MICROSCOPIC STRUCTURE AND DEVELOPMENT OF THE CENTRAL AND PERIPHERAL NERVOUS SYSTEM v Structure of gray matters in the CNS: Iso- and allocortex, cerebellar cortex, spinal cord v Meninges v Ganglia and peripheral nerves v Overwiev of development of the brain and spinal cord including histogenesis of the neural tube Lecture 9 General Medicine_3rd semester two divisions of the nervous system are distinguished: - the central nervous system (CNS) - includes the spinal cord and brain - the peripheral nervous system (PNS) - involves peripheral nerves and ganglia = small aggregations of neurons associated with cerebrospinal or autonomic nerves Histologically, the nervous system consists of three structurally different components: Ø the nerve tissue Ø blood vessels: capillaries, arterioles and venues that densely penetrate the nerve tissue, Ø the connective tissue that serves to protection; it may be differentiated into: - meninges - forming envelopes of the CNS - epi-, peri- and endoneurium - connective tissue occurring within nerves or on their surfaces - capsules surrounding the ganglia Basic structural characteristics of the nerve tissue it is composed of the nerve cells or neurons and special supporting cells called neuroglia neurons - cells in which two properties of protoplasm are developed to a great degree: irritability (the capacity for response to physical and chemical agents with the initiation of an impulse), conductivity (the ability to transmit impulses from one locality to another) Ø the cell body or perikaryon Ø dendrites (their number varies in a great range, theoretically from one to several hundreds; they are usually short and conduct impulses to the perikaryon) Ø the axon (neurite) - it is mostly very long and always single, it conducts the impulses away from the respective cell. Ø twig-like branchings or arborizations (telodendria) that touch the perikarya, dendrites or axons of one or more neurons synapses neuroncasti kopie neuron Synapses nunidirectional transmission of signals n nsynapses n chemical n electric n nChemical synapse Øpresynaptic terminal (knob) Øsynaptic cleft Øpostsynaptic terminal (membrane) Nervová tkáň - 20 Synapse neuroglial cells are classified - central glia: astrocytes, oligodendrocytes, microglia and ependyma - peripheral glia: cells of Schwann, satellite cells Astrocytes - are the largest of neuroglial cells, are the protoplasmic and the fibrous ones, both cell types send off numerous processes that extend to blood vessels and to neurons where they expand (end feet) hematoencephalic barrier the protoplasmic astrocytes prevail in gray matter while the fibrous ones in white matter F09_24 Oligodendrocytes - are found in particular in white matter where are arranged in rows between the myelinated fibres oligodendrocytes produce the myelin of myelinated axons in white matter Microglia - are the smallest of all glial cells they have smaller and elongated cell bodies that are continuous with one or two thick processes that branch freely in gray matter is of mesenchymal origin and is phagocytic F09_15 Ependyma - forms a lining of ventricles and the spinal canal it consists of cubical or columnar cells the eponym is closely associated with pia mater that is extremely vascular and forms so-called choroids plexus Schwann's cells - accompany myelinated fibres in peripheral nerves Satellite cells - are found in spinal or autonomic ganglia where surround cell bodies of neurons in a single layer Nervová tkáň - 33 Ependym Nervová tkáň - 15 Nerv THE CENTRAL NERVOUS SYSTEM CNS involves the spinal cord and brain brain: brain stem (myelencephalon, metencephalon, mesence- phalon, diencephalon) cerebellum telencephalon are consisted of two matters differing in the appearance and structure the gray and the white matter 004 the gray matter contains cell bodies, nonmyelinated fibres, associated neuroglial cells (astrocytes, microglia) and very dense capillary network the white matter is composed of only myelinated axons of nerve cells plus oligoden-drocytes and blood capillaries (lesser than in gray matter) Distribution of the gray and white matter spinal cord - the gray matter occurs in the core of the organ, resembling the general form of an H on cross sections (the white matter is peripherally) cerebrum and cerebellum - the gray matter is superficially forming an outer cover designated as the cortex, the white one occupies the inner core islands of the gray matter scattered the white matter in the centre are nuclei gray_whitematter Description of gray matters in the CNS 4 locations: as the gray matter of the spinal cord, as the cerebellar cortex, as the cerebral cortex (telencephalon), and as the cerebellar and cerebral nuclei SPINAL CORD the gray matter is placed centrally and resembles the H-shaped area on each side, the limbs of the capital H are termed the anterior and posterior horns in addition, extending throughout the thoracic segments and first lumbar ones, there are lateral horns of gray matter central canal, lined by ependyma, is situated in the horizontal bar of the H CNS_schema kopie nthe gray matter n n nthe white matter n 3 fasciculi (anterior, lateral and posterior) mícha Nervový systém - 18 Mícha nNerve cells of the gray matter are multipolar and of 3 types: nmotor neurons - in the anterior (ventral) horns; stellate shape, 150 um in diameter and send off long and myelinated axons ending on muscle fibres of striated voluntary muscles nfunicular cells (cellulae funiculares) - mainly in the posterior horns; the axons of the funicular cells enter the white matter and run to the brain stem where end ninterneurons (intercalated neurons) - small neurons diffusely distributed among motor and funicular cells prrohymichy kopie medullaspin Nervový systém - 19 Mícha - přední roh motoneurony centrmisnikan nwhite matter = myelininated fibres running longitudinally and transverse + glial cells central spinal canal CEREBELLUM n vermis and 2 hemispheres n surface area is cca 0,10 - 0,15 m2 n ngray matter occurs in 2 locations: n na thin cortex at the surface of cerebellar hemispheres n and within the centrally placed white matter where forms several small collections of nerve cells called nthe cerebellar nuclei n nwhite matter: fills spaces between cortex and nuclei n n on sections, it forms „arbor vitae“ Nervový systém - 8 Mozeček - barvení myelinu Nervový systém - 6 Mozeček Nervový systém - 7 Mozeček - Nisslovo barvení in sections, the cerebellar cortex shows 3-layered structure: Ø an outer molecular layer (stratum moleculare) Ø Purkinje cell layer (stratum gangliosum) Ø granule cell layer (stratum granulosum) Nervový systém - 11 Mozeček - stratum moleculare Nervový systém - 10 Mozeček Nervový systém - 13 Mozeček - stratum granulosum cortexcerebelli efferent fibers - axons of Purkinje cells afferent fibers of 2 types: Ø mossy fibres (they form synapses on cells of granule cell layer) Ø climbing fibers (take part in synapses on dendrites of Purkinje cells) Nervový systém - 12 Purkyňova b OH_img7-5 TELENCEPHALON n gray matter: Øcortex telencephali (on the surface) Ønuclei n nthicknes of the cortex 1,5 - 5 mm, area 0,20 – 0,25 m2 n nwhite matter: between cortex and nuclei n n nCortex telencephali/cerebri) n Øisocortex - asi 11/12 Øallocortex n nIsokortex n(neocortex) n 8–9 milliard cells n nNeurons: n- pyramidal cells n- fusiform cells n- stellate (granule) cells n- special neurons: horizontal cells (cells of Cajal) and vertical cells (cells of Martinotti) 001 The layers of the isocortex - the molecular layer - contains horizontal cells of Cajal - the outer granular layer - contains small stellate cells - the outer pyramidal layer - contains small and medium- sized pyramidal cells - the inner granular layer - contains cells similar to the outer granular layer - the ganglionic layer - contains large pyramidal cells + cells of Martinotti (send axon to the surface) - the fusiform (polymorphic) cell layer - contains spindle cells. Nervový systém - 5 Velké pyramidové bb Nervový systém - 1 Mozková kůra - schéma cortextelenceph neurons are organized by a laminated manner in 6 layers Nervový systém - 4 Mozková kůra Nervový systém - 5 Velké pyramidové bb nThe axons of cells in the outer pyramidal layer, ganglionic layer and npolymorphic (fusiform) layer leave the cortex, enter the white matter and nconnect different regions of the cortex nin the same hemisphere - association fibres or connect areas of the cortex nof one hemisphere with corresponding areas of opposite hemisphere n- commissural fibres nor connect the cortex with lower nervous centres - projection fibres n n nMaps of the izocortex nAlthough 6-layered organization is found in the whole isocortex, the thickness of individual layers and their relative proportions as well as density (total number) of neurons, glial cells, fibers and blood vessels in them show more or lesser conspicuous differences among cerebral lobes and gyruses nthe differences have been extensively studied in 30 and 40 years of last century on serial sections of cerebral hemispheres and resulted in construction of special maps of the isocortex nMaps are termed according to information involved in them as follows: ncytoarchitectural maps - describe the density of perikarya, nmyeloarchitectural maps - show the density of myelinated fibers, nglioarchitectural maps - concern the type and density of glial cells, nangioarchitectural maps - describe the density of blood capillaries or vascu-larization, nsynaptoarchitectural maps - show the density synapses in the isocortex n nAllocortex n shows more simple structure than the isocortex, it approximately corresponds to primitive part of telencephalon known as the rhinencephalon n MENINGES The CNS is protected from the external trauma by bony encasements (skull and vertebral column) and by three membranous investments. Ø the outermost, robust dura mater Ø the middle, spider web-like arachnoid and Ø the innermost, delicate, vascular pia mater Dura mater includes: a) the cranial dura, b) the spinal dura The cranial dura consists of two layers: - an outer endosteal layer of dense connective tissue, adhering to the inner surface of the bones of the skull - an inner meningeal layer, consisting of a thinner fibrous tissue membrane, which is covered on its inner surface by mesothelial cells. These two layers separate each other at certain locations to form the extensive venous (dural) sinuses. The spinal dura is a continuation of the inner layer of the cranial dura. Arachnoid is a delicate, avascular membrane lying immediately beneath the dura it consists of 2 components: - a thin, connective tissue component being in contact with the dura - a network of delicate trabeculae, which insert to the pia mater they are covered with flat or low cuboidal epithelium the cavity between the arachnoid and pia mater is a subarachnoid space and is filled with cerebrospinal fluid (CSF) Pia mater the innermost layer is highly vascularized, adheres closely to the brain and spinal cord and follows all of their surface irregularities - inner layer of elastic and reticular fibers, which are firmly attached to the under-lying nervous tissue, - superficial layer receiving the trabeculae from the arachnoid iIts external aspect is covered with simple squamous cells of mesodermal origin Cerebrospinal fluid (CSF) - is a filtrate of blood; it is produced in choroid plexus (folds of pia mater and blood vessels covered with the ependymal cells), located in the ventricles of the brain THE PERIPHERAL NERVOUS SYSTEM includes nerves and ganglia of the peripheral nerves NERVES are composed of parallel running nerve fibres and intervening connective tissues are grouped in thin primary nerve bundles with a small amount of loose connective tissue - endoneurium several primary bundles unite to form a secondary nerve bundle surrounded by perineurium in accordance with thickness of the nerve, a few to several tenth of secondary nerve bundles are integrated in the proper nerve enveloped by epineurium that consists of dense connective tissue nerv+gangl Nervový systém - 30 Nerv Nervový systém - 31 Periferní nerv OH_img7-15 GANGLIA ganglia are usually ovoid structures encapsulated similar as nerves by a dense connective tissue two types of ganglia: - dorsal root ganglia (sensory) - are interposed in the course of the dorsal (posterior) roots of the spinal nerves and in some cranial nerves - autonomic ganglia - are associated with nerves of the autonomic nervous system dorsal root ganglia contain the pseudounipolar neurons autonomic ganglia medium-sized multipolar neurons perikarya of neurons are enveloped by a layer of small flat or cuboidal glial cell known as satellite cells nerv+gangl Nervový systém - 60 CNS10 Nervový systém - 25 Ganglion spinale Nervový systém - 23 Ganglion ndorsal root ganglion: autonomic ganglion: Overwiev of development of the brain and spinal cord including histogenesis of the neural tube it develops from a thickened area of the embryonic ectoderm - neural plate it occurs very early on the dorsal aspect of the embryonic disc cranially to the primitive knob reaching to the oropharyngeal membrane over the notochord Nervový systém - 42 on about day 18, the neural plate begins to invaginate along the cranio-caudal axis and forms neural groove limited with neural folds on each side by the end of the third week, the neural folds become to move together and fuse into a neural tube the neural tube separates from the ectoderm and is then located between it and notochord Obr_16 at the time when the neural folds fuse, some neuroectodermal cells separate from them and form along the dorsal aspect of the tube single cord - called the neural crest; it soon divides in the left and right parts that migrate to the dorsolateral aspect of the neural tube neural crest cells give rise to cells of the spinal ganglia and cells of the autonomic ganglia neural folds neural groove spinal ganglion neural tube Nervový systém - 44 from the beginning, the proximal segment of the neural tube is broadened and corresponds to future brain the narrower caudal one develops in the spinal cord Histogenesis of the neural tube the wall of the neural tube is initially composed of a thick, pseudo-stratified columnar epithelium cells then rapidly proliferate in entire thickness of the wall, but later the mitotic activity is reduced only on cells situated near the luminal aspect of the neural tube; as a result of this process, the wall of neural tube differentiates into 2 zones: the inner germinative and the outer marginal ones in the germinative zone the cells continue in their mitotic activity and migrate peripherally. finally, the wall of neural tube shows 3-layered structure: - the ependymal layer = ependyma, - the intermediate or mantle layer= gray matter -cells of mantle layer soon differentiate into primitive neurons - neuroblasts and spongioblasts (glioblasts), - the marginal layer = white matter (contains no cells) histogeneze Nervový systém - 48 DEVELOPMENT OF THE SPINAL CORD it develops from the caudal portion of the neural tube in contrast with lateral walls of the neural tube, where cells rapidly proliferate, the dorsal and ventral aspects remain thin longitudinal groove - sulcus limitans - divides both lateral walls in the dorsal part - alar plate and ventral part - basal plate cells of mantle layer rapidly proliferate and differentiate in the gray matter Remember: The alar plate - gives rise to dorsal horn, the basal plate - to ventral horn Nervový systém - 49 Positional changes of the spinal cord Initially, the spinal cord extends the entire length of the vertebrate canal during further development, the vertebrate canal grows rapidly than spinal cord and its caudal end gradually comes to lie at relatively higher levels in adults, it usually terminates at the inferior border of the first lumbar vertebra DEVELOPMENT OF THE BRAIN the brain develops from the cranial part of the neural tube at the fourth week,three primary brain vesicles occur: - the forebrain - prosencephalon - the midbrain - mesencephalon - the hindbrain - rhombencephalon During the fifth week, the forebrain and hindbrain divides so that 5 secondary vesicles arise: see diagram (it includes information concerning the development of cavities) vyvojmozku Nervový systém - 45 Nervový systém - 46 Obr_16 TELENCEPHALON VENTRICULI LAT.CEREBRI PROSENCEPHALON DIENCEPHALON VENTRICULUS TERTIUS MESENCEPHALON MESENCEPHALON AQUAEDUCTUS CEREBRI METENCEPHALON RHOMBENCEPHALON VENTRICULUS QUARTUS MYELENCEPHALON Bez názvu 8upr kopie recnik