The Brain and Behavior Outline Functions Evolution: structure and behavior Basic Unit: The Neuron Generation: How does a signal get started? Action Potential:

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The Brain and Behavior Outline Functions Evolution: structure and behavior Basic Unit: The Neuron Generation: How does a signal get started? Action Potential: How does a signal move? Synapses: What does the signal do? Reflexes: A model Brain Organizing Principles and Functions

Functions Communication Coordination Control Cognition Complexity

Outline: Start With A Mechanistic View Functions Evolution: structure and behavior Basic Unit: The Neuron Generation: How does a signal get started? Action Potential: How does a signal move? Synapses: What does the signal do? Reflexes: A model Brain Organizing Principles and Functions

Evolution None Nerve net Segmented Cephalization: an organizing principle (brain- mind correlation not always obvious!) Kineses Taxes Reflexes

Evolution

Brain Structure

DRUGS

Evolution None Nerve net Segmented Cephalization: organizing principle + brain-function rel. Kineses Taxes Reflexes

Kinesis (potato bug) Taxis (moth / maggot / fly / tick) Reflex: (knee jerk) –Descartes 161 St. Germaine on the Seine –Pineal –Mechanist

Reflexes Braightenberg: Vehicles

Outline Functions Evolution: structure and behavior Basic Unit: The Neuron Generation: How does a signal get started? Action Potential: How does a signal move? Synapses Reflexes: A model Brain Organizing Principles and Functions

The Neuron 100 billion Varied in size, shape, function Function of neuron sending signals in real time (ex.) What is the signal? - electrical / chemical

Outline Functions Evolution: structure and behavior Basic Unit: The Neuron Generation: How does a signal get started? Action Potential: How does a signal move? Synapses Reflexes: A model Brain Organizing Principles and Functions

Origin of nerve signal Function of neuron sending signals in real time (ex.) What is the signal? - electrical / chemical

Generation Two forces: –Electrical (ionic) –Chemical (concentration) –Give rise to steady-state voltage “resting potential” –Universal in cells

Outline Functions Evolution: structure and behavior Basic Unit: The Neuron Generation: How does a signal get started? Action Potential: How does a signal move? Synapses Reflexes: A model Brain Organizing Principles and Functions

Action Potential

Movement of a Signal

Action Potential Cell actions Speed: Muller (light), Helmholtz (43 m/sec) Refractoriness All or none law Coding of intensity: analog-digital + recruitment (organizing principle)

Neuron Communication Propagation is much faster if the axon is myelinated: Depolarization proceeds down the axon by a number of skips or jumps. The action potential obeys the all-or- none law: Once it’s launched, further increases in stimulus intensity have no effect on its magnitude.

Neuron Communication Propagation is much faster if the axon is myelinated: Depolarization proceeds down the axon by a number of skips or jumps. The action potential obeys the all-or- none law: Once it’s launched, further increases in stimulus intensity have no effect on its magnitude. Frequency signals intensity

Outline Functions Evolution: structure and behavior Basic Unit: The Neuron Generation: How does a signal get started? Action Potential: How does a signal move? Synapses Reflexes: A model Brain Organizing Principles and Functions

Synapses: What happens when signal reaches end of neuron? Two types of actions - excitatory / inhibitory Chemical model with multiple & functionally different neurotransmitters Temporal & spatial summation

Synapses

Release of Neurotransmitter

Synapses

Outline Functions Evolution: structure and behavior Basic Unit: The Neuron Generation: How does a signal get started? Action Potential: How does a signal move? Synapses Reflexes: A model Brain Organizing Principles and Functions

A Model for building behavior out of simple building blocks Reflexes Voting behavior Mirror neurons Other examples to follow

Reflexes: A model

Outline Functions Evolution: structure and behavior Basic Unit: The Neuron Generation: How does a signal get started? Action Potential: How does a signal move? Synapses Reflexes: A model Brain Organizing Principles and Functions

Principles and Functions Cephalization All-or-None Law Frequency Coding of Intensity Doctrine of Specific Nerve Energies Localization of Function (+ Integration) Topographic Projection (& Distortion) Split Brain (Crossed Connections) Connectivity & Functional Connectivity Neuro-plasticity & Reorganization

Brain Structure (midline)

Structure: Central Core

Structure: X-Ray View

Localization of Function Different parts of the brain serve specialized functions Sensory Information Motor Control Perception Language Planning and Social Cognition

Localization of Function

Localization/Topographic Projection

Localization/Topographic Proj.

Cerebral Cortex Most projection areas have contralateral organization: –Left hemisphere receives information from right side of body (sensory), or controls right side of body (motor) –Right hemisphere receives information from left side of body (sensory), or controls left side of body (motor)

Split Brain

Cortical Damage Much of what we know about the cortex comes from studying brain damage. Damage at identifiable sites can produce: Apraxias (disorders in action) Agnosias (disorders in perception) Aphasias (disorders of language) Disorders of planning or social cognition

Apraxias Difficulty in carrying out purposeful movements without the loss of muscle strength or coordination –Disconnection between primary and non- primary motor areas –Able to carry out each part of a complex movement, but disruption lies in coordination of the movements

Agnosias Visual agnosia: disturbance in recognizing visual stimuli despite the ability to see and describe them Prosopagnosia: inability to recognize faces (fusiform face area) – – Neglect Syndrome: complete inattentiveness to stimuli on one side of the body – Akinetopsia: inability to perceive movement –“I see the world in snapshots – like frames of a move but most of the frames are missing”

Aphasias Broca’s Aphasia: disturbance in speech production, caused by damage to Broca’s area – Agrammaticism Anomia Difficulty with articulation Wernicke’s Aphasia: disturbance in speech comprehension, caused by damage to Wernicke’s area – elatedhttp:// elated Disruption in recognition of spoken words Disruption in comprehension of the meaning of words Inability to convert thought into words

Disorders of Planning and Social Cognition Caused by damage to prefrontal area –Disrupts executive control– processes that allow us to direct our own cognitive activities e.g., setting priorities, planning, strategizing, ignoring distractors

Plasticity The brain is plastic—subject to alteration in the way it functions, such as: Changes in the brain’s overall architecture The central nervous system can grow new neurons: But appears unable to do so with cortical injury This promotes stability in the brain’s connections but is an obstacle to recovery from brain damage.

Plasticity Neurons are subject to alteration in the way they function, such as: Changes in how much neurotransmitter a presynaptic neuron releases Changes in neuron sensitivity to neurotransmitters Creating new connections by growing new dendritic spines