Anat Introduction to the Brain PDF

Summary

This document provides an introduction to the brain, neurons, glia, and the nervous system including its development. The document also covers the structure of the central nervous system (CNS) and peripheral nervous system (PNS).

Full Transcript

Introduction to the brain, neurons and glia, overview of the
nervous system and its development, structure of the CNS

Class Year 2, Semester 1

Lecturer DR. VIJAYALAKSHMI S B
Department of Anatomy
Email id: [email protected]
Date 27-10-2024
1
 Learning Outcomes
Define basic neuroanatomical terms

Describe the features and characteristics of cells of the nervous system and myelin

Differentiate projections, commissures and association fibres

Identify the meningeal layers

List the main components of the nervous system

Describe the process of neural tube formation and early brain development (fore-, mid- and hindbrain)

Describe the parts of the central nervous system

Identify the parts of the ventricular system

Describe the structure of the different components of the peripheral nervous system (cranial and spinal

nerves)

Explain cauda equina syndrome
 Components of Central Nervous
System & correlate with
development
Brain

Hindbrain (Rhombencephalon)
Medulla (Myelencephalon)
Pons = Brainstem *excludes cerebellum
(Metencephalon)
Cerebellum

Midbrain (Mesencephalon)

Forebrain (Prosencephalon)
Diencephalon
Epithalamus
Subthalamus
Thalamus
Retina & Optic nerve
Hypothalamus
Telencephalon
Basal Ganglia (Striatum)
Limbic system
Cerebral hemispheres

Spinal cord
 CNS
Development
 Neurulation

 Process involved in the formation of neural tube
https://www.ibp.ucla.edu/research/phelps/neuru.php

 Neural tube is the primordium of the CNS (brain &
spinal cord)
 Neurulation begins at the end of 3rd week and completes
by end of 4th week
 Notochord induces the overlying ectoderm, located at or
adjacent to the midline, to thicken and form an elongated
neural plate of thickened epithelial cells
 https://www.ibp.ucla.edu/research/phelps/tr
ans.php

https://www.ibp.ucla.edu/research/phelps/s
agit.php

 Neural plate invaginates along its central axis to
form a longitudinal median neural groove, which
has neural folds on each side
 By the end of the third week, the neural folds have begun to move
together and fuse, converting the neural plate into the neural tube
 The neural tube soon separates from the surface ectoderm
 The zipping process begins at about day 22
Tube closes completely at the cranial end 3 or 4 days later and at the tail
(caudal) end 2 to 3 days subsequently (day 27)
Neurulation is then complete - CNS is a closed tube
 Narrow caudal end = spinal cord
 Broader region at head region = brain
 NEURAL TUBE DEFECTS

If the neural tube fails to close in
If closure fails anywhere from the
the cranial region, then most of
cervical region caudally, then the
the brain fails to form, and the
defect is called Spina bifida
defect is called Anencephaly
 Neural tube closure defects
A. Rachischisis/Myeloschisis, B. Spina bifida occulta,
C. Meningocele, D. Myelomeningocele
Divisions of Neural tube
 Protective layers of the
brain
Skin
Connective tissue
Aponeurosis
Loose areolar tissue
Periosteum
Bone
Dura
Arachnoid
Pia
BRAIN
 Meningeal layers
The meninges P.A.D. the Brain…Inside to outside
Pia mater/soft: very outer layer of brain tissue and intimately
connected with the brain. When you are pressing on “brain”, you are
touching pia matter
Subarachnoid space = region where CSF is found.
Arachnoid mater/spidery: arachnoid is the thin, transparent tissue
that covers the brain
Subdural space
Dura mater/hard: Thick, fibrous, connective tissue often more
intimately associated with the skull and forms partitions between
hemispheres
Extradural/Epidural space
 In the skull, epidural space is a “Potential” space
 In the vertebral column, there is “True” epidural space
Lobes of Cerebrum

Insula
 Grey matter and White
matter
Grey matter - neural tissue that is grey in colour and is
comprised of neural cell bodies (i.e., where the
nuclei/ganglia are in the brain) …along with other
connective tissue and immune cells

White matter - neural tissue that is white in colour and is
comprised of myelinated axons (which gives it its white
colour) …along with other connective tissue and immune
cells
Collection of nerve cell bodies in
Central Nervous System
 Gray mater
 Nuclei
 Layers

Collection of nerve cell bodies in
Peripheral Nervous System
 Ganglia
 e.g. Dorsal root
ganglion (DRG)
Collection of nerve cell fibers in
Central Nervous System
 White mater
 Column
 Fascicles
 Peduncles
 Tract
 Radiation

Collection of nerve cell fibers in
Peripheral Nervous System
 Spinal/ Cranial Nerves
 motor
 sensory
 autonomic
 mixed
 White matter of the
Cerebral hemispheres
Classified into three groups according to
their connections:
1. Commissural fibers

2. Association fibers

3. Projection fibers
 White matter of the
Cerebral hemispheres
Commissure fibers
 Connects corresponding regions of the
two hemispheres
 Includes:
a. Corpus callosum
b. Anterior commissure
c. Posterior commissure
d. Fornix
e. Habenular commissure
 White matter of the
Cerebral hemispheres
Association fibers
 Connects various cortical regions within
the same hemisphere
 Includes:
a. Uncinate fasciculus
b. Cingulum
c. Superior longitudinal fasciculus
d. Inferior longitudinal fasciculus
e. Fronto-occipital fasciculus
 White matter of the
Cerebral hemispheres
Projection fibers
 Afferent and efferent nerve fibers passing
to & from the brainstem to the entire
cerebral cortex
 Includes:
a. Internal capsule
b. Corona radiata
c. Cortico spinal tract
d. Sensory tracts
 Cerebral cortex – functional
localization
1. Motor area (4)
2. Sensory area (3, 1, 2)
3. Visual area (17, 18, 19)
4. Speech area (44,45)
5. Auditory area (41,42)
 BASAL GANGLIA (NUCLEI)
 They are collections of grey matter within the cerebral hemisphere
 The components:
 Lentiform nucleus
(Globus pallidus & Putamen)
 Caudate nucleus

 Its main function is the maintenance of motor activity and
muscle tone and coordination of movements and prevents
involuntary movements.
 DIENCEPHALON

Thalamus
Hypothalamus
Thalamus – all the sensory tracts from the body
relay in the thalamus before they terminate in the
sensory cortex of the cerebrum

Hypothalamus-
Control of the body temperature
Control of endocrine function
Control of behaviors & emotion
Control of Autonomic nervous system
Neurosecretions
 Cerebellum

 Situated behind the pons and the medulla
 Coordinates voluntary movements such as posture, balance
resulting in smooth and balanced muscular activity.
 Each cerebellar hemisphere controls the same side of the body
 Brain stem
VENTRAL DORSOLATERAL

Medulla
Midbrain
Pons
Pons
Midbrain
Medulla

Cranial nerve nuclei from 3rd to 12th are in the
brain stem
Ventricular system
Flow of Cerebrospinal fluid
(CSF)
 NAME TYPE DISTRIBUTION
Olfactory N I Sensory Nasal mucosa ( smell/olfaction)

Optic N II Sensory Eye ( vision)

Oculomotor N III Motor Extraocular muscles (eye movement);
Parasympathetic innervation of the eye

Trochlear N IV Motor Extraocular muscles (eye movement)

Trigeminal N V Motor/Sensory Sensory to face; Muscles of mastication (motor)

Abducent N VI Motor Extraocular muscles (eye movement)

Facial N VII Mixed Muscles of facial expression; Taste
Parasympathetic innervation of salivary and lacrimal glands

Vestibulocochlear N VIII Sensory Ear (hearing/balance)
Glossopharyngeal N IX Motor/Sensory Taste;
General sensory and motor innervation of the pharynx
Visceral innervation from carotid body and sinus
Parasympathetic innervation of the salivary gland

Vagus N X Motor/Sensory General sensory and motor innervation of pharynx, larynx and
oesophagus
Visceral innervation from thorax and abdomen, including aortic body
and arch
Parasympathetic innervation of thoracic and abdominal viscera

Accessory N XI Motor Muscles of neck (Movement of head and shoulders)

Hypoglossal N XII Motor Muscles of the tongue (Movement of the tongue)
 Spinal cord

Continuation of the brain stem into the spinal canal
Spinal cord extends from the foramen magnum of the base
of the skull to lower border of the first lumbar vertebra
Clinical correlate

Lumbar Puncture

– What is it?
– Indications?
– How it is done
– Expected result
 SPINAL CORD
SEGMENTS AND
SPINAL NERVES
Cervical (8)
Thoracic (12)
Lumbar (5)
Sacral (5)
Coccygeal (1)
Lower spinal nerves
are grouped to form
the cauda equina
Vertebral level/spinal cord segments
Spinal segments do not match with
the corresponding vertebra

Vertebrae Spinal segment
Cervical +1

Thoracic 1-6 +2

Thoracic 7-9 +3

Thoracic 10 L1 & 2

Thoracic 11 L3 & 4

Thoracic 12 L5

Lumbar 1 Sacral/coccygeal
White matter arrangement of
spinal cord
Corticospinal tract Spinothalamic tract Dorsal column &
Spinocerebellar tract
 CAUDA EQUINA
SYNDROME (CES)
Condition that occurs when the bundle of nerves below the end of the spinal
cord, known as the cauda equina, is damaged.
The term Cauda Equina means ‘horse’s tail’ in Latin and describes the spray of
nerves that come off the bottom of the spinal cord and activate the bladder,
bowel, sexual organs and legs.
When these nerves are compressed or damaged, the impact on the sufferer can
be devastating.
Signs and symptoms of CES include lower back pain, pain that radiates down
the leg, and loss of bowel or bladder control.
Causes CES:
 Back/Spine problems such as a slipped disc
 Tumors near the spine
 Injuries
Warning Signs:
 S – Saddle Anesthesia
 P – Pain
 I – Incontinence
 N - Numbness
 E - Emergency
REFERENCES