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THE PERIPHERAL NERVOUS SYSTEM
D. C. MIKULECKYPROFESSOR OF PHYSIOLOGY
ANDFACULTY MENTORING PROGRAM
ORGANIZATION OF THE NERVOUS SYSTEM
BRAINSPINAL CORD
CENTRALNERVOUSSYSTEM (CNS)
PERIPHERALNERVOUS SYSTEM
AFFERENT
NERVES
EFFERENT
NERVES
EXTERO-RECEPTORS
INTERO-RECEPTORS
SOMATIC AUTONOMIC
EFFECTORORGANS
SKELETALMUSCLES
SMOOTH AND CARDIAC MUSCLES AND GLANDS
NEOCORTEX
THALAMUS
LIMBICCORTEX
BRAINSTEM
SPINALCORD
NOSE
EYE
TONGUE
EAR
SKIN
SMELL
VISION
TASTE
AUDITION
SOMATIC
SENSORY INFORMATION TRAVELSTO THE BRAIN VIA SPECIALIZED PATHWAYS
SENSORY MODALITIES AND RECEPTOR CELLS
MODE RECEPTOR ORGANWARMTH NERVE ENDINGS SKINCOLD NERVE ENDINGS SKINPAIN NAKEDNERVE
ENDINGSSKIN
JOINTMOVEMENT &POSITION
NERVE ENDINGS VARIOUS
MUSCLELENGTH
NERVE ENDINGS MUSCLESPINDLE
MUSCLETENSION
NERVE ENDINGS GOLGI TENDONORGAN
GRADED VS ALL OR NONE
• A RECEPTOR’S RESPONSE TO A STIMULUS IS GRADED
• IF THRESHOLD IS EXCEEDED, THE ACTION POTENTIAL RESULTING IS ALL OR NONE
SENSORY MODALITIES AND RECEPTOR CELLS
MODE RECEPTOR ORGANVISION RODS,CONES EYEHEARING HAIR CELLS EARMOTION HAIR CELLS VESTIBULAR
APPARATUS
SMELL OLIFACTORYNEURONS
OLIFACTORYMUCOUS MEMB.
TASTE TASTE RECEPTORCELLS TASTE BUDS
TOUCH-PRESSURE
NERVE ENDINGS SKIN
SENSORY TRANSDUCTION
ADEQUATE STIMULUS
MEMBRANECONDUCTANCE
CHANGE
GENERATORPOTENTIAL
ACTIONPOTENTIAL
LOCALIZATION, DISTRIBUTION, AND ACUITY
• CODING OF LOCATION DEPENDS ON RECEPTOR LOCATION
• AREA COVERED BY RECEPTORS IN A SENSORY UNIT IS A RECEPTIVE FIELD
• ACUITY DEPENDS ON THE DENSITY OF RECEPTORS
SLOW PAIN
• OCCURS AFTER A SECOND OR MORE• OFTEN ASSOCIATED WITH TISSUE
DESTRUCTION• SUBJECTIVELY DESCRIBED AS BURNING,
ACHING,THROBBING, NAUSEOUS, OR CHRONIC
• C FIBERS WHICH SYNAPSE IN THE SUBSTANTIA GELITANOSA
• FINAL PROJECTION IS THE FRONTAL CORTEX
MECHANICAL, CHEMICAL AND THERMAL PAIN
• FAST PAIN IS GENERALLY MECHANICAL OR THERMAL
• SLOW PAIN CAN BE ALL THREE• CHEMICAL PAIN RECEPTORS:
BRADYKININ, SEROTONIN, HISTAMINE, POTASSIUM IONS, ACIDS, ACETYL CHOLINE AND PROTEOLYTIC ENZYMES
• PROSTAGLANDINS ENHANCE PAIN SENSATION
BRAIN STRUCTURES AND PAIN
• COMPLETE REMOVAL OF THE SENSORY CORTEX DOES NOT DESTROY THE ABILITY TO PERCIEVE PAIN
• STIMULATION OF THE SENSORY CORTEX EVOKES A SENSATION OF PAIN
PAIN CONTROL (ANALGESIA)
• THE ANALGESIA SYSTEM
• THE BRAIN’S OPIATE SYSTEM
• INHIBITION OF PAIN BY TACTILE STIMULATION
• TREATMENT OF PAIN BY ELECTRICAL STIMULATION
• REFERED PAIN
THE ANALGESIA SYSTEM
• PREAQUEDUCTAL GRAY
• RAPHE MAGNUS NUCLEUS
• PAIN INHIBITORY COMPLEX IN DORSAL HORNS
PAIN INHIBITORY COMPLEX: PRESYNAPTIC INHIBITION
PAINRECEPTOR
BRAIN STEM.NEURON
INHIBITORY NEURON
ANTEROLATERALPATHWAY
DORSAL HORN OFSPINAL CORD
+
-
PAIN TRANSMISSION AND INHIBITION
• SUBSTANCE P IS THE NEUROTRANSMITTER: BUILDS UP SLOWLY IN THE JUNCTION AND IS SLOWLY DESTROYED
• PRESYNAPTIC INHIBITION BY INHIBITORY NEURON BLOCKS THE RELEASE OF SUBSTANCE P (ENKEPHALIN)
THE BRAIN’S OPIATE SYSTEM
• OPIATE RECEPTORS EXIST IN MANY CENTERS OF THE BRAIN, ESPECIALLY IN THE ANALGESIA SYSTEM
• AMONG THE NATURAL SUBSTANCES WHICH ACTIVATE THESE RECEPTORS ARE: ENDORPHINS, ENKEPHALINS, AND MORPHINE
INHIBITION OF PAIN BY TACTILE STIMULATION
• STIMULATION OF LARGE SENSORY FIBERS FOR TACTILE SENSATION INHIBITS PAIN TRANSMISSION FOR SAME REGION
• RUBBING OFTEN EASES PAIN
• LINAMENTS, OIL OF CLOVE, ETC.
• POSSIBLE EXPLANATION FOR ACUPUNCTURE?
TREATMENT OF PAIN BY ELECTRICAL STIMULATION
• STIMULATION OF LARGE SENSORY NERVES
• ELECTRODES IN SKIN OR SPINAL IMPLANTS
• INTRALAMINAR NUCLEUS OF THALAMUS
REFERED PAIN
• VISCERAL PAIN FIBERS SYNAPSE ON SAME SECONDARY NEURONS AS RECEIVE PAIN FIBERS FROM SKIN
THE VISUAL SYSTEM
D. C. MIKULECKYPROFESSOR OF PHYSIOLOGY
ANDFACULTY MENTORING PROGRAM
THE VISUAL SYSTEM SENSES ELEECTROMAGNETIC RADIATION
• ELECTROMAGNETIC RADIATION (EMR) SPANS THE ELECTROMAGNETIC SPECTRUM (EMS)
• FROM RADIO WAVES (VERY LONG) TO -RADIATION (VERY SHORT)
• VISIBLE LIGHT IS A SMALL PORTION OF THE SPECTRUM
• PHOTONS OF LIGHT INTERACT WITH MATTER
ANATOMICAL ORGANIZATION
• THE EYE• CORNEA AND LENS: BEND LIGHT RAYS
AND FOCUS THEM ON THE RETINA• CILLIARY MUSCLES LOSSEN OR TIGHTEN
TO ADJUST LENS THICKNESS• RETINA: SITE OF PHOTORECEPTORS• FOVEA: MOST SENSITVE PART OF RETINA
TEAR DUCTANDDRAINAGECANAL
PUPIL IRISSCLERA
OPTIC DISC
OPTIC NERVE
BLOOD VESSELS
FOVEA
SCLERA
RETINA
CHOROID
VITREOUS HUMOR
AQUEOUS HUMOR
CORNEA
LENS
PUPIL
IRIS
CONJUNCTIVACILIARY BODY
SUSPENSORY LIGAMENTEXTERNAL EYEMUSCLE
STRUCTURE OF THE EYE
THE PHOTORECEPTORS• RODS:
CYLLINDRICALLY SHAPED- BROAD RANGE OF WAVELENGTHS, NIGHT
• CONES: CONICALLY SHAPED-NARROW WAVELENGTH RANGE, COLOR
BEFORE A PHOTON ARRIVES
•RHODOPSIN ABSORBS PHOTON AND CHANGES SHAPE
•A SEQUENCE OF BIOCHEMICAL STEPS
•MEMBRANE HYPERPOLARIZED
AFTER A PHOTON ARRIVES
MEMBRANE POLARIZED NORMALLY
PATHWAYS FOR VISUAL INFORMATION
• OPTIC NERVE (GANGLION CELLS FROM RETINA)
• LEAVES THROUGH “BLIND SPOT”
• LATERAL GENICULATE NUCLEUS: PROJECTS TO CORTEX
• PRIMARY VISUAL CORTEX
VISUAL ORIENTATION COLUMNS
• CELLS IN VARIOUS COLUMNS OF CORTEX RESPOND TO DIFFERENT ORIENTATIONS
• THESE DEVELOP DURING THE EARLY VISUAL EXPERIENCES OF YOUNG ANIMALS
COLOR VISION
• TRICHROMATIC: RED, BLUE, GREEN
• PARVOCELLULAR NEURONS CARRY INFORMATION
• DIFFERENT CELL TYPES
• COLOR CONTRAST
THREE KINDS OF CONES
• RED, BLUE, AND GREEN
• CONNECT TO SMALL GANGLION CELLS
• TRANSMIT COLOR INFORMATION TO PARVOCELLULAR NEURONS IN LGN
COLOR NEURONS
• BROAD BAND: SINGLE COLOR, + INSIDE, - OUT
• SINGLE - OPPONENT: EXITED BY ONE COLOR IN CENTER, INHIBITED WHEN ANOTHER COLOR IN PERIPHERY
• DOUBLE OPPONENT: OPPOSING COLORS IN BOTH CENTER AND PERIPHERY
• ANNULAR FIELDS OVERLAP TO RECTANGULAR IN CORTEX
LENS DEFECTS
• FOCUSING IN FRONT OF RETINA
• NEARSIGHTEDNESS (MYOPIA)
• USUALLY DUE TO WEAK CILIARY MUSCLES
• FOCUSING BEHIND THE RETINA
• FARSIGHTEDNESS(HYPEROPIA)
• LENS TOO STIFF (AGING)
NEARSIGHTEDNESS (MYOPIA)
UNCORRECTED
CORRECTED
FARSIGHTEDNESS (HYPEROPIA)
UNCORRECTED
CORRECTED
VISUAL FIELD DEFECTS
• OPTIC NERVE:VISUAL FIELD ON SAME SIDE
• OPTIC CHIASM:OUTER HALF OF BOTH VISUAL FIELDS
• OPTIC TRACT: OPPOSITE HALF IN BOTH VISUAL FIELDS
• OPTIC RADIATIONS:LOWER OR UPPER QUADRANT ON OPPOSITE SIDE
THE AUDITORY SYSTEM AND THE CHEMICAL SENSES
D. C. MIKULECKYPROFESSOR OF PHYSIOLOGY
ANDFACULTY MENTORING PROGRAM
THE NATURE OF SOUND
• COMPRESSION AND RARIFICATION OF AIR
• WAVES OF HIGH AND LOW PRESSURE
• TRANSMIT MECHANICAL FORCES
CHARACTERISTICS OF A PRESSURE WAVE
A
T = WAVELENGTH
A = AMPLITUDE
f = 1/T FREQUENCY
ANATOMY OF THE EAR
• OUTER EAR
• MIDDLE EAR
• INNER EAR
OUTER EAR
• ACTS TO FOCUS SOUND WAVES ON THE TYMPANIC MEMBRANE
• SHAPED LIKE A SOUND CONE
OUTER EAR
PINNA
CANAL
MIDDLE EAR
• THREE BONES LINK TYMPANIC MEMBRANE TO OVAL WINDOW
• VIBRATIONS TRANSMITTED MECHANICALLY
MIDDLE EAR
TYMPANICMEMBRANE
OVALWINDOW
BONES OFMIDDLE EAR COCHLEAR
FLUIDSOUNDWAVE IN EAR CANAL
INNER EAR
• SITE OF TRANSDUCTION
• VIBRATION OF COCHLEAR FLUID CAUSES BASILAR MEMBRANE TO VIBRATE
• HAIR CELLS ARE DEFORMED
• AUDITORY NERVE BECOMES EXCITED AS HAIR CELLS DEPOLARIZE
INNER EAR
OVALWINDOW
COCHLEA
STRUCTURE OF THE COCHLEA
SCALA VESTIBULI
COCHLEAR DUCT
SCALATYPANI
OVALWINDOW
ROUND WINDOW
STRUCTURE OF COCHLEAR DUCT
BASILAR MEMBRANE
TECTORIAL MEMBRANEORGAN OF CORTI
TRANSDUCTION MECHANISM
BASILAR MEMBRANE…..VIBRATES
TECTORIAL MEMBRANE STATIONARY
STEROCILIA
AUDITORY NERVE
HAIRCELLS
TRANSDUCTION MECHANISM
TECTORIAL MEMBRANE STATIONARY
BASILAR MEMBRANE…..VIBRATES
STEROCILIABEND
AUDITORY NERVE HAIR
CELLS
FREQUENCY DISCRIMINATION: LOCALIZATION OF DISPLACEMENT OF
BASILAR MEMBRANEBASE APEX
HIGH
LOW
MID
AUDITORY PATHWAYS
COCHLEA
VENTRALCOCHLEARNUCLEUS MIDLINE
VENTRALCOCHLEARNUCLEUS
SUPERIOROLIVE
INFERIOR
COLLICULUS
AUDITORY PATHWAYS (CONT.)
MIDLINE
SUPERIOROLIVE
INFERIOR COLLICULUS
INFERIOR COLLICULUS
MEDIAL GENICULATE
MEDIAL GENICULATE
TEMPORALCORTEX
TEMPORALCORTEX
CHARACTERISTICS OF A PRESSURE WAVE
A
T = WAVELENGTH
A = AMPLITUDE
f = 1/T FREQUENCY
PROPERTIES OF AUDITORY NERVE CELLS
• EACH AUDITORY NERVE FIBER HAS AN OPTIMUM FREQUENCY
• THIS TONOTOPIC ORGANIZATION ARISES FROM POSITION IN THE COCHLEA
• TONIC AND PHASIC NEURONS IN EACH AREA
• SOME RESPOND TO CHANGE IN FREQUENCY
• SOME RESPOND TO CHANGE IN AMPLITUDE
SOUND LOCALIZATION
• INTERAURAL TIME DIFFERENCE
• TIME DELAY BETWEEN TWO EARS
• ALSO INTENSITY DIFFERENCES
DISORDERS OF AUDITION
• LOSS OF HAIR CELLS: FREQUENCY SPECIFIC
• TINNITUS: RINGING
• CONDUCTIVE:l DAMAGE TO MIDDLE EAR
• CENTRAL: BRAIN TUMORS AND LESIONS
THE VESTIBULAR APPARATUS
• SEMICIRCULAR CANALS: HAIR CELLS SENSE MOTION
• THREE COORDINATE PLANES: SUPERIOR, INFERIOR, AND HORIZONTAL
• UTRICLE AND SACCULE DETECT LINEAR ACCELERATION IN HORIZONTAL AND VERTICLE PLANES
THE VESTIBULAR APPARATUS: UTRICLE & SACCULUS
ONE CANAL IN EACHCOORDINATEPLANE
AMPULLAUTRICLE&SACCULUS
THE UTRICLE & SACCULUS
HAIR CELLSNERVE
CELLS
OTOLITHICMEMBRANE-GELATINOUSLAYER
OTOCONIA(CALCIUMCARBONATECRYSTALS)
THE UTRICLE & SACCULUS
HAIR CELLSNERVE
CELLS
OTOLITHICMEMBRANE-GELATINOUSLAYER
OTOCONIA(CALCIUMCARBONATECRYSTALS)
HEAD MOVEMENT
THE VESTIBULAR APPARATUS: SEMICIRCULAR CANALS
ONE CANAL IN EACHCOORDINATEPLANE
AMPULLAUTRICLE&SACCULUS
THE AMPULLA
HAIR CELLSNERVE
CELLS
THE AMPULLA
HAIR CELLSBENT
NERVECELLSFIRE
INERTIAL FLUID MOVEMENT
MOVEMENT OF HEAD
TASTE SENSATION
• GUSTATORY RECEPTORS
• GUSTATORY PATHWAYS
GUSTATORY RECEPTORS
• TASTE BUDS ON TONGUE LOCALIZED
• SWEET: TIP
• BITTER:BACK
• SOUR SIDES
• SALT: FRONT
GUSTATORY PATHWAYS
• VII, IX, X CRANIAL NERVES
• TO GUSTATORY NUCLEUS IN BRAIN STEM
• VPM NUCLEUS OF THALAMUS
• GUSTATORY AREA OF NEOCORTEX
• VIA LIMBIC SYSTEM TO HYPOTHALAMUS
THE OLIFACTORY SYSTEM
• RECEPTOR CELLS IN OLIFACTORY MUCOSAL MEMBRANE
• AXONS CROSS CRIBIFORM PLATE AND TERMINATE ON MITRAL CELLS IN OLIFACTORY BULB-FORM OLIFACTORY TRACT
• OLIFACTORY TRACT GOES TO LIMBIC SYSTEM AND TO ORBITOFRONTAL CORTEX
• CLOSELY ASSOCIATED WITH EATING AND MATING BEHAVIOR
THE AUTONOMIC NERVOUS SYSTEM
• TWO NEURON CHAINS
• SYMPATHETIC
• PARASYMATHETIC
TWO NEURON CHAINS
SPINEEFFECTOR
ORGAN
PRESYNAPTICNEURON
POSTSYNAPTICNEURON
SYMPATHETIC
• GANGLION NEAR SPINE
• SHORT PREGANGLIONIC NEURONS
• LONG POSTGANGLIONIC NEURONS
• FLIGHT OR FIGHT
• POSTGANGLIONIC NEURONS ARE ADRENERGIC
PARASYMPATHETIC
• GANGLION NEAR EFFECTOR ORGAN
• LONG PREGANGLIONIC NEURONS
• SHORT POSTGANGLIONIC NEURONS
• “COUCH POTATO”
• POSTGANGLIONIC NEURONS ARE CHOLINERGIC
EFFECTS OF ANSORGAN S PHEART + -BLOODVESSELS
CONSTRICT(MOSTORGANS)
DILATE (HEART
AND SKELETAL)
DILATE (PENISAND CLITORIS)
BRONCHIOLES DILATE CONSTRICT
PUPIL DILATE CONSTRICT
DIGESTION INHIBIT ENHANCE
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