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CHAPTER 3. Structure of the Nervous System. Directions in the Nervous System. Anterior/Rostral = Front Posterior/Caudal = Back Dorsal = Top Ventral = Bottom Lateral = Toward the side Medial = Toward the midline Ipsilateral= Same side Contralateral= Opposite side. Fig. 3.1. Coronal.
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CHAPTER 3 Structure of the Nervous System
Directions in the Nervous System • Anterior/Rostral = Front • Posterior/Caudal = Back • Dorsal = Top • Ventral = Bottom • Lateral = Toward the side • Medial = Toward the midline • Ipsilateral= Same side • Contralateral= Opposite side • Fig. 3.1
Coronal • Fig. 3.2 Brain Slices and Planes Coronal *Cross Section or *Frontal Section Transverse section at right angles to the neuraxis.
Sagittal • Fig. 3.2 Brain Slices and Planes Sagittal Section Section parallel to neuraxis and perpendicular to the ground. Midsagittal Plane – special type of sagittal section through the corpus callosum separating the hemispheres.
Horizontal • Fig. 3.2 Brain Slices and Planes Horizontal Section Section made through the brain parallel to the ground.
Meninges The MENINGES • Meninges • Dura Mater – tough, flexible outermost layer. • Arachnoid Membrane – middle layer of the meninges. • Subarachnoid Space – space between arachnoid membrane and pia mater filled with CSF. • Pia Mater – last layer of the meninges, which adheres to the surface of the brain.
Figure 3.6 • Obstructive hydrocephalus Figure 3.4 The Ventricular System • CSF surround the brain (protection) • Four ventricles (lateral-2, third and fourth connected by cerebral aqueduct) • Choroid plexus- produces CSF (125 ml/day) • Arachnoid granulations: absorb CSF
Development of the CNS • Begins around 18th day after conception • A patch of tissue on the dorsal surface of the embryo becomes the neural plate
Development of the CNS Neural plate folds to form the neural groove Figure 3.7
Development of the CNS • The neural groove then fuses to form the neural tube… • Walls of the neural tube become the CNS • Neural crest becomes the PNS Figure 3.7
Figure 3.8 Brain Development • Early and later development of the human nervous system
Cellular Development • Totipotent – earliest cells have the ability to become any type of body cell • Stem cells • Multipotent – with development, neural plate cells are limited to becoming one of the range of mature nervous system cells • Progenitor cells
Migration of Neurons • Once cells have been created through cell division in the ventricular zone of the neural tube, they migrate • Migrating cells are immature, lacking axons and dendrites • Inside-out migration • Progenitor cells have limited capacity to replicate • First Step: Symmetrical Division • Progenitor -> progenitor • Increases the size of the ventricular zone Figure 3.10
Second: Asymmetrical Division • development where a progenitor cell divides into one progenitor cell and one brain cell • Asymmetrical division (7 weeks after conception) • First produces radial glia • Cell bodies of RG in the VZ and processes extend to the pia • Guide the migration of new neurons (neurogenesis) • Ends after 3 months
Cellular Development and Migration • Cajal-Retzius cells • Develop after radial glia • Migrate to just inside the pia (Layer 1) • Orderly migration: • Build on each successive layer • All end up below C-R
Anatomy Basics Major Division Ventricle Subdivision Principle Structures Cerebral cortex Telencephalon Lateral Basal ganglia Limbic System Forebrain Thalamus Diencephalon Third Hypothalamus Cerebral aqueduct Tectum Tegmentum Mesencephalon Midbrain Cerebellum Metencephalon Fourth Hindbrain Pons Myelencephalon Medulla oblongata
The Forebrain • Largest section of the brain, comprised of the: • Telencephalon • Cerebral hemispheres • Cerebral Cortex • Limbic System • Basal Ganglia • Diencephalon • Thalamus • Hypothalamus Figure 3.8
The Forebrain • Telencephalon – contains most of the cerebrum. • Cerebral Cortex – thin, wrinkled layer of tissue covering the brain consisting of sulci (groove), fissures (big groove), and gyri (convolution). • Frontal Lobe • Parietal Lobe • Temporal Lobe • Occipital Lobe Figure 3.8 Figure 3.16
The Forebrain Figure 3.16 • Telencephalon • Primary cortices • Visual cortex • Auditory cortex • Somatosensory cortex • Motor cortex • Association cortices • Associated with all primary cortices Figure 3.15 Figure 3.16
Limbic System • Limbic System – set of structures involved in learning, memory, and emotion. Major structures of the limbic system include: • Limbic Cortex (cingulate!) • Hippocampus • Amygdala • Fornix • Mammillary Bodies (part of the hypothalamus) Figure 3.19
Figure 3.20 Basal Ganglia • Basal Ganglia – set of structures involved in processing information for motor movement. Major structures of the basal ganglia motor system include: • Caudate Nucleus • Putamen • Globus Pallidus
Forebrain: The Diencephalon • Thalamus and hypothalamus • Thalamus: • Dorsal diencephalon • Two lobes connected by the massaintermedia • Many nuclei • LGN • MGN • Cerebellum->VLN-> motor Figure 3.8
Forebrain: The Diencephalon • Hypothalamus • Below thalamus • Many nuclei • Many diverse behaviours • Endocrine- Pituitary Figure 3.21 Hypothalamus regulates the autonomic nervous system, controlling the pituitary gland, and integrating species-typical behaviors.
Hypothalamic Portal System • Endocrine system • Hormones are secreted from the hypothalamus through the venous portal system to anterior pituitary • These stimulate hormone release from AP • Can control other glands or the hormones are the messengers • AP- ‘master gland’ • Gonadotropin-releasing hormone causes the anterior pituitary gland to secrete gonadotropic hormones, which play a role in reproductive physiology and behavior • Hypothalamus also releases hormones in the posterior pituitary • oxytocin - stimulates milk ejection and uterine contractions during childbirth • Vasopressin - regulates urine output by the kidneys
The Midbrain • Also known as the mesencephalon and is comprised of the tectum and tegmentum. • Tectum (roof) – contains the superior (vision) and inferior (auditory) colliculi (singular is colliculus). • Tegmentum (floor) – contains the periaqueductal gray matter, reticular formation, red nucleus, and substantianigra all of which share a role in motor movement. Figure 3.8 Figure 3.23c and d
The Hindbrain • The Hindbrain • Contains both the metencephalon and the myelencephalon. Figure 3.8
The Hindbrain • Metencephalon – a structure comprised of the cerebellum and the pons. • Cerebellum – appears as a mini brain and is involved in motor coordination. • Pons – contains part of the reticular formation and is involved in sleep and arousal. Figure 3.23
The Hindbrain • Myelencephalon – contains the medulla oblongata containing portions of the reticular formation • Is involved in basic life functions, such as respiration and regulation of the cardiovascular system. Figure 3.23
The Central Nervous System • The Spinal Cord • Function: distribute motor fibers to the effector organs of the body (glands and muscles) and to collect somatosensory information to be passed on to the brain • Protected by the vertebral column • Composed of 24 individual vertebrae
Primary Components of the Spinal Cord • Spinal Roots – a bundle of axons surrounded by connective tissue that occur in pairs, which fuse and form a spinal nerve • Dorsal Roots – the spinal roots that contain incoming (afferent) sensory fibers • Ventral Roots - the spinal roots that contain outgoing (efferent) motor fibers
The Peripheral Nervous System • Somatic Nervous System • Portion of the PNS comprised of the spinal nerves and cranial nerves involved in transmitting sensory information and controlling voluntary movement. • Spinal Nerves • Peripheral nerves attached to the spinal cord. • Cranial Nerves • Set of 12 motor and/or sensory nerves attached to the ventral surface of the brain. • The Autonomic Nervous System • Portion of the PNS concerned with the regulation of smooth muscle, cardiac muscle, and glands
The Autonomic Nervous System • Sympathetic Division of the ANS • Nervous system components involved in arousal and preparing the body for the expenditure of energy. • ‘Fight or flight’ • Parasympathetic Division of the ANS • Nervous system components involved in relaxing the body, often competing with those of the sympathetic division. • ‘rest and digest’