Autonomic nervous system



AUTONOMIC NERVOUS SYSTEM
•autonomic nervous system participates in innervation of the visceral part of body, it controls
autonomic functions, which takes place independently of our will
•It is consist of visceromotor nerve fibers
•It makes sensory innervation of visceral organs, vessels, motor innervation of smooth muscle and
myocardium and glandular cells
•It includes neurons of CNS and PNS
•central part – hypotalamus, reticular formation medulla oblongata, spinal cord, cortex
•peripheral part – nerve fibers (cranial nerves, spinal nerves)
•

Types of stimuli
•Nuclei within CNS è visceromotor fibers – through anterior roots of spinal cord è autonomic
ganglia along the spine – to the organs of abdomen, thorax, pelvis
•Free nerve endings in the wall of organsè pressure, thrust, pain-  viscerosensory è autonomic
ggl.- to posterior roots of spinal cord - ggl. spinale or ggl. VII., IX., X. and into visceromotor
nuclei

•Autonomic tracts don´t go from CNS directly – they switch over in ganglia outside CNS
•They are formed at least by two neurons, which switch over in so-called autonomic ganglion
•Preganglionic neuron : myelinated axon that goes from CNS to autonomic ganglion
•Postganglionic neuron: unmyelinated axon that goes from autonomic ganglion as a proper autonomic
nerve

•autonomic (visceromotor) nerve fibers are of two types
• sympathetic pars sympathica
• parasympathetic pars parasympathica
•
•Glands and smooth muscle of almost each visceral organ are innervated by both sympathetic and
parasympathetic
•One system is usually activating and the other inhibiting
•Exception are smooth muscle of the skin  and skin glands, which are innervated only by sympathetic
•

Main functions
•Contraction and relaxation of smooth muscle
•Function of all exocrine and some endocrine glands
•Hearth rhytm
•Some metabolic processes

Division of autonomic nerve system
•sympathetic – fight or flight
•parasympathetic – rest or digest
•enteric system

Parasympathetic
rest or digest
Sympathetic
fight or flight

craniosacral system (parasympathetic)
thoracolumbar system (sympathetic)
cranio-sacral system (parasympathetic)
Pars sympathica: nuclei in CNS and in the spinal cord (C8 – L3)
Pars parasympathica: nuclei in CNS (which belong to the cranial nerves), spinal cord (S2 – S4)

Sympathetic and parasympathetic system differ in the arrangement of ganglia:
Sympathetic ganglia:
• are far from target organs (at spine) – paravertebral ganglia – truncus sympathicus dexter et
sinister
Parasympathetic ganglia:
• closer to organs (ganglion ciliare, pterygopalatinum, oticum, submandibulare + scattered within
organ walls)
•
Mediators of sympathetic and parasympathetic system:
• preganglionic – the same (from CNS) – acetylcholine
• postganglionic - sympathetic – noradrenalin
• postganglionic - parasympathetic - acetylcholine

SYMPATHETIC
„thoracolumbar system“


•Arises from the thoracic and lumbar parts of the spinal cord – from nucl. intermediolateralis
C8-L3- so-called thoracolumbar system
• it leaves the spinal nerve as ramus communicans albus - it ends in sympathetic ganglion next to
the spine - preganglionic section - to paravertebral ganglia
•single paravertebral ganglia form truncus sympathicus
• from the ganglia arise proper sympathetic nerves, postganglionic section
•Sympathetic nerves enter through different way the innervated organs

•It controls the catabolic functions, activates functions of the visceral organs
-it accelerates the heart activity and breathing
-It causes contraction of smooth muscle of vessels within the skin and visceral organs and thereby
increases blood pressure
-It increases level of sugar in blood
-It expands pupils (mydriasis)
-It conversely slows digestion
-It induces a state of wakefulness ans it is used in stress reactions
Functions

Truncus sympathicus
•ganglion trunci sympathici (21-25) = paravertebral ganglia
•rr. intergaglionares
•rr. communicantes albus + griseus
•rr. vasculares – periarterial plexuses
•rr. viscerales=nn. splanchnici - to prevertebral ganglia
•
Cervical part
Thoracic part
Abdominal part
Pelvic part

Ganglion cervicale superius
Ganglion cervicale medium
Ganglion cervicothoracicum / stellatum
- It forms periarterial plexuses around a. carotis ext. et int. – intake of sympathicus to neck and
head
- nn. cardiaci – innervation of the heart
Cervical part

Tvoří periarteriální pleteně kolem a.carotis ext.et nit.- přívod sympatiku ke krku a hlavě
nn.cardiaci- inervace srdce

Ganglia thoracica (thoracic part)
•10 pairs of ganglia
•nn. splanchnici – for smooth muscle of GIT and its vessels
•rr. communicantes grisei - to intercostal nerves
•Branches to heart, lungs, esophagus
•
Ganglia lumbalia (lumbar, abdominal part)
•4-5 pairs of ganglia
•rr. communicantes grisei
•nn. splanchnici lumbales
•rr. vasculares
•
Ganglia sacralia (pelvic part)
•4 pairs of ganglia
•rr. communicantes grisei – for pelvic organs
•Periarterial plexuses

Prevertebral ganglia and plexuses
•They are formed by fibers arising from paravertebral ganglia
•On the anterior wall of abdominal aorta
•Mixed plexus–
• nn. splanchnici + n. vagus

Abdominal aortal ganglia



PARASYMPATHETIC



•pars cranialis- III.,VII.,IX.,X. (cranial parasympathetic)
•pars sacralis S2-S4 (sacral parasympathetic) - craniosacral system - ganglia are located close to
the innervated organs, preganglionic section is therefore long and  postganglionic section is short
• mediator is acetylcholin in whole section - cholinergic system

•pars cranialis: most important is parasympathetic part of nervus vagus – it innervates the
digestive tract till the border between colon transversum and colon descendens in the abdominal
cavity
•pars sacralis: it innervates the digestive tract from the border between colon transversum and
colon descendens till rectum and visceral organs located in the pelvis (urinary bladder, genital
organs except gonads)
•
•
Functions
It controls anabolic reactions – preservation of energy, it induces  inhibition of organism:
-  It slows heart activity and breathing
-It decreases blood pressure
-It narrows pupils (miosis)
-It accelerates digestion, sweating and salivation
-It is used especially ar rest (slep) and during digestion
•

Parasympathetic = craniosacral system
•Nuclei of cranial nerves:
–ncl. oculomotorius accessorius to ganglion ciliare (m. sphincter pupilae, m. ciliaris)
–ncl. salivatorius superior (VII.) to ganglion pterygopalatinum and submandibulare (lacrimal gland,
mucosa of nasal cavity, palate, tongue, gl. sublingualis and submandibularis)
–ncl. salivatorius inferior (IX.) to ganglion oticum (glandula parotis and small salivatory glands
of cheek)
–ncl. dorsalis n. X (together with n. vagus to organs)
•ncl. intermediolateralis S2-4 (pars sacralis, pelvica) – to pelvic organs nn. splanchnici pelvici
•
•ganglia are located within the skull or organs walls
•

Ganglion ciliare
•Here end preganglionic fibers of n.oculomotorius
•parasympathetic (m. sphincter pupillae, m. ciliaris) sympathetic (m. dilatator pupillae)
•Ganglion pterygopalatinum
•Here end preganglionic fibers of n.facialis
•Mucosa of posterior part of nasal cavity, upper teeth, mucosa of hard palate, lacrimal gland
•Ganglion submandibulare
•Here end preganglionic fibers of n.facialis
•gl. sublingualis, gl. submandibularis, salivary glands of tongue and botoom of oral cavity
•Ganglion oticum
•Here end preganglionic fibers of n.glossopharyngeus
•skin, mucosa, teeth and gingiva of lower jaw, gl. parotidea
•
Preganglionic fibers of n. vagus end in prevertebral ganglia of thoracic and abdominal cavity
Preganglionic fibers of sacral parasympathetic are switched over in pelvic plexuses

Pregangliová vlákna n.vagus končí v prevertebrálních gangliích dutiny hrudní a břišní
Prevertebrální vlákna sacrálního parasympatiku se přepojují v pánevních pleteních







Enteric system
•In the wall of digestive tract
•plexus submucosus
•plexus myentericus
•Separate and independent of connection with sympathetic and parasympathetic
•It works also after interruption of connections with ANS
•It controls tension and mobility of digestive tract, it regulates secretion of all glands and
blood flow
•innervation and regulation of function of gall bladder and pancreas

CNS
•The highest autonomic headquarters= hypothalamus
•It is controled by
•    limbic system
•

•The posterior root leads both somatosensory,
•
•

•
•
•    and
•     viscerosensory
•

The neural tracts
tractus nervosi


THE SENSORY TRACTS
•receptor→CNS
•A) specific:specific information
•B) nonspecific: through interneurons, general information, preparation of CNS for income of
specific information
•1th neuron: pseudounipolar cell of spinal ganglion (ganglion of cranial nerves)
→(cerebellum)→thalamus→cortex
•
•SOMATOSENSORY TRACTS: protopathic sensibility
•                                                       epicritic sensibility
•                                                       proprioception
•
•VISCEROSENSORY TRACTS

•Protopathic sensibility: tactile information (warmth, cold, pressure, pain, rough skin
sensibility)
1)Limbs and trunk: tractus spino-thalamo-corticalis
•1st Pseudounipolar neuron of spinal ganglion→2nd nucleus  proprius→3rd thalamus →cortex (gyrus
postcentralis, area 1, 2, 3)
•2) Head area: tractus trigemino-thalamo-corticalis
•1st Pseudounipolar neurons of sensory ganglia of CN (V., VII., IX., X.) → 2nd nucleus tractus
spinalis (V.) → 3rd thalamus→cortex

•Epicritic sensibility: discriminatory sensation (tactile resolution of shape of object etc.)
1)Limbs and trunk: tractus spino-bulbo-thalamo-corticalis
•1st Pseudounipolar neuron of spinal ganglion→fasciculus gracilis, fasciculus cuneatus → 2nd
nucleus  gracilis, cuneatus medialis→ 3rd thalamus →cortex (gyrus postcentralis, area 1, 2, 3)
•2) Head area: tractus trigemino-thalamo-corticalis
•1st Pseudounipolar neurons od sensory ganglia of CN (V., VII., IX., X.) → 2nd nucleus principalis
(V.) → 3rd thalamus→cortex

•Proprioception: from the locomotor system to the cerebellum
1)LL and trunk: 1st  Pseudounipolar neuron od spinal ganglion→ 2nd nucleus  thoracicus→
3rd cerebellum →4th thalamus → cortex
•2) UL: 1st Pseudounipolar neuron of spinal ganglion →fasciculus cuneatus → 2nd nucleus cuneatus
lateralis → 3rd cerebellum → 4th thalamus→cortex

•3) Head area: tractus trigemino-thalamo-corticalis
•1st Pseudounipolar neurons of nucleus mesencephalicus nervi V. → 2nd cerebellum → 3rd
thalamus→cortex
•VISCEROSENSORY TRACTS
•1st  Pseudounipolar neuron of spinal ganglion→ 2nd nucleus intermediomedialis
•→ nucleus intermediolateralis
•→ FR →thalamus →cortex

MOTOR TRACTS
•Set of all neural tracts, which are are connected into the regulation of movement. To them belong
pyramidal and extrapyramidal tracts.
•
•

PYRAMIDAL TRACTS (direct)
•projection direct motor tracts of voluntary movement
•They interconnect motor cortex of hemisphere with motoneurons of anterior spinal horns and with
motoneurons of nuclei of cranial nerves
•It is only one-neuron way
•They start in primary motor cortex, to them belong tractus cortico-spinalis (tract of voluntary
movement of trunk and limbs)  and tractus cortico-nuclearis (tract of voluntary movement of
striated muscles of the head ).

 EXTRAPYRAMIDAL TRACTS (indirect)
•Control of involuntary movement
•Projection extrapyramidal tracts (connect motor cortex of hemisphere with motoneurons of anterior
spinal horns; they are switched over in motor nuclei of brainstem)
•Connections of (motor) basal ganglia (BG are interconnected with each other and with other motor
structures of brain (e.g.  motor cortex and motor parts of thalamus)
•Tracts of cerebellum
•They further interconnect motor nuclei of thalamus, RF and e.g. nucleus ruber, substantia nigra
etc.

•Association tracts:
•The same hemisphere: fibrae arcuatae, fasciculus longitudinalis superior, et inferior, fasciculus
uncinatus, fasciculus arcuatus
•Commissural tracts:
•Right and left side of CNS: commissura anterior et posterior, commissura fornicis, corpus callosum