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The biologic Approach EssayOne of the most perplexing issues in psychology is understanding the relationship amidst the take c ar and the brain. We all(prenominal) recognize that we reserve conscious aw atomic number 18ness of our surroundings, and excessively of ourselves (self-aw argonness). It is this experience which has normally been draw as the mind. But what is the basis of the mind? Is it the expression of a non- corporeal soul, or is it a p magnetic poleuct of sensible do workes within our body? Philosophers and scientists have been pondering this question for centuries. Explaining the nature of consciousness (that is, the mind) was regarded by William pack (one of the not bad(p) pioneers of psychology) as the most challenging question for psychology to resolve. Today, a hundred years by and by James made that comment, the challenge still exists.Physiological Foundations of BehaviorUnderlying questions close mind and brain are a heel of basic assumption s. Most physiological lookers today are materialists, who percolate both way and consciousness as simply the product of physiological actes. In essence, the brain is the mind. Thus, the task is to identify the structures and processes which declare conscious awareness. Among those who take this approach are James Watson (co-discoverer of DNA) and Dominic Domasio. Both are engaged in research aimed at supporting this view, and their work has drawn public attention. (See references below.) Arrayed against this stance are a number of opponents, who argue the issue on variant grounds. Some physiological detectives have adopted a neo-Cartesian position, fieldion that consciousness (and therefore the mind) is not localized in any brain structure, and can therefore not be unequivo birdsongy proven to be purely physical in nature. Among these are John Eccles, an uplifted British researcher, and the late Wilder Penfield, a pioneering Canadian neurosurgeon.Another approach to the is sue comes from those who connect mind to the signified of self. This idea also has Cartesian overtones, since the self is closely associated with the notion of a soul in traditional thought. While many variants exist, the basic argument is that the self is a phenomenological construction, which is both in insistent flux, and yet experienced as an on-going identity. In this view, the mind/self may rise be a product of physiological processes, further it is no more substitutable with the underlying structures than a building is synonymous with its builder. Roger Sperry, a pioneer in the study of hemispheric specialization, has described consciousness as an emergent process of the braina product of the whole, whose properties cannot be explained simply by studying the underlying structures. At present, of course, the debate cannot be resolvedthe answer to William James century-old question continues to elude us.Studying Mind and Brain The Use of Case StudiesOne of the earlier meth ods used to explore the workings of the brain was the leveled analysis of clinical patientstypically individual(a)s who had suffered nearly type of physical trauma. Such causal agency studies have often led to remarkable insights. For example, Pierra Broca in 1861 was able to identify an study of the brain involved with speech production (now called Brocas area) based on studying an individual who for more than xxx years had suffered a fundamental language defect he could understand spoken language, and could make various sounds, but could not produce coherent speech. Based on his behavioral observations and an anatomic analysis after the patient died, Broca concluded that speech condenser is located in the third convolution of the anterior lobe of the go forth hemisphere.This represented a dramatic advance in physiological understandingforming a direct connection amid the structure of the brain and behavior. In addition, Broca saw the broader implications of his analysis, asserting that all behavior can be associated to some specific mechanism/structure in the braina concept called localization of function. Over time, researchers have used slickness studies to gather further support for this principle. Today, other techniques have provided new ways to study the functions of the brain, but case studies still provide insights, as well as fascinating reading.The Case of Phineas low-downOne of the known clinical cases involved a dramatic injury to an unfortunate railroad worker, Phineas Gage. One day in 1848, he was working on track construction near Cavendish, Vermont. While Gage was placing an explosive charge, a spark of metal against rock set off the charge, sending a long metal tamping rod flying upwards. The rod entered Gages head just below the left eye, and exited from the tob of his skull, somewhat forward of left center. Remarkably, Gage survived (though he was blinded in his left eye). Even more remarkably, his behavior changed dramatical ly. Whereas Gage had previously been openhearted and responsible, he became erratic, and given to terrible fits of temper.Sadly, he spent his remaining years wandering around the get together States, displaying the hole in his skull and the iron rod which had brought him such grief. Gages story has been a source of endless trance ever since. (His skull, and the iron rod, are still on display in the Harvard Medical School museum.) minded(p) the pathway of the rod through his head, it would seem that the injury extensively damaged the association areas of the left frontal lobe. The behavioral changes, especially in emotionality, have been used as evidence that this region is involved in the expression of emotion. (A view seconded by advocates of frontal lobotomies in the 1940s and 50s.)Drugs and BehaviorAs discussed in the text, mind-altering drugs affect behavior by affecting queasy activity. Drugs may do this in various ways (for example, mimicing a natural neurotransmitter, o r altering its normal function and metabolism), and many drugs affect a signifier of varied types of neurons in various parts of the brain. Consequently, it can be difficult to pinpoint precisely how a drug works. This is one reason new drugs must go through extensive laboratory and clinical testing before they are approved for public use.The difficulties are further compounded when dealing with extracurricular drugs, sell on the street. Because there is no mechanism for quality control, users may receive drugs of varying authorisation and purityand in some cases, what is sold is not even what it is claimed to be. (For example, a combination of strychnine and milk powder has been sold as heroin, and various substances have been sold as MDMA or ecstasy.) Consequently, street drugs pose deuce concerns the effects of the drug (including long-term effects) may not be well understood, and the risks associated with taking something whose true content is uncertain. Note that these conc erns have nothing to do with moral attitudes towards drug use they represent practical concerns about the use of illicit psychoactive drugs.Genetics and BehaviorEarlier this year, researchers announced that the mapping of the human genome, is nearing completion, at least in preliminary form. In many ways, this represents one of the greatest feats in the history of acquisition for one thing, our genetic makeup is extraordinarily conglomerate, being composed of some 100,000 genes made up of millions of individual amino acids. At an even deeper level, identifying our genes poses the possibility of understanding what mapping genetics plays in our behavior.The debate mingled with nativists, who study that behavior is fundamentally innate, and environmentalists, who believe our behavior is shaped by our experiences, goes back to ancient times. (As Approaches to psychology notes, it has been argued that the first known psychology experiment, in ancient Babylon, was concerned with whe ther language was innate or learned.) Today, a wide variety of techniques are used to explore the issues of heredity one of the most recent has been the employment of evolutionary theory to try to understand how catching behaviors may have originated, called evolutionary psychology. (Of course, this assumes that behavior is inherited to begin with)Applying the Concepts Sensory ProcessesAs noted in Chapter 1, the process of perception starts with stimulation of our senses our understanding of the origination starts with what our senses tell us. Yet how do our senses handle the the diverse types of stimuli we experience so that the brain can process the information we receive? While many details are still not fully understood, it is feasible to describe the the general nature of sensory processinga process that is both complex and remarkable. The basic challenge for the sickish system is to translate the information represented by sensory stimuli into neural signalsa process call ed transduction. Each of our senses is knowing to respond to different types of stimuli light for vision, sound waves for hearing, odor molecules for smell, and so on. In order to handle this diversity, to distributively one of our five senses uses different types of receptors, each specialized to process a different type of input signal. For example, there are receptors for touch that respond to pressure against the skin, and different receptors that respond primarily to heat or cold.The receptors are the input for sensory neurons in the peripheral nervous system. Sensory neurons in turn connect to neurons in the aboriginal nervous system (CNS), forming specialized neural pathways for each of the five senses. This specialization is both practical and necessary, but it does produce an interesting consequencein essence, the pathways for each sense are designed to convey information related to that sense expressive style, regardless of what triggered the activity. That is, the sensations we experience depend on the pathway stimulated, not the form of the stimulation. A German researcher named Johannes Mller first noted this in the 1830s, calling it the law of specific nerve energies. Thus, if you close your chapeau and press gently on your eye with your finger, you will see spots of lightthe result of the pressure producing randomise activation of receptors rather than light reaching the receptors on your retina. In the end, what we know about the world depends on the characteristics of our senses as much as it does on what is out there While Mllers law suggests that sometimes our senses can mislead us, in everyday life, sensory processing is remarkably reliable and adaptable.For example, our retina has a complex structure which includes three types of cone receptors, maximally sensitive to three different wavelengths (and therefore colors) of light, as well as narrower rod receptors which are optimized for functioning in very low levels of light (as in dark vision). These receptors are in turn affiliated to two further layers of cells, called bipolar cells and ganglion cells. The cells within the retina are connected in complex ways that enhance contrast and detection of boundaries in turn, the axons of the ganglion cells form the optic nerve, which relays optic information for further visual processing. (For more information about the eye, and a self-quiz, see the web rank maintained by optometrist Ted Montgomery.) Hearing is mediated by cells in the inner ear which have fine filaments sensitive to mechanical vibration, called hair cells. Normally, sound waves (vibration) are transmitted through the air to the tympanic membrane (ear drum), then via the bones of the middle ear (which are arranged in way which provides the capacity to amplify or dampen the intensity of the vibrations) to the cochlea of the inner ear. The shape of the cochlea, along with the structure of the hair cells, allows different cells to be maximally se nsitive to different frequenciesa basic feature of our sense of hearing.For touch, as noted, receptors of different types are distributed across our body in a non-uniform wayfor example, the density of touch receptors is much greater on our fingertips and lips than it is on our back or upper thighs. The sensory nerves for touch are the only sense mode which link to the spinal cord as the entry point to the central nervous system the pathways for all the other senses go directly from receptors (sensory neurons) to the brain. (In the case of vision, the retina itself is in fact a combination of sense receptors and cells which are properly considered part of the central nervous system.) Taste and smell are generally grouped together, because of their role as chemical sensesthat is, they function by detecting the presence of particular molecules, rather than types of energy. They are also related in terms of their importance in relation to our experience of food much of what we call es say is actually a response to smell. For example, try the following experiment with a friend In advance, cut a slice of apple and a slice of onion (but dont let the person see them). Blindfold the person, and then ask them to bite the apple, while simultaneously holding the onion close to their nose.Because the cereal of the two is similar, the odor of the onion will overwhelm the actual taste of the appleand your friend is likely to believe youve given them a slice of onion to eat Beyond such generalities, it turns out that smell and taste are extremely complex current evidence suggests that there are different types of receptors within each of these senses, and that the pattern of response to different stimuli are the basis of experiencing different smells and odors (somewhat analogous to the way cone receptors are the basis of color vision). Beyond the receptors, sensory information travels along specialized pathways within the brain. A major(ip) relay point for these pathways i s the thalamus en route to the cortex.Remarkably, despite the transformation of the sensory signal into a neural signal, and the routing through a series of connections within the CNS, the information which reaches the cortex typically preserves significant detail about the nature, location, and timing of the stimulus. (For example, one can identify where on the body a touch stimulus occurred, the order in which sounds occurred, etc.) In the cortex, as noted in the text, sophisticated processing occurs, in regions whose functions are dedicated to sensory processing. (Primary locations are the occipital lobe for vision, temporal lobe for hearing, parietal lobe for touch, and frontal lobe for some aspects of taste and smell.) In turn, this information is integrated across senses, and with memories of past experiences, to produce our perceptions of the world. Simple, isnt it?