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The Nervous System
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Protection of the Central Nervous System
Scalp and skin Skull and vertebral column Meninges Cerebrospinal fluid (CSF) Blood-brain barrier
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Protection of the Central Nervous System
Figure 7.17a
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Meninges: connective tissue membranes covering & protecting the CNS
Dura mater- outermost layer Double-layered external covering Periosteum—attached to inner surface of the skull Meningeal layer—outer covering of the brain Folds inward in several areas Falx cerebri-attaches brain to cranial cavity Tentorium cerebelli-seperates the cerebellum from the cerebrum
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Meninges Arachnoid layer Middle layer Web-like Pia mater
Internal layer Clings to the surface of the brain and spinal cord, following every fold
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Meninges Figure 7.17b
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Cerebrospinal Fluid (CSF)
Similar to blood plasma composition 90% water, nutrients, more vitamin C Formed by the choroid plexus (epithalamus) Forms a watery cushion to protect the brain Circulated in arachnoid space, ventricles, and central canal of the spinal cord
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Ventricles and Location of the Cerebrospinal Fluid
Figure 7.18a–b
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Trace the path of the CSF in the CNS
1. It circulates from the two lateral _____________ in the cerebral __________________. 2. Into the ___________ventricle in the _________ 3. It goes through the cerebral ________________ into the fourth ____________________ to the pons ____________________. 4. some of the fluid reaching the _______________ continues down into _____________________________, but most of it circulates in the __________________ space. 5. The CSF returns to the __________________ in the _____________ through the _______________.
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Ventricles and Location of the Cerebrospinal Fluid
Figure 7.18c
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Cerebrospinal Fluid Normal volume of CSF=150 ml (half a cup)
Changes in composition of CSF may be caused by Meningitis (viral or bacterial) Tumors Multiple sclerosis Testing is called a Lumbar (Spinal) Tap Withdrawal of fluid will decrease CSF pressure Patients must lie down for 12 hours or will experience a painful “spinal headache”
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Hydrocephalus in a Newborn
CSF accumulates and exerts pressure on the brain if not allowed to drain Figure 7.19
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Blood-Brain Barrier Includes the least permeable capillaries of the body Water, glucose, essential amino acids can easily pass through Excludes many potentially harmful substances Useless as a barrier against some substances Fats and fat soluble molecules Respiratory gases Alcohol Nicotine Anesthesia
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Traumatic Brain Injuries
Concussion Slight brain injury No permanent brain damage Contusion Nervous tissue destruction occurs Nervous tissue does not regenerate Cerebral edema Swelling from the inflammatory response May compress and kill brain tissue
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Cerebrovascular Accident (CVA)
Commonly called a stroke The result of a ruptured blood vessel supplying a region of the brain Brain tissue supplied with oxygen from that blood source dies Loss of some functions or death may result
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Alzheimer’s Disease Progressive degenerative brain disease
Mostly seen in the elderly, but may begin in middle age Structural changes in the brain include abnormal protein deposits and twisted fibers within neurons Victims experience memory loss, irritability, confusion, and ultimately, hallucinations and death
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Spinal Cord Extends from the foramen magnum of the skull to the first or second lumbar vertebra Approx. 17 inches (42 cm) long Provides a two-way conduction pathway to and from the brain A major reflex center 31 pairs of spinal nerves arise from the spinal cord (31st pair are coccyx nerves) Cauda equina is a collection of spinal nerves at the inferior end
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Spinal Cord Anatomy Figure 7.20 (1 of 2)
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Spinal Cord Anatomy Figure 7.20 (2 of 2)
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Spinal Cord Anatomy Internal gray matter is mostly cell bodies
Dorsal (posterior) horns Anterior (ventral) horns Gray matter surrounds the central canal Central canal is filled with cerebrospinal fluid Exterior white mater—conduction tracts Dorsal, lateral, ventral columns
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Spinal Cord Anatomy Figure 7.21
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Spinal Cord Anatomy Meninges cover the spinal cord
Spinal nerves leave at the level of each vertebrae Dorsal root Associated with the dorsal root ganglia—collections of cell bodies outside the central nervous system Ventral root Contains axons
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Pathways Between Brain and Spinal Cord
Figure 7.22
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Peripheral Nervous System (PNS)
Nerves and ganglia outside the central nervous system Nerve = bundle of neuron fibers Neuron fibers are bundled by connective tissue
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PNS: Structure of a Nerve
Endoneurium surrounds each fiber Groups of fibers are bound into fascicles by perineurium Fascicles are bound together by epineurium
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PNS: Structure of a Nerve
Figure 7.23
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PNS: Classification of Nerves
Mixed nerves Both sensory and motor fibers Sensory (afferent) nerves Carry impulses toward the CNS Motor (efferent) nerves Carry impulses away from the CNS
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PNS: Cranial Nerves 12 pairs of nerves that mostly serve the head and neck Only the pair of vagus nerves extend to thoracic and abdominal cavities Most are mixed nerves, but three are sensory only
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PNS: Cranial Nerves I Olfactory nerve—sensory for smell
II Optic nerve—sensory for vision III Oculomotor nerve—motor fibers to eye muscles IV Trochlear—motor fiber to eye muscles
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PNS: Cranial Nerves V Trigeminal nerve—sensory for the face; motor fibers to chewing muscles VI Abducens nerve—motor fibers to eye muscles VII Facial nerve—sensory for taste; motor fibers to the face VIII Vestibulocochlear nerve—sensory for balance and hearing
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PNS: Cranial Nerves IX Glossopharyngeal nerve—sensory for taste; motor fibers to the pharynx X Vagus nerves—sensory and motor fibers for pharynx, larynx, and viscera XI Accessory nerve—motor fibers to neck and upper back XII Hypoglossal nerve—motor fibers to tongue
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Cranial Nerves
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PNS: Distribution of Cranial Nerves
Figure 7.24
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PNS: Spinal Nerves There is a pair of spinal nerves at the level of each vertebrae for a total of 31 pairs Formed by the combination of the ventral and dorsal roots of the spinal cord Named for the region from which they arise
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Spinal Nerves
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PNS: Anatomy of Spinal Nerves
Spinal nerves divide soon after leaving the spinal cord Dorsal rami—serve the skin and muscles of the posterior trunk Ventral rami—form a complex of networks (plexuses) for the anterior The rami, like spinal nerves, contain both motor and sensory fibers
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Nerve Plexuses The ventral rami also form complex networks of nerves called plexuses Plexuses serve the motor and sensory needs of the limbs.
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PNS: Spinal Nerve Plexuses
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PNS: Spinal Nerve Plexuses
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PNS: Distribution of Major Peripheral Nerves of the Upper and Lower Limbs
Brachial Plexus
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PNS: Distribution of Major Peripheral Nerves of the Upper and Lower Limbs
Lumbar Plexus
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PNS: Distribution of Major Peripheral Nerves of the Upper and Lower Limbs
Sacral Plexus
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PNS: Autonomic Nervous System
Motor subdivision of the PNS Consists only of motor nerves Also known as the involuntary nervous system Regulates activities of cardiac and smooth muscles and glands Two subdivisions Sympathetic division Parasympathetic division
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PNS: Differences Between Somatic and Autonomic Nervous Systems
Nerves Somatic: one motor neuron Autonomic: preganglionic and postganglionic nerves Effector organs Somatic: skeletal muscle Autonomic: smooth muscle, cardiac muscle, and glands
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PNS: Differences Between Somatic and Autonomic Nervous Systems
Neurotransmitters Somatic: always use acetylcholine Autonomic: use acetylcholine, epinephrine, or norepinephrine
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PNS: Comparison of Somatic and Autonomic Nervous Systems
Figure 7.27
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PNS: Anatomy of the Sympathetic Division
Originates from T1 through L2 Ganglia are at the sympathetic trunk (near the spinal cord) Short pre-ganglionic neuron and long post-ganglionic neuron transmit impulse from CNS to the effector Norepinephrine and epinephrine are neurotransmitters to the effector organs
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PNS: Anatomy of the Autonomic Nervous System
Figure 7.28
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PNS: Sympathetic Pathways
Figure 7.29
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PNS: Anatomy of the Parasympathetic Division
Originates from the brain stem and S1 through S4 Terminal ganglia are at the effector organs Always uses acetylcholine as a neurotransmitter
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PNS: Autonomic Functioning
Sympathetic—“fight or flight” Response to unusual stimulus Takes over to increase activities Remember as the “E” division Exercise, excitement, emergency, and embarrassment
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PNS: Autonomic Functioning
Parasympathetic—“housekeeping” activities Conserves energy Maintains daily necessary body functions Remember as the “D” division digestion, defecation, and diuresis
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Effects of the Sympathetic and Parasympathetic Divisions of the Autonomic Nervous System
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Effects of the Sympathetic and Parasympathetic Divisions of the ANS
Table 7.3 (1 of 2)
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Effects of the Sympathetic and Parasympathetic Divisions of the ANS
Table 7.3 (2 of 2)
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Development Aspects of the Nervous System
The nervous system is formed during the first month of embryonic development Any maternal infection can have extremely harmful effects The hypothalamus is one of the last areas of the brain to develop
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Development Aspects of the Nervous System
No more neurons are formed after birth, but growth and maturation continues for several years The brain reaches maximum weight as a young adult
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PNS: The Cranial Nerves
Table 7.1 (4 of 4)
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