Chapter 7

2. Chapter 7 Movements

3. Outline • Movement basics • Complex movement • Adaptive movement • Movement disorders • Language from movement

4. Movement basics • Motor homonculus in motor cortex • Which areas are given the most real estate?

5. Movement basics • Corticospinal tracts • Lateral corticospinal tract • Anterior corticospinal tract • The spinal cord • Transit system for motor neural signals • Reflex responses

6. Movement basics: Reflex arc

7. Movement basics: Muscle types

8. Movement basics: Neuromuscular junction

9. Complex Movement • Movement requires memory, strength, sensory feedback, and coordination across brain regions

10. Complex Movement Super advanced robot vs. a child

11. Complex Movement: Cortex

12. Complex Movement: Learning

13. Complex Movement: Basal ganglia • Interconnected nuclei that surround the thalamus • Involved in: • Movement • Habit formation • Attention • Communicates as needed with cerebral cortex

14. Complex Movement: Basal ganglia

15. Complex Movement: Cerebellum • Movement coordination, balance, and muscle tone • 10% of the brain’s total volume • 4x more neurons than the cortex

16. Complex Movement: Cerebellum

17. Adaptive movement • Optimal actions minimize cost and maximize reward. • Predict how much effort is needed before lifting a box

18. Adaptive movement • Many species can do complex movements • What are some possible functions for complex movements?

19. Adaptive movement: Athletics • Novice and expert golfers exhibit different patterns of brain activity when preparing to make a shot. • Becoming an expert usually means automating behavior (less prefrontal cortex)

20. Adaptive movement: Athletics

21. Adaptive movement: Athletics • What happens when athletes “overthink” automatic behaviors? • Is “icing the kicker” effective?

22. Adaptive movement: Exercise • Exercise may help your brain stave off effects of again • Why might exercise be more important now than a few hundred (or thousand) years ago?

23. Adaptive movement: Exercise

24. Movement Disorders Add Title here • Parkinson’s disease • Spinal cord injury

25. Movement Disorders: Parkinson’s

26. Movement Disorders: Parkinson’s

27. Movement Disorders: Spinal cord injury • 2.5 million worldwide • Severe impact on quality of life • CNS neurons don’t regrow

28. Movement Disorders: Spinal cord injury

29. Movement Disorders: Spinal cord injury Animal models of spinal cord injury are used to develop therapies that may hold promise for human spinal cord injuries.

30. Language as movement • Protosigns and protolanguage • Similar gestures across some primates

31. Language as movement • Mirror theory of speech • Motor theory of speech • Genetics also play a role (genes implicated in dyslexis)

32. Language as movement • Where did we get the sounds used in our language from? • From nature?

33. Language as movement: Cortex Large language network. Much early knowledge about language in the brain came from patients with lesions in particular areas

34. Language as movement: Cortex • Language is primarily left-lateralized • Individuals with damage to left hemisphere show some plasticity • Better plasticity for younger people