Medical Terminology Chapter 14
severe form of senile dementia; cortical destruction causes variable degrees of confusion, memory loss, and other cognitive defects
Alzheimer disease
disk/o
a disk
spin/o
a thorn, spine
conducts motor impulses to the lateral rectus muscle of the eyeball
abducens
controls the trapezius and sternocleidomastoid muscles, permitting movement of the head and shoulders
accessory
cholinergic neurotransmitter; plays an important role in the transmission of nerve impulses at synapses and myoneural junctions
acetylcholine
inability to remain still; motor restlessness and anxiety
akathisia
loss or lack of voluntary motion
akinesia
the transmission of an impulse by a nerve fiber is based on the ___ ___ ___ _____; this means that no transmission occurs until the stimulus reaches a set minimum strength which can vary for different receptors; once the minimum is then transmitted via a synapse, a specialized knoblike branch ending, with the help of certain chemical agents, across a space separating the axon's end knobs from the dendrites of the next neuron or from a motor end plate attached to a muscle; this space is called a synaptic cleft and the chemical agents released are called neurotransmitters
all or none principle
controls involuntary bodily functions such as sweating, secretions of glands, arterial blood pressure, smooth muscle tissue, and the heart; the autonomic nervous system is primarily composed of efferent fibers from certain cranial spinal nerves and can be functionally divided into two divisions, the sympathetic and parasympathetic; these two divisions counteract each other's activity to keep the body in a state of homeostasis
autonomic nervous system
controls involuntary bodily functions such as sweating, secretion of glands, arterial blood pressure, smooth muscle tissue, and the heart; also stimulates the adrenal gland to release epinephrine (adrenaline) the hormone that causes the familiar adrenaline rush or the fight or flight response
autonomic nervous system (sympathetic division and parasympathetic division)
myel/o
bone marrow, spinal cord
consists of millions of nerve cells and fibers; it is the largest mass of nervous tissue in the body, weighing about 1380 g in the male and 1250 g in the female; enclosed by 3 membranes known collectively as the meninges; from the outside in, these are the dura mater, arachnoid. and pia mater; the major structures of the brain are the cerebrum, cerebellum, diencephalon, and the brainstem, which is composed of of the midbrain, pons, and medulla oblongata
brain
encephal/o
brain
governs sensory perception, emotions, consciousness, memory, and voluntary movements
brain
the lower part of the brain, adjoining and structurally continuous with the spinal cord; provides the main motor and sensory innervation to the face and neck via the cranial nerves; it consists of three structures: the mesencephalon or midbrain, the pons, and the medulla oblongata; the brainstem processes visual, auditory, and sensory information and plays an important role in the regulation of cardiac and respiratory function; it also regulates the central nervous system and is pivotal in maintaining consciousness and regulating the sleep cycle
brainstem
cyt/o
cell
attach to the brain and provide sensory input, motor control or a combination of these functions; they are arranged symmetrically, 12 to each side of the brain and generally are named for the area or function they serve
cranial nerves
provide sensory input and motor control or a combination of these
cranial nerves (12 pairs)
second portion of the brain and refers to the thalamus and hypothalamus
diencephalon
dur/o
dura, hard
phe/o
dusky
electr/o
electricity
controls the muscles of the face and scalp; the lacrimal glands of the eye and the submandibular and sublingual salivary glands; input from the tongue for the sense of taste
facial
esthesi/o
feeling
fibr/o
fiber
identified as the brain's major motor area and the site for personality and speech
frontal lobe
pallid/o
globus pallidus
provides general sense of taste; regulates swallowing; controls secretion of saliva
glossopharyngeal
gli/o
glue
poli/o
gray
cephal/o
head
controls the tongue; tongue movements
hypoglossal
lies beneath the thalamus and is a principal regulator of autonomic nervous activity that is associated with behavior and emotional expression; it also produces neurosecretions for the control of water balance, sugar and fat metabolism, regulation of body temperature and other metabolic activities; the pituitary gland is attached to the hypothalamus by a narrow stalk, the infundibulum
hypothalamus
serves as the principal regulator of autonomic nervous activity that is associated with behavior and expression; also contains hormones that are important for the control of certain metabolic activities such as maintenance of water balance, sugar, and fat metabolism, regulation of body temperature, sleep cycle control, appetite, and sexual arousal
hypothalamus
called central or associative neurons and are located entirely within the CNS; they function to mediate impulses between sensory and motor neurons
interneurons
cerebell/o
little brain
lob/o
lobe
acts as the cardiac, respiratory, and vasomotor control center; regulates and controls breathing, swallowing, coughing, sneezing, and vomiting as well as heartbeat and arterial blood pressure, thereby exerting control over the circulation of blood
medulla oblongata
connects the pons and the rest of the brain to the spinal cord; all afferent and efferent tracts from the spinal cord either pass and control of breathing, swallowing, coughing, sneezing, vomiting, the heartbeat, and blood pressure
medulla oblongata
mening/i
membrane, meninges
mening/o
membrane, meninges
located below the cerebrum and above the pons; has four small masses of gray cells known collectively as the corpora quadrigemina; the upper two of these masses, called the superior colliculi, are associated with visual reflexes such as the tracking movements of the eyes; the lower two, or inferior colliculi, are involved with the sense of hearing
midbrain
two way conduction pathway that acts as a relay center for visual and auditory impulses; found in the midbrain are four small masses of gray cells known collectively as the corpora quodrigemina; the upper two, called the superior colliculi, are associated with visual reflexes; the lower two, or inferior colliculi are involved with the sense of hearing
midbrain
ment/o
mind
contains centers for sensory input from all parts of the body and is known as the somesthetic area and the site for the interpretation of language; temperature, pressure, touch, and an awareness of muscle control are some of the sensory activities localized in this area
parietal lobe
links the central nervous system with other parts of the body
peripheral nervous system
provide sensory input system with other parts of the body
peripheral nervous system
the network of nerves branching throughout the body from the brain and spinal cord; there are 12 pairs of cranial nerves that attach to the brain and 31 pairs of spinal nerves connected to the spinal cord
peripheral nervous system
a broad band of white matter located anterior to the cerebellum and between the midbrain and the medulla oblongata; composed of fiber tracts linking the cerebellum and medulla to higher cortical areas; it also plays a role in somatic and visceral motor control, and contains important centers for regulating breathing
pons
links the cerebellum and medulla to higher cortical areas; plays a role in somatic and visual ceral motor control; contains important centers for regulating breathing
pons
stimulation of a nerve occurs at a _____
receptor
differ in structure from motor neurons because they do not have true dendrites; the processes transmitting sensory information to the cell bodies of these neurons are called peripheral processes, are sheathed, and resemble axons; they are attached to sensory receptors and transmit impulses to the CNS; after processing the information, the CNS can stimulate motor neurons in response to this sensory information; referred to as afferent nerves because they carry impulses from the sensory receptors to the synaptic endings in the CNS
sensory neurons
later/o
side
cran/i
skull
crani/o
skull
hypn/o
sleep
somn/o
sleep
conducts sensory impulses to the brain and motor impulses from the brain to body parts; also serves as a reflex center for impulses entering and leaving the spinal cord without involvement of the brain
spinal cord
controls muscles of the pharynx, larynx, thoracic and abdominal organs; swallowing, voice production, slowing of heartbeat, acceleration of peristalsis
vagus
vag/o
vagus, wandering
ventricul/o
ventricle
spondyl/o
vertebra
provides input for hearing and equilibrium
vestibulocochlear
groups of nerve fibers within the CNS that have the same origin, function and termination; the spinal cord contains afferent sensory tracts ascending to the brain and efferent motor tracts descending from the brain; the brain itself contains numerous tracts, the largest of which is the corpus callosum joining the left and right hemispheres
tracts
dendr/o
tree
provides sensory input from the face, nose, mouth, forehead, and top of the head; motor fibers to the muscles of the jaw (chewing)
trigeminal
conducts motor impulses to control the superior oblique muscle of the eyeball
trochlear
receives impulses from throughout the body, processes the information, and responds with an appropriate action; this activity can be at the conscious or unconscious level, depending on the source of the sensory stimulus; both the brain and spinal cord can be divided into gray matter and white matter; the gray matter consists of unsheathed cell bodies and true dendrites; the white matter is composed of myelinated nerve fibers; in the spinal cord, the arrangement of white and gray matter results in an H shaped core of gray bodies surrounded by tracts of nerve fibers interconnected to the brain; the reverse is generally true of the brain where the surface layer or cortex is gray matter and most of the internal structures are white matter
central nervous system
plays an important role in the integration of sensory perception and motor output; its neural pathways link with the motor cortex, which sends information to the muscle causing them to move, and the spinocerebellar tract, which provides feedback on the position of the body in space (proprioception); integrates these pathways using the constant feedback on body position to fine tune motor movement; research shows that the cerebellum also has a broader role in a number of key cognitive functions, including attention and the processing of language, music, and other sensory temporal stimuli
cerebellum
the second largest part of the brain; it occupies a space in the back of the skull, inferior to the cerebrum and dorsal to the pons and medulla oblongata; oval in shape and divided into lobes by deep fissures; it has a cortex of gray cell bodies and its interior contains nerve fibers and white matter connecting it to every part of the central nervous system; plats an important part in the coordination of voluntary and involuntary complex patterns of movement and adjusts muscles to maintain posture
cerebellum
brain and spinal cord are surrounded by this; colorless fluid is produced as a filtrate of blood by the choroid plexuses within the ventricles of the brain; cerebrospinal fluid circulates through the ventricles, the central canal, and the subarachnoid space; cerebrospinal fluid is removed from circulation by the arachnoid villi, which are small projections of the arachnoid membrane that penetrate the tough outer membrane, the dura mater; the arachnoid villi allow the fluid to drain into the superior sagittal sinus; the normal adult will have between 120 and 150 mL in circulation; the fluid serves to cushion the brain and spinal cord from shocks that could cause injury; it also helps to support the brain by allowing it to float within the supporting liquid; it also contains neurotransmitters such as monoamines, acetylcholine, and neuropeptides
cerebrospinal fluid
cerebr/o
cerebrum
evaluates and controls all sensory and motor activity; sensory perception, emotions, consciousness, memory and voluntary movements
cerebrum
representing seven eighths of the brain's total weight; contains nerve centers that evaluate and control all sensory and motor activity, including sensory perception, emotions, consciousness, memory, and voluntary movements; divided by the longitudinal fissure into two cerebral hemispheres, the right and left, that are joined by large fiber tracts (corpus callosum) that allow information to pass from one hemisphere to the other; the surface or cortex of each hemisphere is arranged in folds creating bulges and shallow furrows; each bulge is called a gyrus or convolution; a furrow is known as a sulcus; this surface is composed of gray, unmyelinated cell bodies and is known as the cerebral cortex; the cortex has been divided into lobes as a means of identifying certain locations; these lobes correspond to the overlying bones of the skull and are the frontal, parietal, temporal and occipital lobes
cerebrum
chrom/o
color
cause contractions in muscles and secretions from glands and organs; they also act to inhibit the actions of glands and organs, thereby controlling most of the body's functions; can be described as being efferent processes because they transmit impulses away from the neural cell body to the muscles or organs to be innervated; consist of a nucleated cell body with protoplasmic processes extending away from it in several directions; these processes are known as the axons and dendrites; most axons are long and are covered with a fatty substance, the myelin sheath, which acts as an insulator and increases the transmission velocity of the nerve fiber it surrounds; axons may be as long as several feet and reach from the cel body to the area to be activated; dendrites resemble the branches of a tree, are short, unsheathed, and transmit impulses to the cell body; neurons usually have several dendrites and only one axon
motor neurons
my/o
muscle
neur/o
nerve
a single elongated process, the axon of a neuron; nerve fibers of the peripheral nervous system are wrapped by protective membranes called sheaths; the PNS has two types of sheaths: myelinated and unmyelinated, which are formed by accessory cells; myelinated fibers have an inner sheath of myelin, a thick, fatty substance and an outer sheath, or neurilemma, composed of Schwann cells; unmyelinated fibers lack myelin and are sheathed only by the neurilemma; nerve fibers of the CNS do not contain Schwann cells; therefore, damage to fibers of the CNS is permanent, whereas damage to a peripheral nerve can be reversible
nerve fiber
conduct impulses from one location to another
nerve fibers and tracts
a collection of nerve fibers, outside the CNS; nerves are usually described as being sensory or afferent (conducting to the CNS) or motor or efferent (conducting away from the CNS to muscles, organs, and glands)
nerves
usually described as having two interconnected divisions: the central nervous system and the peripheral nervous system; the CNS includes the brain and spinal cord; it is enclosed by bones of the skull and spinal column; the PNS consists of the network of nerves and neural tissues branching throughout the body from 12 pairs of cranial nerves and 31 pairs of spinal nerves; the nervous system has two principal tissue types; these tissues are made of neurons or nerve cells and their supporting tissues, collectively called neuroglia; neurons are the structural and functional units of the nervous system; these cells are specialized conductors of impulses that enable the body to interact with its internal and external environments; there are several types of neurons
nervous system
act as supporting tissue
neuroglia
structural and functional nits of the nervous system act as specialized conductors of impulses that enable the body to interact with its internal and external environments
neurons (nerve cells)
narc/o
numbness, sleep, stupor
the primary interpretive processing area for vision; directly posterior to the temporal lobe
occipital lobe
conducts motor impulses to four of the six external muscles of the eye and to the muscle that raises the eyelid
oculomotor
detects and provides the sense of smell
olfactory
provides vision
optic
papill/o
papilla
very long fibers branching from cranial nerves III, VII, IX, and X along with long fibers of sacral nerves II, III, and IV form the first of the parasympathetic division; cell bodies for these long fibers are located in the brain and spinal cord; these long fibers extend to ganglia located near the organs to be innervated; works to conserve energy and innervate the digestive system; when activated, it stimulates the salivary and digestive gland, decreases the metabolic rate, slows the heart rate, reduces blood pressure, and promotes the passage of material through the intestines along with absorption of nutrients by the blood
parasympathetic division
has an H shaped gray area of cell bodies encircled by an outer region of white matter; the white matter consists of nerve tracts and fibers providing sensory input to the brain and conducting motor impulses from the brain to spinal neurons; the adult spinal cord is about 44 cm long and extends down the vertebral canal from the medulla to terminate near the junction of the first and second lumbar vertebrae; between the 12th thoracic and L1 is a region known as the conus medullaris, where the spinal cord becomes conically tapered; the filum terminale or terminal thread of fibrous tissue extends from the conus medullaris to the second sacral vertebrae; the cauda equina (known as the horse's tail) is the terminal portion of the spinal cord that forms the nerve fibers that are the lumbar, sacral, and coccygeal spinal nerves; the functions of the spinal cord are to conduct sensory impulses to the brain, to conduct motor impulses from the brain, and to serve as a reflex center for impulses entering and leaving the spinal cord without direct involvement of the brain
spinal cord
31 pairs distributed along the length of the spinal cord and emerging from the vertebral canal on either side through the intervertebral foramina; at the point of attachment, each nerve is divided into two roots; the dorsal or sensory root is composed of afferent fibers carrying impulses to the cord and the ventral root contains motor fibers carrying efferent impulses to muscles and organs; named for the region of the vertebral column from which they exit, there are eight pairs of cervical spinal nerves, 12 pairs of thoracic spinal nerves, five pairs of lumbar spinal nerves, five pairs of sacral spinal nerves, and one pair of coccygeal spinal nerves; a short distance form the cord, the fibers of the two roots unite to form a spinal nerve; having formed a single nerve composed of afferent and efferent fibers, each spinal nerve are the dorsal rami and ventral rami, the dorsal rami (branches) carry motor sensory fibers to the muscles and skin of the back and serve an area from the back of the head to the coccyx; the ventral rami, serving a much larger area, carry both motor and sensory fibers to the muscles and organs of the body, including the arms, legs, hands, and feet
spinal nerves
carry impulses to the spinal cord and to muscles, organs, and glands
spinal nerves (3 pairs)
branches from the ventral roots of the 12 thoracic and the first three lumbar spinal nerves form the first part of this; the cell bodies of these nerve fibers are located in the gray matter of the spinal cord; just outside the spinal cord, axons of these nerve cells leave the spinal nerves and enter almost immediately into masses of nerve cell bodies, the sympathetic ganglia, which form a chain that runs next to the vertebral column; this chain of about 23 ganglia runs from the base of the head to the coccyx and is known as the sympathetic trunk; within the ganglia of the sympathetic trunk, fibers from the spinal nerves synapse with ganglionic nerve cell bodies; these ganglionic neurons produce long axons that reach to the parts of the body to be innervated; this arrangement, characteristic of autonomic nerves, creates a two neuron chain as opposed to single neuron control of regular motor nerves; because of the arrangement in which sympathetic fibers from spinal nerves synapse with many cell bodies in the sympathetic ganglia, they tend to produce widespread innervation when activated; this condition has been described as preparing the individual for fight or flight; during the fight or flight response, a person experiences increased alertness, increased metabolic rate, decreased digestive and urinary function, an increase in respiration, blood pressure, and heart rate, and a corresponding warming of the body that can activate the sweat glands; stimulates the adrenal gland to release epinephrine (adrenaline) the hormones that causes the familiar adrenaline rush
sympathetic division
contains centers for hearing, smell, and language input
temporal lobe
relay center for all sensory impulses (except olfactory) being transmitted to the sensory areas of the cortex and relays motor impulses from the cerebellum and the basal ganglia to motor areas of the cortex, thought to be involved with emotions and arousal mechanisms
thalamus
the larger of the two divisions of the diencephalon and is actually two large masses of gray cell bodies joined by a third or intermediate mass; serves as a relay center for all sensory impulses (except olfactory) being transmitted to the sensory areas of the cortex; besides its sensory function, the thalamus also relays motor impulses from the cerebellum and the basal ganglia to motor areas of the cortex; some impulses related to emotional behavior are also passed from the hypothalamus, through the thalamus, to the cerebral cortex
thalamus
lamin/o
thin plate
