lobe and the following other parts of the frontal lobe section of the brain have many
functions. The frontal lobe part of the brain connects to many other structural parts of the brain,
connected to mini sections of which creates different effects to the lobe. Which are the prefrontal
cortex, orbitofrontal cortex, primary motor cortex, and premotor cortex.
The prefrontal cortex is located within the frontal lobe, but it takes up the majority of the lobe. The
function of the prefrontal cortex is the crucial performance, and skill it provides within the brain
which requires intelligence. The brain is located in many different subjects, such as a human,
mammal, and animal. When discussing the prefrontal cortex, it's known to many that it's larger in
certain primates and it tends to be that way but not in mammals. It is also known to be larger in the
human brain compared to other primates' brains. The reason of this is because of the high amount of
the level planning which is correlated by the members that have different species. The majority of
the mammal population operate on most likely the first instinct, which they don't live within
complex social groups. The primates are the ones with the complex with both male and female
which the hierarchies hatches the plans towards each other ... Show more content on Helpwriting.net
...
This area is known as the anterior in which includes the medial part in the prefrontal cortex. A
human individual that could possibly run into damaging this area of the brain could potentially have
the normal and/or superior intelligence. Which is usually tested by IQ programs, and studies. The IQ
test could lack some rudimentary concepts of the many manners and the appropriate actions within
the social contexts. Then it becomes possible to lose all risk of the aversion which makes it clear of
the knowledge of the bad consequences.
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62.
63. The Prelimbic Cortex (PL): A Case Study
The prelimbic cortex (PL) is an important structure involved in several stress–related functional
processes, such as cardiovascular, hormonal and behavior responses. Since there is an increased
expression of central angiotensinergic receptors during stressful situations, we tested the hypothesis
that such angiotensinergic neurotransmission in the PL modulates the autonomic responses evoked
by restraint stress in rats, such as blood pressure and heart rate increases, and reduction in tail
temperature.. Male Wistar rats were used and guide cannulas were bilaterally implanted in PL for
microinjection of vehicle or drugs. A polyethylene catheter was introduced into the femoral artery
for recording of cardiovascular parameters using a computerized
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64.
65. Auditory Cortex Failure
If I were to get into an accident, and had to choose which part of the brain I would be okay with
being damaged, I think I would have to choose the Auditory Cortex. Damage to the Auditory Cortex
in humans means the loss of awareness in sound. If the damage was severe there is a chance I would
go completely deaf. However, there is the slight chance that I could still have reactions to sounds. I
may still be able to tell the difference between high and low pitch frequencies in the sounds. I can
also possibly be able to tell which direction a sound is coming from. There is also a chance it would
cause me to have balance issues, and excessive ringing in the ears. Most of the time this type of
damage is permeant. I think that I could handle the
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66.
67. Dude Where's My Front Cortex Analysis
The article "Dude, Where's My Frontal Cortex?" by Robert Sapolsky talks about the delayed
maturation of the frontal cortex in teenagers and how the underdeveloped frontal cortex is the cause
of erratic behavior of teenagers. Sapolsky explains to the reader how the frontal cortex does not
fully develop until the age of twenty for a person and how that part of the brain is important for
extensive reasoning, impulse control, and emotional regulation. He shows the reader how
particularly emotional situations affect both a teenager and an adult differently due to either having
or not having a matured frontal cortex. This example that he uses allows for the reader to see how a
teenager responds to situations with extreme thoughts and behavior which
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68.
69. Prefrontal Cortex Research Paper
Creating the world's first Z–Bomb, would have to be the most dangerous thing that could happen to
humans. Turning them into Zombies, it would entirely change the characteristics of a human being
and its brain. Although both living, Zombies have drastic defects towards certain aspects of the
body. This Z–bomb won't necessarily turn humans into zombies, but rather give humans zombie–ish
characteristics. For starters, the Prefrontal Cortex would be affected. Meaning that it would be
harder for these 'Zombies' to have complex cognition as well as a properly functioning emotional
system. When stated that zombies have 'extraordinarily high pain tolerance', this means that their
nociceptors were damaged, which is responsible for pain tolerance.
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70.
71. An Examination of Cross-Modal Reorganization in the...
The brain is capable of changing itself, particularly as a consequence of experience in early life.
Following early–deafness, auditory cortex undergoes cross–modal reorganization to exhibit visual
responsiveness; this is accompanied by enhanced visual abilities. The objective of Lomber et al.'s
(2010) study was to establish a causal connection between cross–modal reorganization of specific
regions of auditory cortex and enhanced visual abilities. To identify the enhanced visual abilities, the
researchers compared the performance of adult hearing to the performance of congenitally deaf cats
on seven visual psychophysical tests. They tested visual localization, movement detection, grating
acuity, Vernier acuity, orientation discrimination, detection of motion, and velocity discrimination
abilities. Following the completion of the tests, the researchers found that early–deaf cats performed
better than the hearing cats in peripheral visual localization and visual motion detection abilities. For
the other tests, the performance of the congenitally deaf cats was not significantly different from the
performance of the hearing cats. To investigate if the cross–modal effects are evenly distributed
across auditory cortex, Lomber et al. (2010) employed cooling loops to differentially deactivate
specific regions of auditory cortex. Ultimately, they suggested that the posterior auditory field (PAF)
mediated enhanced peripheral visual localization
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72.
73. The Effect Of Stimulating The Motor Cortex ( M1 Region )...
Specific Aim 1: Title (copy from Specific Aims page)
To compare between the effect of stimulating the motor cortex (M1 region) using Transracial
stochastic noise stimulation (TSNS) and transracial direct current stimulation, and to quantify the
effect of the TSNS on the brain activity. In order to measure the effect we need to conduct two
studies. First experiment is done inside the FMRI scanner, to record rCBF (regional Cerebral Blood
Flow) for healthy control subjects while stimulating the M1 region using TDCs and TSNS. Second
experiment is to measure the effect of TSNs and TDCs using TCD, which measures the change in
Brain Blood Flow.
Rational and Hypothesis:
Most of stroke patients suffer from dysfunction in some of the brain activities; one common
dysfunction is arm or leg paresis. Therefore the long term goal is to use noninvasive electrical
stimulation to improve the function for arm paresis stroke and TBI patients. The targeted population
is individuals that have post stroke/TBI dysfunction. Previous studies showed that the stimulation of
the motor cortex (M1) region using direct electrical stimulation increases brain activity and help
improves brain function. However Direct current stimulation has several limitations, for instance the
polarity of the electrodes effects the measurement, since the brain region that attached to the anode
will be excited and the region that is attached to the cathode will be inhibited. Therefore we are
introducing a new novel method
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74.
75. Interaction Between The Primitive Brain And Neo-Cortex
Question #1 In this video, Mark discusses the interaction between our 'primitive brain' and our 'neo–
cortex', explaining how the two work together to form opinions of other people. How does Mark's
explanation of this interaction between our primitive brain and neo–cortex help us to understand the
following quotation from our course textbook? "Changing a buyer's attitudes and beliefs is the most
difficult challenge a salesperson faces." Our primitive brain make quick decisive judgements about
the people around it based on the behaviour another is displaying. We pick up details and facts about
a person to be categorized either as a friend, enemy, or sexual partner/approachable or not
approachable. The neo–cortex uses the categories from the data you collected to push friend or
enemy, basically making up stories in favor of what you primate brain unconsciously tells you. The
video can help to understand the quote from the textbook say, "Changing a buyer's attitudes and
beliefs is the most difficult challenge a salesperson faces." People choose what they what to believe
in and the brain takes a role in consciously puts you in a category, that category deicide whether or
not the buyers going to listen to you or you become ... Show more content on Helpwriting.net ...
Think about the Social Style self–evaluation we did in class, and about your own behavioural
tendencies. Write a paragraph about a tendency or characteristic that you have that may NOT serve
you well in a professional selling or business setting. Explain 1) what the tendency is, 2) how it
could be to your detriment in a professional selling or business setting, 3) how you might adjust it
(or act inauthentically) and 4) the positive result that you may get from making the
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76.
77. Essay on Quiz: Sleep and Cortex Correct
| ––––––––––––––––––––––––––––––––––––––––––––––––– Review Assessment: Quiz #1 |
Question 1 | 1 out of 1 points | | An individual that tends to feel good about themselves is said to
have a high | | | | | Selected Answer: | Self–esteem | Correct Answer: | Self–esteem | | | | | Question 2 |
1 out of 1 points | | Which part of the brain controls functions such as planning, organizing and
rational thinking? | | | | | Selected Answer: | Frontal cortex | Correct Answer: | Frontal cortex | | | | |
Question 3 | 0 out of 1 points | | Which disorder below is characterized by anxiety about being in
situations where escape may be difficult or embarrassing? | | ... Show more content on
Helpwriting.net ...
| | | | | Selected Answer: | False | Correct Answer: | False | | | | | Question 19 | 1 out of 1 points | | The
ancient practice of yoga is rooted in | | | | | Selected Answer: | Hindu philosophy | Correct Answer: |
Hindu philosophy | | | | | Question 20 | 1 out of 1 points | | The search for meaning and purpose in life
is an important aspect of life. According to this psychologist, people are always striving to meet
their needs. | | | | | Selected Answer: | Abraham Maslow | Correct Answer: | Abraham Maslow | | | | |
Question 21 | 0 out of 1 points | | Research has indicated that _____% of women report they do not
get enough sleep most nights of the week. | | | | | Selected Answer: | 43% | Correct Answer: | 60% |
Feedback: | Page 93 | | | | | Question 22 | 1 out of 1 points | | The ____________ is responsible for
immobilizing the body during rapid eye movement sleep. | | | | | Selected Answer: | Pons | Correct
Answer: | Pons | | | | | Question 23 | 1 out of 1 points | | This sleep disorder is most common in
women, persons with rheumatoid arthritis, people who are iron deficient or persons who are in
kidney failure. It affects less than 4% of the population. | | | | | Selected Answer: | RLS | Correct
Answer: | RLS | | | | | Question 24 | 1 out of 1 points | | In
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