University of Northern Philippines Spinal Nerves PDF

Summary

This document provides details of the different components of spinal nerves, including types of ganglia, nerves and their anatomy.

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UNIVERSITY OF NORTHERN PHILIPPINES NEUROSCIENCE 1A LC16
Spinal Nerves
COLLEGE OF MEDICINE, BATCH 2026
Transcribers and Editors:
Dr. Allan Viado | Dec. 2022
Samillano, Sanga, Santos, Segovia, Servito, Somera

SPINAL NERVES

I. INTRODUCTION
A. Ganglia
B. Nerves
C. Neuroregeneration
D. Gross Anatomy of Spinal Nerves
i. Spinal Nerve Segments and Herniations
II. RAMIS AND CERVIAL PLEXUS
III. BRACHIAL PLEXUS AND ITS TERMINAL BRANCHES
IV. LUMBAR PLEXUS
V. SACRAL PLEXUS
VI. DERMATOMES VS. MYOTOMES Figure 2. Schematic representation of dorsal root ganglia.

I. INTRODUCTION

Figure 3. The Trigeminal Ganglia of Figure 4. Spinal Ganglion Stained With
the CN V. H&E.

2. Autonomic ganglia (cell bodies of postganglionicautonomic nerves)
- Multipolar neurons enveloped by satellite cells (Capsular Cells)
- Some are Intramural (within certain organs)
- Sympathetic/parasympathetic ganglia
- Example: Paravertebral ganglion
Part of sympathetic tract, found on the thoracic and upper
lumbar segments of the spinal cord
The spinal nerve will have a Rami Communicantes
(communicating fibers that runs through autonomic
ganglia

Figure 1. Overview of the CNS and PNS.
PERIPHERAL NERVOUS SYSTEM
- Part of the Nervous system that consists of nerves (Cranial andSpinal) and
their ganglia outside of the Brain and Spinal Cord
- Main components:
Ganglia
Nerves (Cranial/Spinal/Peripheral)
Nerve endings

A. GANGLIA
- Ovoid structure containing neuronal cell bodies (with theirdendrites),
glial cells, supported by connective tissues.
- Relay stations to transmit impulses (sensory andautonomic)
- GANGLIA vs NUCLEI
Ganglia – nerve cell bodies in the PNS, supported byconnective tissues
Nuclei – nerve cell bodies in the CNS, NOT supportedby connective
tissues
Figure 5. The Paravertebral Ganglion (Autonomic Ganglion).
▪ Types of Ganglia
1. Sensory Ganglia (cell bodies of sensory neurons)
- Unipolar/pseudounipolar cell bodies enveloped bycuboidal cells
- Examples:
Spinal Ganglia: Dorsal Root Ganglia is made up of
pseudounipolar sensory neurons
Cranial Nerve Sensory Ganglia - e.g., Trigeminal
ganglia/Semilunar Ganglion: supports the 3 divisions of
Trigeminal nerve
Figure 6. Cells of autonomic (sympathetic) ganglion.
[NEUROSCIENCE1A]-01.16-Spinal Nerves– Dr. Allan Viado

B. NERVES MYELINATED NEURONS UNMYELINATED NEURONS
Myelinated neurons fibers contain the Unmyelinated neurons fibers do not
▪ CRANIAL NERVES myelin sheath. have the myelin sheath.
- 12 pairs The Schwann cells wrap tightly around The Schwann cells are not wrap tightly
- purely sensory the nerve axon and form the myelin around the nerve axon and simply form
- purely motor sheath. a groove.
- Mixed motor and sensory (Sensorimotor) The axis cylinder of the myelinated The axis cylinder of the myelinated
nerve fibers has two sheats. nerve fibers has one sheats.
▪ SPINAL/ PERIPHERAL NERVES The speed of transfer of nerve The speed of transfer of nerve impulses
- Bundles of nerve fibers (axons) outside the CNS (once the axonsemerge impulses through myelinated nerve through unmyelinated nerve fibers is
outside the CNS, they bundle to form nerves) fibers is much faster when compared much slower.
- Surrounded by connective tissue (as compared to the axons of the to unmyelinated.
CNS, the tracts, which are not surrounded by connective tissue) Myelinated nerve fibers appear as Unmyelinated nerve fibers appear as
- Carries both sensory and motor fibers (Sensorimotor) white in the fresh state. grey in the fresh state.
Myelinated fibers show nodes and Unmyelinated fibers do not show nodes
internodes. and internodes.
Myelinated fibers possess nodes of Unmyelinated fibers do not possess
Ranvier. nodes of Ranvier
Myelinated nerve fibers occur in the Unmyelinated nerve fibers occur in the
white matter of the brain, spinal cord autonomic nervous system.
and in the central and cranial nervous
system.
Myelinated nerve fibers may give off Collateral nerve fibers are not produced
collateral nerve fibers. in unmyelinated nerves.
Figure 7. Scanning electron micrograph of a cross- section of a peripheral nerve Figure 10. Differences between Myelinated and UnmyelinatedNeurons.
showing individual axons surrounded by myelin sheaths.
Sensitivity
Diameter Mystification Conduction
Fiber Type Function to nerve
▪ NERVE FIBERS (microns) (Myelination) velocity
block
- Axons enveloped by sheaths of connective tissue Type A
- Grouped together constitute the nerve Proprioception,
Alpha(α) 12-20 heavy 70-120 +
- Types: (1) Myelinated and (2) Unmyelinated motor
Touch,
Beta(β) 5-12 Heavy 30-70 ++
pressure
MYELINATED FIBERS UNMYELINATED FIBERS Muscle
A single Schwann cell wrap A single Schwann cellenvelopes Gamma(γ) 3-6 Heavy 15-30 ++
spindles
around a single axon (in the several axons Pain,
Delta(δ) 2-5 Heavy 12-30 +++
PNS) (Oligodendrocytes, Several Fibers are enveloped temperature
Analogue of Schwann cells inCNS within singleclefts of Schwann Preganglionic
Type B