Split-brain

Split-brain is a lay term to describe the result when the corpus callosum connecting the two hemispheres of the brain is severed to some degree. It is an association of symptoms produced by disruption of or interference with the connection between the hemispheres of the brain. The surgical operation to produce this condition results from transection of the corpus callosum, and is usually a last resort to treat refractory epilepsy. Initially, partial callosotomies are performed; if this operation does not succeed, a complete callosotomy is performed to mitigate the risk of accidental physical injury by reducing the severity and violence of epileptic seizures. Before using callosotomies, epilepsy is instead treated through pharmaceutical means. After surgery, neuropsychological assessments are often performed.

When split-brain patients are shown an image only in their left visual field (the left half of what both eyes take in (see optic tract)), they cannot vocally name what they have seen. This can be explained in three steps: (1) The image seen in the left visual field is sent only to the right side of the brain; (2) For most people, the speech-control center is on the left side of the brain; and (3) Communication between the two sides of the brain is inhibited. Thus, the patient cannot say out loud the name of that which the right side of the brain is seeing. In the case that the speech-control center is on the right side of the brain, the image must now be presented to only the right visual field to achieve the same effect.

If a split-brain patient is touching a mysterious object with only the left hand, while also receiving no visual cues in the right visual field, the patient cannot say out loud the name of that which the right side of the brain is touching. This can be explained in three steps: (1) Each cerebral hemisphere of the primary somatosensory cortex only contains a tactile representation of the opposite (contralateral) side of the body; (2) For most humans, the speech-control center is on the left side of the brain; and (3) Communication between the two sides of the brain is inhibited. In the case that the speech-control center is on the right side of the brain, the object must now be touched only with the right hand to achieve the same effect.

The same effect occurs for visual pairs and reasoning. For example, a patient with split brain is shown a picture of a chicken and a snowy field in separate visual fields and asked to choose from a list of words the best association with the pictures. The patient would choose a chicken foot to associate with the chicken and a shovel to associate with the snow; however, when asked to reason why the patient chose the shovel, the response would relate to the chicken (e.g. "the shovel is for cleaning out the chicken coop").

"Scientists have often wondered whether split-brain patients, who have had the two hemispheres of their brain surgically disconnected, are 'of two minds'" (Zilmer, 2001).

History



In the 19th century, research on people with certain brain injuries, made it possible to suspect that the "language center" in the brain was commonly situated in the left hemisphere. One had observed that people with lesions in two specific areas on the left hemisphere lost their ability to talk, for example. Research was pioneered by Roger Sperry and his colleagues. In his early work on animal subjects, Sperry made many noteworthy discoveries. The results of these studies over the next thirty years later led to Roger Sperry being awarded the Nobel Prize in Physiology or Medicine in 1981. Sperry received the prize for his discoveries concerning the functional specialization of the cerebral hemispheres. With the help of so-called "split brain" patients, he carried out experiments, and for the first time in history, knowledge about the left and right hemispheres was revealed. In the 1960s Sperry was later joined by Michael Gazzaniga a psychobiology Ph.D. student in his work on split-brain research at Caltech in Pasadena, California. Even though Sperry is considered the founder of split-brain research, Gazzaniga’s clear summaries of their collaborative work are consistently cited in psychology texts. In Sperry and Gazzaniga's, “The Split Brain in Man” experiment published the Scientific American in 1967 they wanted to explore the extent to which two halves of the human brain were able to function independently and whether or not they had separate and unique abilities. They wanted to examine how someone with a split-brain perceptual and intellectual skills were affected. At Caltech, Gazzaniga worked with Sperry on the effects of split-brain surgery on perception, vision and other brain functions. The surgery, which was a treatment for severe epilepsy, involved severing the corpus callosum, which carries signals between the left-brain hemisphere, the seat of speech and analytical capacity, and the right-brain hemisphere, which helps recognize visual patterns. At the point of which this article was written, only ten patients had undergone the surgery to sever their corpus callosum. Four of these patients had consented to participate in Sperry and Gazzaniga’s research. After the corpus callosum severing all four participants personality, intelligence, and emotions appeared to be unaffected. The testing done by Sperry and Gazzaniga showed however, the subjects demonstrated unusual mental abilities. The researchers created three types of tests to analyze the range of cognitive capabilities of the split-brain subjects. The first was to test their visual stimulation abilities, the second test was a tactile stimulation situation and the third tested auditory abilities.

Visual Test

The first test started with a board that had a horizontal row of lights. The subject was told to sit in front of the board and stared at a point in the middle of the lights, then the bulbs would flash across both the right and left visual fields. When the patients were asked to explain afterward what they saw, they said that only the lights on the right side of the board had lit up. Next when Sperry and Gazzaniga flashed the lights on the right side of the board on the subjects left side of their visual field, they claimed to not have seen any lights at all. When the experimenters conducted the test again, they asked the subjects to point to the lights that lit up. Although subjects had only reported seeing the lights flash on the right, they actually pointed to all the lights in both visual fields. This showed that both brain hemispheres had seen the lights and were equally competent in visual perception. The subjects did not say they saw the lights when they flashed in the left visual field even though they did see them because the center for speech is located in the brain’s left hemisphere. This test supports the idea that in order to say one has seen something, the region of the brain associated with speech must be able to communicate with areas of the brain that process the visual information.

Tactile Test

Sperry and Gazzaniga for their second test placed an object in the right hand of a subject, but they could not see or hear it. The brain then sent messages about its tactile characteristics to the left hemisphere so that the subject was able to verbally describe it. When the same thing was done but with the left hand, subjects could not name or describe it. The researchers wanted to find out if the subjects knew what the object was in their left hand, so they asked them to match it to a group of various objects placed in front of them, which they did very easily. The lack of patients having a corpus callosum made it so that the information about what was in the left hand could not be transmitted from the right side of the brain to the left, so that the subject could not verbalize what they were holding.

Visual and Tactile Test

In the last test the experimenters combined both the tactile and visual test. They presented subjects with a picture of an object to only their right hemisphere, and subjects were unable to name it or describe it. There were no verbal responses to the picture at all. If the subject however was able to reach under the screen with their left hand to touch various objects, they were able to pick the one that had been shown in the picture. The subjects were also reported to be able to pick out objects that were related to the picture presented, if that object was not under the screen.

Sperry and Gazzaniga went on to conduct other tests to shed light on the language processing abilities of the right hemisphere as well as auditory and emotional reactions as well. The significance of the findings of these tests by Sperry and Gazzaniga were extremely telling and important to the psychology world. Their findings showed that the two halves of the brain have numerous functions and specialized skills. They concluded that each hemisphere really have functions of its own. One’s left hemisphere of the brain is thought to be better at writing, speaking, mathematical calculation, reading, and is the primary area for language. The right hemisphere is seen to possess capabilities for problem solving, recognizing faces, symbolic reasoning, art, and spatial relationships.

Further research had continued by Roger Sperry up until his death in 1994 and Michael Gazzaniga still is researching the split-brain. Their findings have been rarely critiqued and disputed, except today there is a wide belief that some people are more “right-brained” or “left-brained”. In the mid 1980s a psychobiologist, Jarre Levy, at the University of Chicago had set out and been in the forefront of scientists who wanted to dispel the notion we have two functioning brains. She believes that because each hemisphere has separate functions that they must integrate their abilities instead of separating them. Levy also claims that no human activity uses only one side of the brain. In 1998 a French study by Hommet and Billiard was published that questioned Sperry and Gazzaniga’s study that severing the corpus callosum actually divides the hemispheres of the brain. They found that children born without a corpus callosum demonstrated that information was being transmitted between hemispheres, they concluded that subcortical connections must be present in these children with this rare brain malfunction. They are unclear about whether these connections are present in split-brain patients though. Another study by Parsons, Gabrieli, Phelps, and Gazzaniga in 1998 demonstrated that split-brain patients may commonly perceive the world differently from the rest of us. Their study suggested that communication between brain hemispheres is necessary for imaging or simulating in your mind the movements of others. Scientist Morin’s research on inner speech in 2001 suggested that an alternative for interpretation of commissurotomy according to which split-brain patients exhibit two uneven streams of self-awareness; a “complete” one in the left hemisphere and a “primitive” one in the right hemisphere.

Hemispheric specialization



The two hemispheres of the cerebral cortex are linked by the corpus callosum, through which they communicate and coordinate actions and decisions. Communication and coordination between the two hemispheres is essential because each hemisphere has some separate functions. The right hemisphere of the cortex excels at nonverbal and spatial tasks, whereas the left hemisphere is more dominant in verbal tasks, such as speaking and writing. The right hemisphere controls the primary sensory functions of the left side of the body. In a cognitive sense the right hemisphere is responsible for recognition of objects, timing and in an emotional sense it is responsible for empathy, humor and depression. On the other hand, the left hemisphere controls the primary sensory functions of the right side of the body and is responsible for scientific and math skills, and logic. The extent of specialized brain function by an area remains under investigation. It is claimed that the difference between the two hemispheres is that the left hemisphere is "analytic" or "logical" while the right hemisphere is "holistic" or "intuitive." Many simple tasks, especially comprehension of inputs, require functions that are specific to both the right and left hemispheres and together form a one direction systematized way of creating an output through the communication and coordination that occurs between hemispheres.

Role of the corpus callosum

The corpus callosum is a structure in the brain along the longitudinal fissure that facilitates much of the communication between the two hemispheres and its main function is in allowing for communication between the brain's right and left hemispheres. This structure is composed of white matter that is composed of millions of axons that have their dendrites and terminal buttons projecting in both the right and left hemisphere. However, there is evidence that the corpus callosum may also have some inhibitory functions. Post-mortem research on human and monkey brains show that the corpus callosum is functionally organized. It proves that the right hemisphere is superior for detecting faces. This organization results in modality-specific regions of the corpus callosum that are responsible for the transfer of different types of information. Research has revealed that the anterior midbody transfers motor information, the posterior midbody transfers somatosensory information, the isthmus transfers auditory information and the splenium transfers visual information. Although much of the interhemispheric transfer occurs at the corpus callosum, there are trace amounts of transfer via subcortical pathways.

Studies of the effects on the visual pathway on split-brained patients has revealed that there is a redundancy gain (the ability of target detection to benefit from multiple copies of the target) in simple reaction time. In a simple response to visual stimuli, split-brained patients experience a faster reaction time to bilateral stimuli than predicted by model. A model proposed by Iacoboni et al. suggests split-brained patients experience asynchronous activity that causes a stronger signal, and thus a decreased reaction time. Iacoboni also suggests there exists dual attention in split-brained patients, which is implying that each cerebral hemisphere has its own attentional system. An alternative approach taken by Reuter-Lorenz et al. suggests that enhanced redundancy gain in the split brain is primarily due to a slowing of responses to unilateral stimuli, rather than a speeding of responses to bilateral ones. It is important to note that the simple reaction time in split-brained patients, even with enhanced redundancy gain, is slower than the reaction time of normal adults.

Functional plasticity

Following a stroke or other injury to the brain, functional deficiencies are common. The deficits are expected to be in areas related to the part of the brain that has been damaged; if a stroke has occurred in the motor cortex, deficits may include paralysis, abnormal posture, or abnormal movement synergies. Significant recovery occurs during the first several weeks after the injury. However, recovery is generally thought not to continue past 6 months. If a specific region of the brain is injured or destroyed, its functions can sometimes be transferred and taken over by a neighboring region. There is little functional plasticity observed in partial and complete callosotomies; however, much more plasticity can be seen in infant patients receiving a hemispherectomy, which suggests that the opposite hemisphere can adapt some functions typically performed by its opposite pair. In a study done by Anderson, it proved a correlation between the severity of the injury, the age of the individual and their cognitive performance. It was evident that there was more neuroplasticity in older children, even if their injury was extremely severe, than infants who suffered moderate brain injury. In some incidents of any moderate to severe brain injury, it mostly causes developmental impairments and in some of the most severe injuries it can cause a profound impact on their development that can lead to long-term cognitive effects. In the aging brain, it is extremely uncommon for neuroplasticity to occur, “..olfactory bulb and hippocampus are two regions of the mammalian brain in which mutations preventing adult neurogenesis were never beneficial, or simply never occurred” (Anderson, 2005).

Corpus callosotomy

Corpus callosotomy is a surgical procedure that sections the corpus callosum, resulting in either the partial or complete disconnection between the two hemispheres. It is typically used as a last resort measure in treatment of intractable epilepsy. The modern procedure typically involves only the anterior 1/3 of the corpus callosum; however, if the epileptic seizures continue, the following 1/3 is lesioned prior to the remaining 1/3 if the seizures persist. This results in a complete callosotomy in which most of the information transfer between hemispheres is lost.

Due to the functional mapping of the corpus callosum, a partial callosotomy has less detrimental effects because it leaves parts of the corpus callosum intact. There is little functional plasticity observed in partial and complete callosotomies on adults, the most neuroplasticity is seen in young children but not in infants.

It is known that when the corpus callosum is severed that during an experimental procedure, the experimenter can ask each side of the brain the same question and receive two different answers. when the experimenter ask the right visual field/left hemisphere what do they see, the participant will respond verbally with what they see. Whereas, if the experimenter ask the left visual field/right hemisphere what they see, the participant will not be able to respond verbally but will pick up with their left hand what they see.

Memory

It is known that the right and the left hemisphere have different functions when it comes to memory. The right hemisphere is better at being able to recognize objects and faces, recall knowledge that the individual has already learned, or recall images already seen. The left hemisphere is better at mental manipulation, language production, and semantic priming but was more susceptible to memory confusion than the right hemisphere. The main issue for individuals that have undergone a callosotomy is that because the function of memory is split into two major systems, the individual is more likely to become confused between knowledge they already know and information that they have only inferred.

When thinking about split brain patients and their memory functions, it can be related to individuals with amnesia because these patients either have a problem with remembering anything that happen before the accident, retrograde amnesia or have a problem with making new memory, called anterograde amnesia. In tests, memory in either hemisphere of split-brained patients is generally lower than normal, though better than in patients with amnesia, suggesting that the forebrain commissures are important for the formation of some kinds of memory. This suggests that posterior callosal sections that include the hippocampal commissures cause a mild memory deficit (in standardized free-field testing) involving recognition. The difference in memory is because in patients anemsia is that patients with anterograde, only their explicit memory is affected whereas their implicit memory is still intact because the damage was to the hippocampus. This allows them to still learn procedurally, be primed, learn perceptual and be able to be classically conditioned. If the damage was to the amygdala, then the patient would have intact explicit memory and only their implicit memory would be affect. This allows those patients to be able to have semantic and episodic memory.

Control

In general, split-brained patients behave in a coordinated, purposeful and consistent manner, despite the independent, parallel, usually different and occasionally conflicting processing of the same information from the environment by the two disconnected hemispheres. When two hemispheres receive competing stimuli at the same time, the response mode tends to determine which hemisphere controls behavior.

Often, split-brained patients are indistinguishable from normal adults. This is due to the compensatory phenomena; split-brained patients progressively acquire a variety of strategies to get around their interhemispheric transfer deficits. One issue that can happen with their body control is that one side of the body is doing the opposite of the other side called the intermanual affect. In a more serious effect, the patient may have two different consciousnesses, one on each side of the brain.

Attention

Experiments on covert orienting of spatial attention using the Posner paradigm confirm the existence of two different attentional systems in the two hemispheres. The right hemisphere was found superior to the left hemisphere on modified versions of spatial relations tests and in locations testing, whereas the left hemipshere was more object based. The components of mental imagery are differentially specialized: the right hemisphere was found superior for mental rotation, the left hemisphere superior for image generation. It was also found that the right hemisphere paid more attention to landmarks and scenes whereas the left hemisphere paid more attention to exemplars of categories.

Case studies of split-brain patients



Patient W.J.

Patient W.J. was the first patient to undergo a full corpus callosotomy in 1962, after undergoing fifteen years of convulsions resulting from grand mal seizures. He was a World War II paratrooper who was injured at 30 years old during a bombing raid jump over the Netherlands, and again in a prison camp following his first injury. After returning home, he began to suffer from blackouts in which he would not remember what he was doing or where, and how or when he got there. At age 37, he suffered his first generalized convulsion. One of his worst episodes occurred in 1953, when he suffered a series of convulsions lasting for many days. During these convulsions, his left side would go numb and he would recover quickly, but after the series of convulsions, he never regained complete feeling on his left side.

Before his surgery, both hemispheres functioned and interacted normally, his sensory and motor functions were normal aside from slight hypesthesia, and he could correctly identify and understand visual stimuli presented to both sides of his visual field. During his surgery in 1962, his surgeons determined that no massa intermedia had developed, and he had undergone atrophy in the part of the right frontal lobe exposed during the procedure. His operation was a great success, leading to a decrease in the frequency and intensity of his seizures.

Patient JW

Patient JW is a right-handed male who was 47 years old at the time of testing. He successfully completed high school and has no reported learning disabilities. He had his first seizure at the age of 16, and at the age of 25, he underwent a two-stage resection of the corpus callosum for relief of intractable epilepsy. Complete sectioning of the corpus callosum has been confirmed by MRI. Post-surgical MRI also revealed no evidence of other neurological damage.

One of the experiments involving JW attempted to determine each hemisphere's ability to perform simple addition, subtraction, multiplication and division. On each trial, an arithmetic problem was presented in the center of the screen followed by a central cross hair. After studying the problem, a number posing as the answer was presented to each hemisphere exclusively by JW's vision fixated on a central cross hair. Probes (stimuli) were then presented for 150 ms to either the left visual field/right hemisphere (LVF/RH) or to the right visual field/left hemisphere (RVF/LH). The position of the probe fell outside any zone of naso-temporal overlap (binocular vision) to ensure that stimuli were perceived only by the hemisphere contralateral to the visual field of the stimuli. JW was instructed to press a certain key if the probe was the correct solution and another key if the probe was the incorrect solution. Results showed that the effects of visual field was significant with performance of the left hemisphere being better than that of the right hemisphere; the left hemisphere correctly chose the correct answer on all four arithmetic operations approximately 90% of the time while the right hemisphere was at chance. These results suggest left hemisphere specialization for calculation.

J.W. was further tested to determine after-effects on his self-recognition and familiar facial recognition. He was tested in a study where he would respond yes or no to images presented, by pressing a button. These images were ranging from 0-100% "JW", with the 0% images being of Dr. Michael Gazzaniga, and the 100% images being of J.W. himself. What researchers found supported the idea that there are cortical networks in the left hemisphere that play an important role in execution of the self-recognition process.

Patient VP

Patient VP is a woman who underwent a two-stage callosotomy in 1979 at the age of 27. Although the callosotomy was reported to be complete, follow-up MRI in 1984 revealed spared fibers in the rostrum and splenium. The spared rostral fibers constituted ~1.8% of the total cross-sectional area of the corpus callosum and the spared splenial fibers constituted ~1% of the area. VP's postsurgery intelligence and memory quotients were within normal limits.

One of the experiments involving VP attempted to investigate systematically the types of visual information that could be transferred via VP's spared splenial fibers. The first experiment was designed to assess VP's ability to make between-field perceptual judgements about simultaneously presented pairs of stimuli. The stimuli were presented in varying positions with respect to the horizontal and vertical midline with VP's vision fixated on a central crosshair. The judgements were based on differences in color, shape or size. The testing procedure was the same for all three types of stimuli; after presentation of each pair, VP verbally responded 'yes' if the two items in the pair were identical and 'no' if they were not. The results show that there was no perceptual transfer for color, size or shape with binomial tests showing that VP's accuracy was not greater than chance.

A second experiment involving VP attempted to investigate what aspects of words transferred between the two hemispheres. The set up was similar to the previous experiment, with VP's vision fixated on a central cross hair. A word pair was presented with one word on each side of the cross-hair for 150 ms. The words presented were in one of four categories: words that looked and sounded like rhymes (e.g. tire and fire), words that looked as if they should rhyme but did not (e.g. cough and dough), words that did not look as if they should rhyme but did (e.g. bake and ache), and words that neither looked nor sounded like rhymes (e.g. keys and fort). After presentation of each word pair, VP responded 'yes' if the two words rhymed and 'no' if they did not. VP's performance was above chance and she was able to distinguish among the different conditions. When the word pairs did not sound like rhymes, VP was able to say accurately that the words did not rhyme, regardless of whether or not they looked as if they should rhyme. When the words did rhyme, VP was more likely to say they rhymed, particularly if the words also looked as if they should rhyme.

Although VP showed no evidence for transfer of color, shape or size, there was evidence for transfer of word information. This is consistent with the speculation that the transfer of word information involves fibres in the ventroposterior region of the spleniumâ€"the same region in which V.P. had callosal sparing. V.P. is able to integrate words presented to both visual fields, creating a concept that is not suggested by either word. For example, she combines “head” and “stone” to form the integrated concept of a tombstone.

Kim Peek

Kim Peek was arguably the most well-known savant. He was born on November 11, 1951 with an enlarged head, encephalocele, a malformed cerebellum, and an absence of a corpus callosum and both the anterior and posterior commissures. He was able to memorize over 9,000 books, and information from approximately 15 subject areas. These include: world/American history, sports, movies, geography, actors and actresses, the Bible, church history, literature, classical music, area codes/zip codes of the United States, television stations serving these areas, and step by step directions within any major U.S. city. Despite these abilities, he had an IQ of 87, was not diagnosed as autistic, and was unable to button his shirt, and had difficulties performing everyday tasks. The missing structures of his brain have yet to be linked to his increased abilities, but they can be linked to his ability to read pages of a book in 8â€"10 seconds. He was able to split his vision so that each eye reads its corresponding page, allowing him to read both pages at once. He also had developed language areas in both hemispheres, something very uncommon in split-brain patients. Language is processed in areas of the temporal lobe, most commonly on the left side of the head, and involves a contralateral transfer of information before the brain can process what is being read. In Peek's case, there was no transfer abilitiesâ€"this is what led to his development of language centers in each hemisphere. Many believe this is the reason behind his extremely fast reading capabilities.

While Peek did not undergo corpus callosotomy, he is considered a natural split-brain patient and is critical to understanding the importance of the corpus callosum. Kim Peek passed away in 2009.



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  15. herpes is a serious and recurring disease which can't be cured through drugs or injections by the American doctors but the best way to deal with herpes is by taking natural herbs medicine for it and is only few American doctors that know about this herbal medicine from Dr Akhanene .. I have read about Dr Akhanene the great herbalist doctor from African who can cure disease with his powerful herbal medicine. for the people suffering from the following diseases, Herpes, Cancer, Also,Herpatitis, Diabetes, Hps,Infections ETC should contact him for his herbal medicine because i am a living testimony and i was cured of herpes. Although, i sent him what he requested and he sent me his medicine which i took for 1 weeks and today when i went for test i was tested herpes negative. you can reach him through his Emai drakhanenespellhome@gmail.com.com or whatsapp or call him +2348168714427  

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  16. Hello, an amazing Information dude. Thanks for sharing this nice information with us. Executive Health Screening Australia

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