1. Nervous System Organization

2. 2 Much of the text material is from, “Principles of Anatomy and Physiology, 14th edition” by Gerald J. Tortora and Bryan Derrickson (2014). I don’t claim authorship. Other sources are noted when they are used. Mappings of the lecture slides to the 12th and 13th editions are provided in the supplements.

3. 3 Organization Although the nervous system is only three percent of total body weight, it is the most complex organ system. The brain is a highly-organized network of ~ 100 billion of neurons and many more neuroglia cells. The nervous system consists of the: - Brain - Spinal cord - Somatic nervous system - Enteric nervous system - Autonomic nervous system Chapter 12, page 400

4. 4 Major Subdivisions The central nervous system (CNS) consists of the brain and spinal cord. The peripheral nervous system (PNS) includes all nervous tissue out- side of the CNS. The optic nerve (cranial nerve II) is part of the CNS—all other cranial nerves are part of the PNS. The optic nerve is considered to be an extension of brain tissue while the others are not. Chapter 12, page 400 Figure 12.1

5. 5 Peripheral Nervous System The peripheral nervous system has three components: - Somatic nervous system (SNS) - Enteric nervous system (ENS) - Autonomic nervous system (ANS) Chapter 12, page 400 Figure 12.1

6. 6 Somatic Nervous System The SNS has numerous sensory receptors that convey informa- tion from the body and the special senses (vision, hearing, taste, and smell). The SNS also has numerous motor neurons to enable action potentials to propagate (travel) from the CNS to skeletal muscle fibers. Chapter 12, page 400 Figure 12.1

7. 7 Organization (continued) http://www.getbodysmart.com

8. 8 Enteric Nervous System The ENS has about 100 million neurons in plexuses that extend along most of the length of the digestive tract. Sensory neurons in the ENS monitor chemical changes and stretch of the walls of the hollow organs including the stomach and intestines. Motor neurons in the ENS control the contractions of smooth muscles, exocrine secretions from organs, and the activity of endocrine cells in the digestive tract. Plexus = a complex, interconnected arrangement of parts; in this context, a network of neurons outside of the CNS. Chapter 12, page 400 Figure 12.1

9. 9 Autonomic Nervous System The ANS conveys information from sensory receptors in the blood vessels and visceral organs to the CNS. The ANS has motor neurons that conduct action potentials from the CNS to smooth muscle fibers, cardiac muscle fibers, and endocrine and exocrine glands. The ANS consists of sympathetic and parasympathetic divisions. Visceral organs = the internal organs of the body, specifically those within the chest (heart and lungs) and abdomen (liver, pancreas, and intestines). (http://www.medterms.com) Chapter 12, page 400 Figure 12.1

10. 10 Autonomic Nervous System (continued) With some exceptions, the two divisions of the ANS have opposing actions. For example, the sympathetic division can speed up the heart rate, while the parasympathetic division can slow it down. The two divisions, however, work in concert to control penile erection and ejaculation in the male sexual response. Motor responses of the ANS are usually not under conscious control. Chapter 12, page 400 Figure 12.1

11. 11 Functions of the Nervous System Sensory functions—sensory receptors detect external and internal stimuli, which is carried to the spinal cord by the spinal nerves and cranial nerves. Integrative functions—neurons process and analyze sensory infor- mation. Motor functions—information is carried by the spinal nerves and cranial nerves to activate muscles and glands (known as effectors). Chapter 12, page 400