circuits participate in more complex voluntary movements governed by higher brain In this chapter we first review the principles that govern various classes of . Schwartz, J. H., and Jessell, T. M., Eds, McGraw-Hill, New York, , chap. and Movement, in Principles of Neuroscience, 4th ed., Kandel, E. R., Schwartz. Voluntary movement. In E. R. Kandel, J. H. Schwartz, T. M. Jessell (Eds.), Principles of neural science, 4th edn. (Chap. 38, pp. –). New York: McGraw-Hill.
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If your institution subscribes to this resource, and you don’t have a MyAccess Profile, please contact your library’s reference desk for information on how to gain access to this resource from off-campus. Prediction Compensates for Sensorimotor Delays.
Principles of Neural Science
In the preceding part of this book scuwartz considered how the brain constructs internal representations of the world around us. These internal representations have no intrinsic value and are behaviorally meaningful only when used to guide movement, whether foraging for food or attracting a waiter’s attention.
Thus the ultimate function of the sensory representations is to akndel the actions of the motor systems. Sensory representations are the framework in which the motor systems plan, coordinate, and execute the motor programs responsible for purposeful movement. In this part of the book we describe the principles of motor control that allow the brain and spinal cord to maintain balance and posture; to move our body, limbs, and eyes; and to communicate through speech and gesture.
Although movements are often classified chaptsr to function—eye movements, prehension reach and graspposture, locomotion, breathing, and speech—many of these functions are subserved by overlapping groups of muscles. In addition, the same groups of muscles can be controlled voluntarily, rhythmically, or reflexively.
Principles of Neural Science –
For example, the muscles that control respiration can be used to take a deep breath voluntarily before diving under water, to breathe automatically and rhythmically in a regular cycle of inspiration and expiration, or to act reflexively in response to a noxious stimulus in the throat, producing a cough. Voluntary movements are those that are under conscious control by the brain.
Rhythmic movements can also be controlled voluntarily, chaptdr many such movements differ from voluntary movements in that their timing and spatial organization is to a large extent controlled autonomously by spinal or brain stem circuitry. Reflexes are stereotyped responses to specific stimuli that are generated by simple neural circuits in the spinal cord or brain stem.
Although reflexes are highly adaptable to changes in behavioral goals, mainly because several different circuits exist to connect sensory and motor neurons, they cannot be directly controlled voluntarily. In this chapter we focus on voluntary movements, using arm and hand movements to illustrate principles of sensorimotor control.
Reflexes and rhythmic movements are discussed in detail in Chapters 35 and Conscious processes are not necessary for moment-to-moment control of movement. Although we may be aware of Please enter User Name Password Error: Please enter Password Forgot Kanfel
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