Download Touch and Pain

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts
no text concepts found
Transcript
Touch Receptors and Axons
Lecture 13
PSY391S
John Yeomans
Receptors in Skin
Hairy and glabrous skin are different.
Sensitivity and Acuity
• SS receptors much less sensitive than
acoustic or visual receptors.
• More receptors in glabrous skin of
fingertips, lips and genitals.
• Fewer receptors in back, proximal limbs.
• Better 2-point discrimination when more
receptors, esp. with small receptive fields.
Adaptation in Single Neurons
Pacinian Corpuscles
• Easiest receptor to study due to size and
isolation.
• Sensitivity high despite deep location
when vibratory stimuli used.
• Fire at onset and removal of 1 s stimulus-Fast adapting.
• Adaptation due to capsule absorbing
energy--No adaptation when naked axons
are directly stimulated.
Receptive Field
Receptive field is part of the environment to which a neuron responds.
Single Neurons in Human Hand
• Microelectrodes in nerves isolate single
neuron action potentials from large axons.
• 4 types of neurons, consistent with 4
receptor types in other animals.
• After studying receptive fields and
adaptation, then microstimulate single
axons to evoke perceptions!
• Perceptive fields match receptive fields.
Valbo and Johansson
Receptive Fields and Adaptation
Glabrous skin of palm and fingertips.
Recordings of single axons from median or ulnar nerves.
Valbo and Johansson
4 Different Feelings from
Stimulation of Single Axons
• Pacinian: No feeling unless >10 action
potentials, then “deep vibration”.
• Meissner’s: 1 AP leads to “tap”. >10 leads
to odd “buzzing” or “fluttering” feeling.
• Merkel’s: 4 APs cause “light touch” like
leaf. 10 APs cause stronger touch.
• Ruffini: No feeling until at least 2 axons,
then “tugging” sensation.
• Labelled lines for touch sensations.
Axon Types
to 100
A alpha
Somatosensory Pathways
and Cortex
Lecture 14
PSY391S
John Yeomans
Dorsal Column Pathway
Trigeminal Nucleus V
A, Aβ fibers
Dermatomes
Trigeminal V
Double innervation of
each skin area.
Spinothalamic Pathway
Parietal postcentral gyrus
Trigeminal V
Skin Temperature Sensation
Cool-Menthol R1
CMR1, VR1 C fibers
Vanilloid R1
Vanilloid-like Aδ
Somatosensory Cortex
Cortex Plasticity in Human
Cortical Layers and Columns
Mountcastle
Column Plasticity in Monkey
Cut ulnar nerveLose cortical areas
Lesions of SS Cortex
• Loss of 2-point discrimination.
• Loss of skin temperature discrimination.
• Loss of finest sensitivity and motor control.
Association Areas of
Posterior Parietal Cortex
•
•
•
•
3D Object Recognition
Body Form (Amorphosynthesis)
Hand-Eye Coordination
Movement and Spatial Perception
Pain and Analgesia
Lecture 15
PSY391S
John Yeomans
Pain
•
•
•
•
•
•
Acute pain signals tissue damage.
Chronic Pain Syndromes:
Causalgia
Neuralgia
Phantom Limb Pain
Usually involve peripheral nerve damage
(neuropathy), but are sustained by CNS.
• Hard to treat.
Peripheral Pain Mechanisms
Skin Temperature Sensation
Cool-Menthol R1
Vanilloid R1
Vanilloid-like Aδ
Analgesia Pathways
Opiates
•
•
•
•
•
•
Opium, heroin and morphine.
Enkephalins
Endorphins
Dynorphins
Receptors: mu, delta, kappa.
Analgesia, reward, drug abuse.
Muscles and Reflexes
Lecture 16
PSY391S
John Yeomans
Muscle Types
• Smooth muscles in viscera.
• Striated muscles to skeleton and
connective tissue.
• Cardiac muscle--visceral striated muscle
with rhythmic contractions.
• Fast-twitch and slow-twitch striated
muscles.
Muscles
Sliding Filaments
Muscle Fibers and Inputs
• Extrafusal fibers with alpha motor neurons.
• Intrafusal fibers with gamma motor
neurons.
• Neuromuscular junction.
• Ach release by Ca++.
• Nicotinic receptorsEPPsAPs
• APsCa++Actin and myosin sliding
together.
Neuromuscular Junction
Muscle Receptors
Kinesthetic Receptors
• Movements sensed by receptors in
muscles, joints and tendons.
• Joint receptors respond to angle of joint.
• Pacinian corpuscles respond to vibration.
• Spindles respond to muscle stretch.
• Golgi tendon organs respond to stronger
stretch.
Spindle Stretch Receptors
Spindle and Tendon Activation
Proprioceptive Pathways
• Spinal reflexes--Monosynaptic stretch.
Disynaptic GTO inhibition (clasp-knife).
• Dorsal columns to thalamus and motor
cortex.
• Spinocerebellar path.
Motor Units and Rotation
• Motor unit = 1 axon and all the fibres
innervated.
• Reciprocal inhibition of competing motor
units in ventral horn (flexors vs. extensors).
• Size principle--small motor units first.
• Rotation of motor units, by recurrent
inhibition in ventral horn.
Reflexes
•
•
•
•
Monosynaptic stretch reflex.
Disynaptic tendon reflex (clasp-knife).
Flexion reflex.
Scratching and walking.
Stretch Reflex