511-2017-10-18-action-I

2017-10-18 15:56:14

Today's Topics

Quiz 2 available now; due by start of class on Wed, 10/25
Wrap up on vision
The neuroscience of action

LGN

6 layers + intralaminar zone
- Parvocellular (small cells): chromatic
- Magnocellular (big cells): achromatic
- Koniocellular (chromatic - short wavelength?)
Retinotopic map of opposite visual field

From LGN to V1

Via optic radiations
Primary visual cortex (V1) in occipital lobe
Create "stria of Gennari" (visible stripe in layer 4)
Calcarine fissure (medial occiptal lobe) divides lower/upper visual field

Human V1

http://www.scholarpedia.org/w/images/3/3a/03-Human-V1.png

Measuring retinotopy in V1

(Dougherty et al. 2003)

Retinotopy in V1

Fovea overrepresented
- Analogous to somatosensation
- High acuity in fovea vs. lower outside it
Upper visual field/lower (ventral) V1 and vice versa

V1 has laminar, columnar organization

6 laminae (layers)
- Input: Layer 4 (remember stria of Gennari?)
- Output: Layers 2-3 (to cortex), 5 (to brainstem), 6 (to LGN)

V1 has laminar, columnar organization

Columns
- Orientation/angle
- Spatial frequency

The "accidental" discovery of oriented receptive fields in V1

Orientation/angle tuning

https://foundationsofvision.stanford.edu/wp-content/uploads/2012/02/dir.selective.png

From center-surround receptive fields to line detection

Spatial frequency tuning

Low == gist || high == details

(Panichello, Cheung, and Bar 2013)

V1 has laminar, columnar organization

Columns
- Color/wavelength
- Eye of origin, ocular dominance

Ocular dominance columns

Ocular dominance signals retinal disparity

http://www.scholarpedia.org/w/images/9/99/11-Hubel-Wiesel-model.png

Beyond V1

Larger, more complex receptive fields
Dorsal stream (where/how)
- Toward parietal lobe
Ventral stream (what)

What is vision for?

What is it? (form perception)
Where is it? (space perception)
How do I get from here to there (action control)
What time (or time of year) is it?

The Real Reason for Brains

The neuroscience of action

What types of actions are there?
How are they produced?
- By the muscles
- By the nervous system

Remember

Nervous system "output" includes
- Movements
- Autonomic responses
- Endocrine responses

Types of actions

http://www.kidport.com/reflib/science/humanbody/muscularsystem/images/Reflexes.jpg

Types of actions

Reflexes
- Simple, highly stereotyped, unlearned, rapid
vs. Planned or voluntary actions
- Complex, flexible, acquired, slower
Discrete (reaching) vs. rhythmic (walking)
Ballistic (no feedback) vs. controlled (feedback)

Multiple, parallel controllers

Key "nodes" in network

Primary motor cortex (M1)
Non-primary motor cortex
Basal ganglia
Brain stem
Cerebellum
Spinal cord

Muscle classes

Axial
- Trunk, neck, hips
Proximal
- Shoulder/elbow, pelvis/knee
Distal
- Hands/fingers, feet/toes

Muscles

http://mypages.valdosta.edu/dodrobin/2651/Muscles/Muscles.jpg

Muscle types

Smooth
- Arteries, hair follicles, uterus, intestines
- Regulated by ANS (involuntary)
Striated (striped)
- Skeletal
- Voluntary control, mostly connected to tendons and bones
Cardiac

Muscle types

http://graphics8.nytimes.com/images/2007/08/01/health/adam/19917.jpg

How skeletal muscles contract

Motoneuron (ventral horn of spinal cord)
Neuromuscular junction
- Releases ACh

From spinal cord to muscle

How skeletal muscles contract

Motor endplate
- Nicotinic ACh receptor
Excitatory endplate potential
- Muscle fibers depolarize
- Depolarization spreads along fibers like an action potential
- Sarcomeres are segments of fibers
- Intramuscular stores release Ca++

Motor endplate

How skeletal muscles contract

Myofibrils (w/in sarcomere)
- Actin & mysosin proteins
- “Molecular gears”
Bind, move, unbind in presence of Ca++, ATP

Anatomy of muscle fibers

Anatomy of motor endplate

Muscle contraction

Agonist/antagonist muscle pairs

http://2.bp.blogspot.com/-TpOC4my_NBc/T0J-MhEv29I/AAAAAAAAF88/dYLv7QzFwmg/s1600/Hamstring-Quad4.jpg

Meat preference?

Muscle fiber types

Fast twitch/fatiguing
- Type II
- White meat
Slow twitch/fatiguing
- Type I
- Red meat

Muscles are sensory organs, too!

Two muscle fiber types

Intrafusal fibers
- Sense length/tension
- Contain muscle spindles linked to Ia afferents
- ennervated by gamma (\(\gamma\)) motor neurons
Extrafusal fibers
- Generate force
- ennervated by alpha (\(\alpha\)) motor neurons

Next time…

More on action

References

Dougherty, R. F., V. M. Koch, A. A. Brewer, B. Fischer, J. Modersitzki, and B. A. Wandell. 2003. “Visual Field Representations and Locations of Visual Areas V1/2/3 in Human Visual Cortex.” Journal of Vision 3 (10): 1–1. doi:10.1167/3.10.1.

Panichello, Matthew F., Olivia S. Cheung, and Moshe Bar. 2013. “Predictive Feedback and Conscious Visual Experience.” Perception Science 3: 620. doi:10.3389/fpsyg.2012.00620.