MBBS2020 yr 1 somatosensory 2024 for KEATS - Tagged.pdf

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Somatosensory
System
MBBS1 GBE

Isabella Gavazzi (
[email protected])

Wolfson SPaRC – Neuroscience
Education
 the classification of the senses [GBE 8]
Describe
the transduction of somatosensory signals [GBE 8]
Describe
the different types of cutaneous and proprioceptive somatosensoy receptors

Learning Describe and their function [GBE 8]

the four attribute of sensory stimuli, modality, intensity, duration and location
Describe
outcomes
[GBE 8]

the terms receptor sensitivity, receptor specificity, and receptive field [GBE 8]
Define
: Describe the factors that contribute to the high somatic sensory acuity of the hands and
face. [GBE 8]

the submodalities of somatic sensation subserved respectively by the Dorsal
Describe Column-Medial Lemniscus system and by the anterolateral system [GBE 8]

the topographic representation of the body at the level of the somatic sensory
Describe cortex. [GBE 8]

the plasticity of cortical maps [GBE 8]
Explain
In order to control
behaviour, the
brain senses:

The surrounding
environment
The internal milieu of the
body
The Five
Senses hearing vision

through which the
brain senses the
surrounding taste smell
environment

But this is not
all the brain
touch senses
 Somatosensation
is not touch only…

Different sensory modalities
are mediated
by different receptors
Kandel, Schwartz, Jessel. 2000 Principles of
neural sciences. McGraw-Hill
Physiological mechanisms
of sensation

TRANSDUCTION

TRANSMISSION

PERCEPTION

MODULATION

F. M. Ferrante, T. R. VadeBoncouer Churchill Livingstone, 1993
Sensory receptors
are specialized to
transduce a
particular type of
stimulus energy into
electrical signals
(receptor specificity).
Different sensory neurons
have different transduction
molecules, which respond
to different stimuli
 Primary sensory
Anatomy of DRG neurons form two
principal subgroups,
Neurons A large and C small

DRG
Touch is mediated by
4 types of
mechanoreceptors
The receptors differ in
morphology, innervation
patterns, location in the skin,
receptive field size, and
physiological responses to Kandel, Schwartz, Jessel. 2000 Principles of
touch. neural sciences. McGraw-Hill
 A Sensory receptors
in
the joint
Proprioceptors:
to report on
limb position B Joint capsule
receptors transduce
tension in the joint
1. Joint receptors capsule while
perception of angle
achieved via
afferent signals
from muscle
spindles and
efferent motor
 Muscle spindles lie in parallel with
main muscle fibres (sensitive to small
changes in length with range set by
special motor input)
regulate motor control of muscle
length

Proprioceptors contribute to sense of limb position

(continued)
2. Muscle receptors Golgi Tendon Organs
lie
in series with main
muscle fibres and are
sensitive to changes in
muscle tension
 Thermoreceptors respond to warm or cold
stimuli in the non-noxious range
‘hot’ and ‘cold’ are signalled
by different neuronal
populations
most cold-sensitive fibres
in humans are small
myelinated Aδ axons
most warm-sensitive fibres
in humans are small
unmyelinated C axons
Thermoreceptors mainly
detect temperature
changes
 Nociceptors
respond to
damaging or
potentially
damaging
stimuli

Kandel, Schwartz, Jessel. 2000 Principles of
neural sciences. McGraw-Hill
There are 4
main
modalities of
Nociceptors

Nociceptors
Receptors Modality: different receptors Intensity: encoded by
are activated by different type firing frequency (and
respond to of stimuli (‘adequate
stimulus’); the concept of
number of receptors
activated; also different

4 receptor specificity; depends
on the presence of different
receptors have different
thresholds of activation:
transduction molecules receptor sensitivity)
properties
of a
stimulus:
Duration: encoded by Location: related
duration of firing (and to receptive fields
changes in spike trains)
Somatosensory
receptors for different
stimulus modality are
associated with
different types of
axons which show
different conduction
velocities
 Information on
intensity and
duration of stimuli is
conveyed by changes
in the firing rates of
sensory neurons

Kandel, Schwartz, Jessel. 2000 Principles of
neural sciences. McGraw-Hill
 The receptive field of
a sensory neuron is
the spatial domain
where stimulation
excites (or inhibits)
the neuron

Kandel, Schwartz, Jessel. 2000 Principles of
neural sciences. McGraw-Hill
 The two-point perceptual
thresholds of different parts of
the body match the diameters
of the receptive fields of
receptors

Kandel, Schwartz, Jessel. 2000 Principles of
neural sciences. McGraw-Hill
 Map of dermatomes in a typical
adult:
A dermatome is the area of skin
and deeper tissues innervated by a
single dorsal root ganglion

Important to determine the
location of suspected spinal
lesions

Kandel, Schwartz, Jessel. 2000 Principles of
neural sciences. McGraw-Hill
The dorsal
columns/medial
lemniscal system 3rd order
neuron

(red) ascends ipsilaterally
in the spinal cord, and
conveys mechanosensory
information from the
limbs and trunk to the
cortex via to the VPL
thalamus. 2nd order
neuron

1st order
neurons
 The contralateral anterolateral system
3rd order
neuron

(in brown; spinoreticular,
spinomesencephalic and
spinothalamic tracts) crosses
the midline in the spinal cord
and transmits itch,
2nd order
temperature, and visceral
neuron information to the cortex via
the brain stem and thalamus.

1st order
neurons
Somatosensory
Cortex
The somatic sensory cortex has 3
major divisions: the primary (S1) and
secondary (S2) somatosensory
cortices and the posterior parietal
cortex

S1 is subdivided into 4
cytoarchitectonic regions,
Brodmann’s areas 3a, 3b, 1 and 2
 Somatotopic map of the body
surface onto the primary
sensory cortex

NB: The map is discontinuous and
distorted

Bear, Connors and Paradiso. Neuroscience: Exploring the Brain. Williams and Wilkins
 Postcentral Central
gyrus sulcus Postcentral sulcus

Inputs of
individual Skin (RA receptors)
modalities to the Deep tissue (pressure
and joint position)
somatic sensory Skin (SA and RA receptors)

cortex are Deep tissue (muscle stretch
receptors)

organised in To ipsilateral S2
Contralateral S1
columns. posterior parietal cortex
and motor cortex
From thalamus
To basal ganglia, brain stem and
spinal cord

Fourth
digit Third
digit Second
digit
 Size and shape

Texture
Projections to
Brodmann’s areas from
the thalamus
Inputs are processed serially

Texture, size,
shape

Schwartz and Jessel. Principles of Neurosciences. Elsevier
How is sensory
information
integrated to
give rise to
perception?
 Area 3b Area 1 Area 2

Neurons in S1 have
receptive fields of
different sizes

Neurons in Brodmann’s
area 1 and 2 have larger
receptive fields than
neurons in area 3b and
different modalities
converge 3a 3b 1 2

Connections in S1
Kandel, Schwartz and Jessel. Principles of Neurosciences. Elsevier
Can we identify a
specific brain area as
responsible for pain
perception?

A collection of brain regions is
accessed during nociceptive
processing: the so-callled ‘Pain
Matrix’.
However, it is extremely
unlikely that the ‘Pain Matrix’
is indeed nociceptive-specific.
It is likely to be a multimodal
network related to the
detection of salient sensory
input.
Tracey and Mantyh (2007) Neuron 55(3): 377-391
Somatotopic
maps are
plastic
 Use-dependent plasticity:
Assessment of sensory
cortical representation
asymmetries in violin players
Violin player
with somatosensory evoked
potential (SEP) mapping
stimulation of the
median nerve (red)
and ulnar nerve (blue)

Control

Schwenkreis, P, El Tom, Susan, Ragert, P, Pleger, B,
Tegenthoff, M, Dinse, RH (2007) Eur J of Neurosci 26(11):
3291-3302
 Clinical relevance of somatosensory cortex
plasticity

 Map plasticity (maladaptive) may underlie pain following nerve injury (phantom
limb pain, pain following Peripheral Nerve Injury)
 therapies targeting the maladaptive plasticity, i.e. mirror therapy, virtual reality
interventions
 Map plasticity can occur as a consequence of injury e.g. stroke
 intervention can exploit plasticity for functional recovery
 Map plasticity underlies learning, but excessive synchronicity of stimuli can lead
to pathology, e.g. focal hand dystonia in musicians
 therapies target the maladaptive plasticity
 Overview

Information about the environment and the Information is processed serially The brain constructs a neural
body is conveyed to consciousness from along these pathways, with representation of external
mechano- and other sensory receptors by the different modalities initially objects and of our own bodies
dorsal columns tracts and the anterolateral processed in parallel. The by analyzing patterns of activity
system of the spinal cord, relay nuclei in the pathways are topographically across the entire population of
brain stem and thalamus, and a hierarchy of organised (somatotopy), but sensory neurons, progressively
intracortical pathways. somatotopic maps can be integrating information from
altered by training, injury or larger receptive fields and
other pathologies. different modalities.
 Reading
Neuroscience – Exploring the Brain (3rd edition) Bear, Connors
and Paradiso (2007) Chapter 12 The Somatic Sensory System

Neuroscience (5th edition) Purves et al. (2012)
Chapter 9 The Somatic Sensory System: Touch and Proprioception Chapter 10

Principles of Neural Science (5th edition) Kandel, Schwartz, Jessell, Siegelbaum and Hudspeth
Chapter 21 Sensory Coding
Chapter 22 The Somatosensory System: Receptors and Central Pathways
Chapter 23 Touch
Chapter 24 Pain
Thank you for
listening!

For any question contact:
[email protected]