Biology 2404 A&P Basics      Lab Exercise 6b          Nervous System: PNS        Dr. Weis

Objectives Background Medical Terms Activities Applications Careers WWW Review Questions

 

Objectives:

            Students should be able to

                        * Name the divisions of the PNS

                        * Describe the anatomy of the nervous tissue seen in the PNS

                        * Name the 12 pair of cranial nerves and their function

                        * Name a test that can be used to detect proper function for each of the 12 CN

                        * Give the Human spinal nerve formula

                        * Define dermatome and give its use

                        * Define spinal nerve plexus, their locations, and a nerve that comes from this region

                        * Define reflex by naming the components

                        * Give examples of the major types of reflexes

                        * Name the divisions of the Autonomic Nervous System and their effects

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A&P Background

            Read related material in textbook

Embryologically, the nervous extensions from the central nervous system (CNS) tube are part of the peripheral nervous system or PNS.  The PNS extensions from the brain are the cranial nerves and the PNS extensions from the spinal cord are the spinal nerves.

PNS major divisions are somatic and autonomic and each PNS division has sensory and motor components:

            Somatic Sensory                      Skin receptors for afferent signals

            Special Sensory                      Special sensory receptors for afferent signals

            Autonomic Sensory                 Visceral pain sensations that follow somatic sensory

Somatic Motor           Efferent signals to skeletal muscle

          Autonomic Motor                    Efferent signals to smooth muscle, cardiac muscle, and epithelial glands

Nerve Man Model


The neurons that form the PNS are:

            Pseudounipolar neurons                      somatic sensory afferent

            Bipolar neurons                                   special sensory afferent

            Multipolar neurons                              motor efferents

The neuroglial cells of the PNS are:

            Satellite cells                                      support and protect neuron cell bodies

            Schwann Cells                                    support, insulate, and +/- myelinate axons

Neuron Model

Neuron Drawing : Pseudounipolar, Bipolar, Multipolar

Neuroglial Drawing : CNS neuroglia, PNS neuroglia

Neuron Synapse


Cranial Nerves

There are twelve pairs of cranial nerves (CN) that form extensions from the brain.  They are numbered in order of origin and are usually named by their function.  Cranial nerves are bipolar for special sensory nerves, pseudounipolar for somatosensory,  multipolar motor for efferent nerves, or a combination of both somatic sensory and motor known as a mixed nerve.  The twelve pairs of cranial nerves are:

CN I 
olfactory nerve
 sensory   
  smell
CN II 
 optic nerve  
 sensory 
sight
CN III 
oculomotor  
motor   
eye muscle movements
CN IV   
 trochlear   
motor 
eye muscle rotational movements
CN V  
 trigeminal
mixed 
sensory to the face, motor to the jaw
CN VI 
abducens
motor  
eye muscle movement for abduction
CN VII
facial
mixed   

sensory to the front 2/3 of the tongue  

motor to muscles of the face

CN VIII 
  vestibularcochlear  
sensory  
vestibular: equilibrium  cochlear: hearing
CN IX  
glossopharyngeal
mixed 

glossal: sensory to the back 1/3 of tongue

pharyngeal: motor to the throat

CN X
vagus  
 mixed 

sensory for pharyngeal taste buds

motor for ANS parasympathetic

CN XI  
 accessory   
motor 
muscles of the neck and shoulder
CN XII
hypoglossal 
 motor 
muscles of the tongue

Tests are performed to check the integrity of the neuron pathways and help in brain assessment.

CN I                            smelling salts to test for smell

CN II                           visual tests: Snellen

CN III, IV, VI              eye movements

CN V                           sensory to face

CN V, XII                    jaw and tongue movement

CN VII             sweet, sour, salty taste sensations; facial expressions

CN VIII                       hearing, balance

CN IX                          bitter taste sensations; swallowing

CN X                           normal heart rate, normal respiratory rate, normal gut sounds

CN XI                          movement of skeletal muscles of the neck and shoulders

           

Brain Models

Sheep Brain

Brain poster

Instruments for testing


Spinal Nerves

There are thirty-one pairs of spinal nerves that come from the spinal cord and are referenced by the spinal cord segments that pass through each vertebrae within each region.

In the cervical region, there are 8 pairs of spinal nerves labeled

C-1, C-2, C-3, C-4, C-5, C-6, C-7, C-8

In the thoracic region, there are 12 pairs of spinal nerves labeled

                        T-1, T-2, T-3, T-4, T-5, T-6, T-7, T-8, T-9, T-10, T-11, T-12

In the lumbar region, there are 5 pairs of spinal nerves labeled

                        L-1, L-2, L-3, L-4, L-5

In the sacral region, there are 5 pairs of spinal nerves labeled

                        S-1, S-2, S-3, S-4, S-5

In the coccygeal region, there are on pair of spinal nerves labeled Cx-1

Combining the above, the spinal nerve formula for humans is

                        C 1-8, T1-12, L 1-5, S 1-5, Cx  or  C8, T12, L5, S5, Cx

The spinal nerves are formed by a dorsal root that allows somatic sensory afferent information to enter the spinal cord and a ventral root that allows motor efferent information to leave the spinal cord.  Because sensory information comes in through the spinal nerve to the cord and motor information leaves the cord through the spinal nerve, the spinal nerves are considered to be mixed nerves. 

The spinal nerve divides into dorsal and ventral rami which carry information to their regional areas.  The dorsal rami receives and sends information to the dorsum of the body and the ventral rami receives and sends information to the ventrum of the body.  Since the ventrum is a larger area, the ventral rami divide again into branches that interconnect with other ventral rami branches from other spinal nerves.

These interconnections of ventral rami branches form spinal nerve plexuses. Spinal Nerve plexuses occur in four vertebral areas and are named the cervical plexus, the brachial plexus, the lumbar plexus, and the sacral plexus.  Since the spinal cord ends at L1 vertebra, the ventral roots and branches continue down the vertebral canal to form the cauda equina.

Spinal Nerve Plexus                Ventral Branches                     Examples of Nerves from Plexus

Cervical Plexus                       C1-C4                                     Auricular nerve

                                                                                                Phrenic Nerve

                                                                                                Supraclavicular Nerves

Brachial Plexus                       C5-T1                                      Radial Nerve

                                                                                                Musculocutaneous Nerve

                                                                                                Median Nerve

                                                                                                Ulnar Nerve

Lumbar Plexus             L1-L5                                      Femoral Nerve

                                                                                                Obturator Nerve

                                                                                                Lumbosacral Trunk

Sacral Plexus                          S1-S4                                      Sciatic Nerve

                                                                                                Gluteal Nerves

                                                                                                Pudendal Nerve

 

Spinal Cord on Sagittal Head Model

Spinal Cord Segment Drawing

Spinal Cord Segment Drawing with roots and rami

Spinal Cord Histology

Body Torso with Vertebral column

Intervertebral Discs

Spinal Nerves

Plexus drawing

Plexus models: nerve man, vertebral column

Sheep Brain with Cord


Spinal Reflexes

Once the anatomy of the spinal nerves and spinal cord is understood, pathways created by the rami of spinal nerves can be followed to detect nervous signals and proper responses. These pathways are called spinal reflexes.  By definition, a reflex is an involuntary predictable motor response to a given stimulus. Most reflexes use the spinal cord to create simple cord responses.  More complicated responses involve not only the spinal cord but several synapses to reach the brain and then return information to the spinal cord.

            The basic components of any nervous system reflex are:

                                    Sensory Stimulus

                                    Sensory Neuron

                                    Interneurons

                                    Motor Neuron

                                    Motor Response

 

Nervous System Wall Mount with Reflex

Basic Reflex drawing

In simple cord reflexes there are no interneurons involved, so the reflex is also called a monosynaptic reflex.  Examples of a simple, monosynaptic, cord reflex are the superficial tendon reflexes.  A reflex hammer is used to test these muscle tendons that can be palpated through the skin. Examples of tendons used are biceps, triceps, patellar, and calcaneous tendons.

Once the pressure stimulus is given, the expected response relates to the muscle size and the tendons pull.  Striking the Biceps Tendon should cause a slight flexion in the elbow.  Striking the triceps tendon should cause a slight extension of the elbow.  Striking the patellar tendon should cause a noticeable extension of the knee.  Striking the calcaneous tendon should cause a moderate plantar flexion of the foot. 

Drawing of monsynaptic reflex

More complex reflexes involve interneurons and conscious awareness from the brain. Since multipolar interneurons are used, there are several more synapses in the pathway.

These more complex reflexes are called poly synaptic or multisynaptic reflexes.  Examples of these more complex reflexes include the withdraw reflex, the crossed extensor reflex, and the Babinski reflex. 

Drawing of polysynaptic reflex

Most reflex tests look primarily at the motor response.  Motor reflex tests are graded 0 = normal, -1 and -2 as a decreased response and +1, +2 as an exaggerated response.  Hypo- and Hyper- are also used to describe reflex results.

Reflex test instruments

The sensory portion of the spinal reflex can be determined by analyzing the sensory neuron response.  The dermatome test uses sensory stimuli for pain, pressure, and touch.

Each spinal nerve branch monitors sensory input from a particular body region.  The map of spinal nerves and the body sections that they monitor is termed a dermatome.  Sensory responses are also graded as to a normal response, an excessive sensory response known as hyperesthesia, or a decreased sensory response known as hypoesthesia.

Dermatome test: pinprick, hemostat

Picture of reflex tests


Autonomic Nervous System

The autonomic nervous system or ANS is the second major division of the PNS.  It is responsible for sending sensory information from the internal body organs to the CNS and motor responses from the CNS to involuntary muscle and glands.

Sensory from the ANS is interepreted as pain, no matter what the original stimulus, even if it deals with temperature, pressure, touch, or position.  This phenomenon called referred pain is due to the ANS sensory nerve tracts following somatic sensory for pain to the brain for interpretation. The brain interprets any visceral sensory input as skeletal muscle pain.

Several examples of referred pain include:

            left arm pain (in males)                       heart attack

            Back Pain                                            kidney problems, usually an infection

            Inner thigh pain                                    urogenital problems, usually an infection

            Neck pain                                            lung problems, usually an infection

            Right lower abdominal pain                appendix problems, usually an infection

            Right upper abdominal pain                gall bladder problems, usually an infection

            Upper, middle abdominal pain            stomach problems, usually an ulcer

 

CNS motor efferents for the ANS go to cardiac muscle, smooth muscle, or epithelial glands.  In the PNS, ANS motor efferents are divided into two pathways: sympathetic and parasympathetic.  The ANS motor efferents differ from somatic motor efferents in organization.

Somatic motor efferents go to skeletal muscle using a one neuron pathway.  These are usally large, myelinated multipolar neurons that make the neurotransmitter ACh.

ANS motor efferents go to involuntary muscles and glands using a two neuron pathway.  The first ANS motor efferent neuron is called the preganglionic neuron and is usually myelinated.  The second ANS motor efferent neuron is called the postganglionic neuron and is not myelinated.  The axon lengths of the pre and post ganglionic neurons vary in each ANS motor division and this will cause changes in signaling and response time due to the axon length and the absence or presence of myelin.

Sympathetic motor pathways begin in the thoracic and lumbar regions of the spinal cord. Their responses are controlled in the brainstem and by higher centers such as the hypothalamus. 

ANS sympathetic motor efferents have a generalized fight, flight, or freeze effect on the body’s internal organs.  The primary neurotransmitter used by sympathetic neurons is norepinephrine. 

Epinephrine is also made by the adrenal medulla and is used as a neurohormone for wide spread immediate sympathetic effects.

ANS parasympathetic motor efferents have very specific rest and digest effects on the body’s internal organs.  The neurotransmitter used is ACh.

Parasympathetic motor pathways are carried in certain cranial nerves.

            CN III carries parasympathetic to the eye for tear production and papillary muscle

            CN V and VII carry parasympathetic to the salivary glands

CN X, the vagus nerve, carries parasympathetic to the thoracic and abdominal organs.

The sacral spinal nerves also carry parasympathetic motor information to the lower pelvic organs.

The following is a comparison of ANS motor efferent neurons:

Division

Sympathetic

Parasympathetic

Generalized Body Effects

Flight, Fight, Freeze

Rest and Digest

Neurotransmitter

NE, EPI

ACh

Specific Organs:  Heart

Increase rate and force

Decreased rate

                             Lungs

Increased rate and depth

Decreased rate

                            GI tract

Decrease motility

Increased motility

                             Urinary

Decreased urine production

Normal urine production

                        Pupils of Eye

Dilate

Constrict

Since both ANS motor efferent pathways affect most body organs, these organs are said to have dual innervation, which means that both motor nerves can signal a response.  Only one ANS motor division can dominate for long term homeostatic control.  The ANS motor division that maintains homeostatic control produces the ANS tone for that organ.

For example, 24 hours a day you would most likely want your heart rate to be normal and the muscle contraction to pump enough blood to the tissues.  If sympathetic division was in control, your heart would constantly race and pound and eventually wear out.

Since the parasympathetic is the better division to have for long term control, we say that the heart has parasympathetic tone.

 Most organs have parasympathetic tone as sympathetic changes are only needed in an emergency which is hopefully short term.  The only organ that has sympathetic control and therefore sympathetic tone are the smooth muscles of blood vessels.

In an emergency, blood flow needs to be immediately redirected and the sympathetic nervous system allows for such a quick response.

ANS reflex pathways are also in place.  Recall that a reflex is a predictable motor response to a sensory stimulus.  Examples of ANS reflexes are:

                        Pupillary light             changes in pupil diameter with amount of light

                        Gut Sounds                  in response to sight, vision, and smell of food

                        Respiratory rate          changes depending on blood gas and pH levels

                        Heart rate                    changes depending on pressure and flow

Spinal Cord Model

Nerve Man: Head, Thorax, Lumbar

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Medical Terminology

ad, af               to, toward                                ex, ef               away from

multi-               many                                        -plegia             paralysis

-asthenia          weakness                                 -esthesia          feel, perceive

-ferent              carry                                        -fuge                flee

ganglio-           swelling                                  grad-                walk

neuro-              nerve                                       non-                 no, not

kinesi/o-          movement                                ton/o-               tone, tension

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Exercises/ Activities

ID  nerve pathways: Plexus, CN

            models

            specimens

            drawings

ID reflex pathway

Cranial Nerve tests

Somatic Reflex tests: Patellar tendon, Calcaneon tendon, Crossed extensor

CN reflex tests: Gag reflex, Swallowing reflex

ANS Reflex tests: Pupillary light

Concept Map: Make a concept map of the PNS using its structures (gross and histological) anatomy, location, and physiological function. Include this map in your LAR lab report (if selected) as a document insert or as an additonal PDF document of the scan.

Case Study

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Applications

Gangliomas

Bell’s Palsy

Ataxia

Peripheral Neuritis

Spinal Cord Injuries: Paraplegia, Quadriplegia

Paresis

Sciatica

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Careers:

Anesthesiologist

anesthesia technologist

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WWW

http://innerbody.com

http://www.nlm.nih.gov/medlineplus/healthtopics.html

http://www.lumen.luc.edu/lumen/meded/histo/frames/histo_frames.html

http://brainmuseum.org/

http://www.kcmetro.cc.mo.us/maplewoods/Biology/Bio110/Labs.htm

http://www.medem.com/MedLB/article_detaillb.cfm?article_ID=ZZZB2KOBGJC&sub_cat=185

http://www.neurosurgery.org/health/patient/answers.asp?DisorderID=51

http://www.neurosurgery.org/health/patient/answers.asp?DisorderID=44

http://www.medem.com/MedLB/article_detaillb.cfm?article_ID=ZZZR9WH46JC&sub_cat=509

http://www.medem.com/MedLB/article_detaillb.cfm?article_ID=ZZZYUAM46JC&sub_cat=509     brain side view

http://www.medem.com/MedLB/article_detaillb.cfm?article_ID=ZZZCLJKBGJC&sub_cat=185

http://www.nlm.nih.gov/medlineplus/brainandnervoussystem.html

http://www9.biostr.washington.edu/da.html

http://www.vh.org/Providers/Textbooks/BrainAnatomy/TOC.html

http://www.vh.org/Providers/Textbooks/BrainAnatomy/BrainAnatomy.html

http://www.med.harvard.edu/AANLIB/home.html

http://www.uofs.edu/sheep/ieframerow.html

http://www.quia.com/fc/37303.html

http://www.leeds.ac.uk/chb/humbmods.html

http://www.stemnet.nf.ca/CITE/body.htm

http://www.neurologychannel.com

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Summary and Review Questions

1. Name the divisions of the PNS.

2. Name 6 CN and their function

3. Explain how to test the 6 CN in question #2.

4. Define spinal nerve plexus and give two examples

5. Define reflex by using the anatomical structure

6. Name the two divisions of ANS motor and their general body effects

7. Define referred pain

8. Name the spinal nerve formula for humans.

9. Give the purpose of Schwann cells

10. Give examples of a simple cord reflex, complex reflex, and an ANS reflex

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