NERVOUS REGULATION OF FUNCTIONS . EXCITATION AND INHIBITION IN CNS
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Transcript of NERVOUS REGULATION OF FUNCTIONS . EXCITATION AND INHIBITION IN CNS
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Nervous regulation of functions.Excitation and inhibition in CNS
Lecture 2
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Questions:
• General principles of function regulation.• Functional systems. Positive and negative
feedback.• Nervous regulation of functions. Neuron as
the structural and functional unit.• Nervous centers and their properties.• Reflex, reflex arch, its structure.• Principles of reflex coordination
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Regulationprocess of the maintenance of
homeostasisHomeostasis – maintenance of static (or constant) conditions in the internal environmentInternal environment – liquid environment of human body (blood, lymph, extracellular fluid etc.)
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Regulation is realized by control systems
• There are thousands control systems• Example: respiratory system together with
nervous system regulates concentration of carbon dioxide
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Biological regulation• Levels:
cellular (local regulation)organ (local into organ)system and organism (central)
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Regulation of body functionsis provided by regulatory systems
• Nervous system• Hormonal system
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Central regulation
• Realizes by means:central nervous systemendocrine system
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Functional system
• Functional association some structures activity of which aimed to regulation some homeostatic parameters
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Regulatory apparatus (feed-back mechanism) includes:
• Positive and negative feedback loops.
• Positive: the more parameter the more functional activity of organ
• Negative: the more parameter the lesser functional activity of organ
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Role of feedback
mechanism
• When a homeostatic constant of
internal environment deviates
significantly from normal range,
through feedback mechanism the
deviation is corrected to
maintain homeostasis
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Importance
• Autoregulation is possible • negative feedback loop is typical for healthy
human body
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Nervous regulation of functions
• NS provides the control of functions of the body: the rapid activities of the body (muscular contractions, rapidly changing visceral events and the rates of secretion of some endocrine glands).
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NS•Central nervous system (CNS) - brain and spinal cord
•Peripheral nervous system (PNS) – cranial nerves (I-XII), spinal nerves, ganglia, enteric plexuses
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Functions
• Sensory• Integrative• Motor
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Neuron
• is a basic structural and functional unit of the nervous system. As well as the NS in whole a neuron receives information from the different sensory organs and integrates it producing body’s response.
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Structure of neuron
• Has dendrites (reception of information), cell body (processing and analysis of information) and trigger zone – axon hillock (AP initiated – efferent command)
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Functions of neuron:
• Receptive • Analysis and synthesis of information
(integrative function)• Motor function (generation of AP)
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Classification of neurons:
is based on functions (a), number of processes (b), neurotransmitters (c),
shape and size.(a) sensory (afferent), contact
(intraneuron), motor (efferent);(b)unipolar, bipolar, multipolar;
Cholinergic, adrenergic
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Neuroglia
• Astrocytes • Oligodendrocytes• Microglia• Ependymal cells (only in CNS)• Schwann cells and sattelite cells in PNS
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Functions of neuroglia
• Trophic: provides nutrients to neurons• Homeostatic (helps to maintain appropriate
chemical environment);• Supporting function (network around CNS
neurons);• Protective (from microbe diseases) etc.
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Nervous center
• Is a association (group) of neurons which together regulate a definite function (respiratory center, hemodynamic center etc).
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Properties• Summation of excitation • Occlusion• One-way conduction• Delayed conduction• Prolongation (post-action)• Transformation• Divergence• Convergence
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Summation
• Generation of AP in response to subthreshold impulses when they come to the center one after another at short interval along one nerve fiber
• Or• when they come to the center
simultaneously from different fibers
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Types of summation
• Temporal (consecutive) summation• Spatial summation
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Occlusion
• Decreased reaction response (effect) on simultaneous stimulation
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This phenomenon can be explained as two nervous centers can have some common neurons that belong on both centers
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One-way conduction
• In CNS the impulses can be conducted only in one direction (from afferent neuron to efferent neuron)
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Delayed conduction
• The impulses pass through the nervous center more slowly than along nerve because the chemical processes in the synapses take some time – synaptic delay
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Prolongation
• Reflex can continue after end of stimulation.
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Transformation
• Change of the rhythm of excitation
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Divergence (or irradiation)
• Excitation can spread increasingly and involving more and more neurons
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Convergence
• Excitation spreads from multiple neurons to single neuron
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Neurons circuits (chains)
• Diverging• Converging• Reverberating• Parallel after-discharge etc
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Neurons circuits
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Reflectory principle
• Reflex is response of organism on external stimulation (R.Decart, 17th century)
For CNS: “Reflexes of brain” M.Sechenov (1869)
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Links of reflex arc
• Afferent (receptor, afferent fiber, afferent neuron) – Receptive field : group of receptors which send sensory information to one afferent neuron
• Central (contact (inter-) neurons)• Efferent (efferent neuron, efferent fiber,
effector organ)
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Classification of reflexes (based on localization of chains of reflex
arcs)• Exteroceptive• Interoceptive (visceral)• Proprioceptive
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Central chains
• Spinal• Bulbar• Mesencephalic (mid-brain)• Diencephalic (interbrain)• Cortical
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Efferent chain
• Motor (muscles)• Secretory (glands)
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Structure of reflex arc
• Monosynaptic• Bisynaptic • Polysynaptic
• Reflex time depends on number of synapses in reflex arc
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Other classifications
• Physiological: cardiovascular, respiratory, digestive, excretory, locomotor, stato-kinetic
• Biological: nutritive, defensive, sexual• Somatic, autonomic• Conditioned, unconditioned
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Principles of coordination
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Coordination
• Interaction of neurons and neuron processes (reflexes)
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Principles of reflex coordination
• Reciprocal innervation• Common final path• Dominant
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Principle of common final path (by CH.S. Sherrington)
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Domimant (by Ukhtomsky)
• In definite conditions one nervous center always is the most active (higher tonus) than other centers. And even more, this center inhibits other centers. It is important because iy permits to focus brain only on one action, realization of which is the most important in concrete situation.
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Excitation end inhibition in CNS. Central synapses
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Inhibition
• Is the nervous process, opposite excitation• It archives by means hyperpolarization on
the postsynaptic membrane (postsynaptic inhibition) or as result of inhibition of mediator secretion in the synaptic cleft from presynaptic membrane (presynaptic inhibition).
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Central synapses
• Excitatory neurotransmitters (acetylcholine, amino acids, biogenic amines, ATP and other purines, nitric oxide)
• Inhibitory neurotransmitters (glycine, gamma aminobutyric acid - GABA).
• About 100 chemical substances
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Bioginic amines:
• Norepinehrine – in the brain a smaller number of neurons use - awakening from deep sleep, dreaming and regulating mood;
• Dopamine – emotional responses, addictive behaviors and pleasurable experiences, tonus of skeletal muscles (Parkinson desease, one form of schizophrenia)
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Biogenic amines:
• Serotonin – sensory perception, temperature regulation, control of mood, appetite, induction of sleep
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ATP and other purines
• Excitatory NT in CNS and PNS act with NE
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Neuropeptides
• Enkephalins analgetic action stronger than morphin
• Opioid peptids (endorphyns) – analgesia (loss of pain sensation, improving of memory and lesrning, feelings of plesure or euphoria, sexual drive etc. and depression and schizophrenia.
• Substance P – pain sensations
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Nitric oxide
• Has widespread effects throughout the body.
• Main effects – vasodilatation, m.b.memory and learning (Viagra).
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Inhibitory neurotransmitters
• Inhibitory NS cause IPSP by opening Cl ions. Antianxiety drugs such as diazepam (Valium) enhance the action of GABA.
• GABA is found only in CNS. In spinal cord about half of inhibitory synapses use amino acid glycine and half use CABA
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Iontropic receptors
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Metobotropic receptors
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Serotoninergic synapse
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AcH transmission
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Questions 1. Spinal cord in regulation of the motor
function2. Brain stem. Role of the Reticular
Formation in control of motor function3. Function of Cerebellum in controlling of
movements4. The Basal Ganglia and motor control5. Motor functions of the Cerebral Cortex
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Functions of the Spinal cord
¾ reflectory (motor, autonomous)¾conductive
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Bell-Magendie law
• Posterior roots contain centripetal, afferent fibers
• anterior roots contain centrifugal, efferent fibers
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Neuronal organization of s.c.
• Dorsal horns: afferent centers• Lateral horns: vegetative centers• Ventral horns: motor centers
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• Sensory• Integrative• Motor
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Sensory f.
• 12 laminas (1-YI – in dorsal horns; 2-3 –substantia gelatinosa) - reception of information from mechanoreceptors (Aβ,Aδ, C), nociceptors (Aδ,C), cold receptors(Aδ), thermoreceptors ©.
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Integrative function
• Interneurons are present in all areas of the cord gray matter
• Renshaw cells –inhibitory cells – transmit inhibitory signal to the nearby motor neuron
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Motor function
• 2 types of motor neurons:• Α-motoneurons regulate the extrafusal
muscle fibers (contraction of muscle)• γ-motoneurons provide dynamic and static
reactions in response on information from intrafusal muscle fibers
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Receptors
• Muscle spindle reacts to changes of a muscle length
• Golgi Tendon Organ – to changes of tension
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Control of Gamma Efferent Discharge (gamma-loop)
• Length of muscle spindles regulates a length of this muscle
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Gamma coactivation(during voluntary movements)
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Spinal motor reflexes
• Stretch (myotatic, tendon) reflexes regulate muscular tone and posture – fast stretch of muscle
• Phasic reflexes - skin reflexes (exteroceptive reflexes)
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Myotatic (muscle stretch) reflex (Fast change of posture)
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Inverse stretch reflex (active muscle contraction)
• Receptors – Goldgi tendon organ (unlike the spindles) are stimulated by both passive and active contraction of the muscle.
• Stretch stimulates the spindle – Ia fibers -motor neurons
• It stimulates also Golgi tendon organ, Ib fibers activate the interneuron to release inhibitory mediator glycine
• Strong stretch stops discharging
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Phasic reflexes (withdrawal reflex, skin reflexes)
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Clinical reflexes
• flexion-extension reflexes (biceps reflex, triceps reflex, Achilles reflex)
• Knee-jerk reflex• Abdominal reflexes
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Mechanisms of coordination
• Convergence• Divergence• Reciprocal inhibition• Inverse (recurrent) inhibition
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Convergence
• The motor neurons in the spinal cord constitute the common final path – the root, by which all central activity influences motor neurons
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Convergence
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Divergence
• Spreading of impulses from 1 neuron to some neurons
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Divergence
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Reciprocal inhibition
• Collateral branches of type Ia axons inhibit the motor neurons of antagonist muscles
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Reciprocal inhibition
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Recurrent inhibition
• Stimulation of one neuron causes the inhibition of surrounding motor neurons
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Autonomous reflexes
• Vessels• Smooth muscles of visceral organs (act of
urination, defecation, erection etc)
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Ascending tracts9spinocerebellar9spinotalalamic 9fasciculus gracilus and fasciclus cuneatus
Descending tracts9corticospinal9rubber-spinal 9tecto-spinal 9reticular-spinal9vestibulo-spinal
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• Proprioceptors of the muscles, tendons –spinal ganglia - medulla oblongata –thalamus – cerebral cortex
Fasciculus gracilus and fasciclus cuneatus (Goll’s and Burdach’s)
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spinotalalamic
• Pain and temperature receptors – lateral spinotalamic tract – thalamus- cortex
• Tactile receptors of the skin – ventral spinothalamus tract – cerebral cortex
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spinocerebellar(Gowers’ and Flechsig’s)
• Proprioceptors - cerebellum
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Descending tracts
• corticospinalrubber-spinal tecto-spinal reticular-spinalvestibulo-spinal
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Spinal shock
• Transsection of s.c. in the upper neck causes depression all reflexes.
• After a few hours to a few weeks (months) the reflexes recover
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Brain stem
• Medulla• Pons • mesenchephallon
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Hind brain and cerebellum
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Diencephalons
• Thalamus• Hypothalamus
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Functions
• 1. sensory and motor functions of face and head regions which are provided by cranial nerves (afferent and efferent as in spinal cord)
• 2. many special control functions by means own nuclei:
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Nuclei which provide
• Respiration• The cardio-vascular system• The gastrointestinal system• Many stereotyped movements of the body• Control of equilibrium• Control of eye movement
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Medulla oblongata
• XII –n.hypoglossus (motor)• XI – n.accessorius (motor)• X –n.vagus (sensory and motor)• IX – n.glossopharingeus (sensory and
motor)• YIII – n.vestibulo-cohlearis (sensory and
motor)
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Pons
• YII – n.facialis (sensory and motor)
• YI – n.olfactoris (sensory and motor)
• Y – n.trigeminus (sensory and motor)
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Mesencephalon
• III – n.oculomotoris• IY – n. trochlearis
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Cranial nerves
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Sensory and motor nuclei
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Vital and other centers in medulla and pons
• Inspiratory, expiratory, pneumotaxic centres - (vital centers of the respiratory system and centers of the coughing and sneezing)
• Hemodynamic center – vital center of the cardiovascular system (pressor and depressor)
• Centers of the chewing, sucking, swallowing, vomiting – the digestive system
• Vestibular n. (Deiter’s n. in pons)• Reticular n.• Olivar n.• Fasciculus gracilus and fasciclus cuneatus (Goll’s and
Burdach’s tracts)
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Functions of hind brain
• Sensory (from receptors along aff.cranial nerves)• Vegetative (autonomous regulation of the vital
centers)• Motor function: a)participation in the regulation of
the static and stato-kinetic reflexes together with midbrain; b) reticular (regulation of the spinal centers tone) and vestibular (regulation of the tonic reflexes of the position of the body) nuclei
• Conductive function (Goll’s and Burdach’s tracts etc.)
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Nuclei in the Midbrain• N. lamina (tecti) quadrigemina: superior
(anterior)quadrigeminal bodies– primary optic centers; inferior – acustic center
• S.nigra – regulation of tone, delicate movements of fingers requiring great accuracy, coordination of the complex acts of deglutition and mastication
• N.ruber – regulation of muscular tone
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Motor functions of the brain stem
• the static reflexes : regulation of the posture and equilibrium
• statokynetic reflexes: regulation of the pose and equilibrium during movement
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Static reflexes
• Support of the body against gravity are provided by reticular and vestibular nuclei.
• Reticular nuclei include: the pontine reticular n. and medullary reticular n. (reciprocal relations)
• Descending Reticular spinal tract (medial and lateral) - regulation of the tone of the axial muscles (vertebral column and the extensor muscles of the limbs), which support the body against gravity
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Vestibular n.
• Afferent information - from vestibular apparatus
• vestibular nuclei (Deiter’s n. activates the tone of extensor muscles)
• Efferent signals maintain equilibrium by means descending vestibular-spinalis tract
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Decerabrate rigidity
• Exclusion influence of the red n. on hind brain (Deiter’s n. ) causes to increasing of extensor muscles tone
•
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Static reflexes
- of position – regulation of pose (redistribution of muscle tone) in response on:impulsation from neck proprioceptors – neck
tonic reflexes from vestibular apparatus –
labyrinth tonic reflexes- of righting – recover of pose after its change
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Stato-kinetic reflexes
• Arise during change of a movement velocity
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labyrinth reflexes
•Lift reflexes
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Nystagmus of the eye(during stato-kynetic reflexes)
• During rotation the eyes turns slowly as far as possible to the side opposite to the direction of rotation, then is reversed by a quick motion to a normal position in relation to the trunk
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Postural reflexes
• Maintain equilibrium and posture in response on sudden changes in the orientation of an animal in space
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Orientation reflexes
• turning of the head and body towards a new or strong or sudden sound or light stimulation
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Reticular formation
• Diffuse aggregations of cells of various types and sizes, which are thickly interlaced by numerous fibers passing in different directions
• Function: regulation the excitability and tone of all divisions of the CNS (activation influence on the cerebral cortex - Megoun, Morutzi; activation and inhibition of the spinal centers (Sechenov)
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Ascending activating influence of the reticular formation
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Thalamus
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Functions
• Collect all sensory information: specific, non-specific, associative, relay nuclei
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Controlling stereotyped movements
• Flexion, extension, rotation, turning movements of the entire body by nuclei of mesencephalic and lower diencephalic region
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Connections of the thalamus
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Specific n.
• Connect with specific sensory areas of neocortex.
• It provides a fast analysis of sensory information and fast reaction on it
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Nonspecific n.
• Connect with associative areas of neocortex.
• It provides slow but detailed analysis of the information
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Associative n.
• Provide interaction of the thalamic neurons• It is reputed that analysis of the sensory
information on thalamic level causes formation unconscious sensations
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The Cerebellum
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Nucleus emboliformisNucleus dentatusNucleus globosusNucleus fastigii
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3 layers of cortex
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Functions of Cerebellum
9 Posture - paleocerebellum (aff.pathways from vestibular analizer)
9Control of rapid muscular activities, such as running, typing, sequence the motor activities, monitors and makes corrective adjustments in the motor activities elicited by other parts of the brain -acheocerebellum (from spinal cord)
9 Fast movements in accordance with “command” from brain cortex and basal ganglia (from neocortex)
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Inretaction of cerebellum with cortex
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Symptoms9Disequilibria – lack of balance9Asthenia – quick tiredness9Ataxia – disturbance of walking9Atonia – lack of muscular tonus9Adiadohokines – inability to perform some
simultaneous movement9Dismetria – wrong of measurement
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Hypothalamus
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Basal ganglia
• caudate nucleus• Putamen• Globus pallidus• But• Functiomally subthalamic nuclei and s.nigra
belong on basal ganglia
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Functions
• Aff.from sensory and associative areas of cortex,s.nigra - striatum-pallidum, s.nigra –thalamus – motor zone, nuclei of brain stem/
• Through pyramidal tract (cortico-spinalis) the basal ganglia tonic influence on alfa-motoneurons of flexor muscles
• Through the reticular formation - influence on tone flexor and extensor muscles
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Functions
• Together with s.nigra – inhibition of the spinal motor reflexes (alfa- and gama-motoneurons
• Disturbance a connection between s.nigra and basal ganglia (lack of DOFA) –Parkinson’s des.
• Together with cerebellum – memorization of motor program
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Clinical syndromes resulting from damage to the basal ganglia
Caudate nucleus and putamen9Hyperkinesia9Hypotonus
Globus pallidus
9Hypokinesia9Hypertonus
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Motor zone of neocortex
• Associative zones– plan of the future movement
• Precentral gyrus – program of the future movement
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The primary somatic area is located in the postcentral gyrus.
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Both (somatic and motor) areas have the detail topography (homunculus), a hand and a face take the most place on surface of these areas.
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Different parts of body are representedin different groups of neurons