1 / 48

NSCI 324* Systems Neuroscience

NSCI 324* Systems Neuroscience. Doug Munoz Centre for Neuroscience Studies Botterell Hall, room 226 x32111 doug.munoz@queensu.ca Tutorial: Monday Jan 23, 2012 10:30am Botterell B147 TA: Jay Jantz (j.jantz@queensu.ca). NSCI 324* Systems Neuroscience.

chip
Télécharger la présentation

NSCI 324* Systems Neuroscience

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. NSCI 324* Systems Neuroscience Doug Munoz Centre for Neuroscience Studies Botterell Hall, room 226 x32111 doug.munoz@queensu.ca Tutorial: Monday Jan 23, 2012 10:30am Botterell B147 TA: Jay Jantz (j.jantz@queensu.ca)

  2. NSCI 324* Systems Neuroscience Vision and Oculomotor Control (Dr. Munoz) January 10 The retina January 13 Central Visual Pathways January 16 Dr. Munoz Tutorial: January 16 Higher Visual functions January 17 Oculomotor System I. Basic organization January 20 Oculomotor System II. Vestibulo-ocular reflex January 23 Dr. Munoz tutorial: January 23 Oculomotor System III. Saccades January 24 Basal Ganglia for cognitive and motor control January 27 review of Dr. Munoz lecture material January 30 Dr. Munoz exam in tutorial period

  3. Basal Ganglia

  4. Basal Ganglia • Collection of nuclei deep in telencephalon, diencephalon, and midbrain • Play a very important role in cognition and motor control

  5. Basal Ganglia • Caudate Nucleus (CN)

  6. Basal Ganglia • Caudate Nucleus (CN) • Putamen (P) } Striatum

  7. Basal Ganglia • Caudate Nucleus (CN) • Putamen (P) • Globus pallidus (GP) } Lentiform nucleus

  8. Basal Ganglia • Caudate Nucleus (CN) • Putamen (P) • Globus pallidus (GP) • external segment (GPe) • Internal segment (GPi)

  9. Basal Ganglia • Caudate Nucleus (CN) • Putamen (P) • Globus pallidus (GP) • external segment (GPe) • Internal segment (GPi) • Sustantia nigra (SN) • pars reticulata (SNpr) • pars compacta (SNpc)

  10. Basal Ganglia • Caudate Nucleus (CN) • Putamen (P) • Globus pallidus (GP) • external segment (GPe) • Internal segment (GPi) • Sustantia nigra (SN) • pars reticulata (SNpr) • pars compacta (SNpc) BG Output

  11. Basal Ganglia • Caudate Nucleus (CN) • Putamen (P) • Globuspallidus (GP) • external segment (GPe) • Internal segment (GPi) • Sustantianigra (SN) • pars reticulata (SNpr) • pars compacta (SNpc) • Subthalamic nucleus (STN)

  12. Basal Ganglia • Caudate Nucleus (CN) • Putamen (P) • Globuspallidus (GP) • external segment (GPe) • Internal segment (GPi) • Sustantianigra (SN) • pars reticulata (SNpr) • pars compacta (SNpc) • Subthalamic nucleus (STN) } Striatum } Lentiform nucleus BG Output

  13. Cortex GLU GPe Caudate Putamen GLU SNpc STN SNr GPi GABA Simplified Basal Ganglia Circuit Thalamus

  14. Cortex GPe Caudate Putamen SNpc STN SNr GPi Simplified Basal Ganglia Circuit GLU GLU DIRECT PATHWAY GABA SubstanceP GABA Thalamus

  15. Cortex GPe Caudate Putamen SNpc GABA Enkephalin STN SNr GPi GABA GLU Simplified Basal Ganglia Circuit GLU GLU INDIRECT PATHWAY GABA Thalamus

  16. Cortex GPe Caudate Putamen SNpc STN SNr GPi Simplified Basal Ganglia Circuit GLU GLU GABA Enkephalin GABA GABA SubstanceP GLU GABA Thalamus

  17. Cortex GPe Caudate Putamen SNpc STN SNr GPi Simplified Basal Ganglia Circuit HYPERDIRECT PATHWAY GLU GLU GABA Enkephalin GABA GABA SubstanceP GLU GABA Thalamus GLU

  18. Cortex GPe Caudate Putamen SNpc DA STN SNr GPi Simplified Basal Ganglia Circuit GLU GLU GABA D2 D1 GABA GABA GLU GABA Thalamus DA-D1: increase excitability in DIRECT pathway DA-D2: decrease excitability in INDIRECT pathway

  19. Channels through Basal Ganglia

  20. Cortex GPe Caudate Putamen SNpc DA STN SNr GPi Simplified Basal Ganglia Circuit GLU GLU GABA D2 D1 GABA GABA GLU GABA Thalamus

  21. Parkinson’s Disease • progressive degenerative disorder • degeneration in substantia nigra pars compacta • leads to reduced dopamine release in striatum (caudate and putamen) • affects motor function

  22. Cortex GPe Caudate Putamen SNpc STN SNr GPi Parkinson’s Disease: Loss of DA from SNpc GLU GLU GABA DA D2 D1 GABA GABA GLU GABA Thalamus

  23. Cortex GPe Caudate Putamen SNpc STN SNr GPi Parkinson’s Disease: Loss of DA from SNpc GLU GLU GABA DA D2 D1 GABA GABA GLU GABA Thalamus

  24. Cortex GPe Caudate Putamen SNpc STN SNr GPi Parkinson’s Disease: Loss of DA from SNpc GLU GLU GABA DA D2 D1 GABA GABA GLU GABA Thalamus

  25. Cortex GPe Caudate Putamen SNpc STN SNr GPi Parkinson’s Disease: Loss of DA from SNpc GLU GLU GABA DA D2 D1 GABA GABA GLU GABA Thalamus

  26. Cortex GPe Caudate Putamen SNpc STN SNr GPi Parkinson’s Disease: Loss of DA from SNpc GLU GLU GABA DA D2 D1 GABA GABA GLU GABA Thalamus Leads to reduced excitability in cortex inability to initiate movement

  27. Parkinson’s Disease What Causes Parkinson’s Disease? • Exogenous toxins • Oxidative stress • Genetic Predisposition • Infection • Drug-induced loss of DA neurons in SNpc

  28. PD at 95+ PD at 50+ Loss of DA neurons leads to Parkinson’s 100 Viable DA Neurons (%) 20-25 Threshold for diagnosis 100 Age (yrs)

  29. Sudden Insult PD at 95+ PD at 55+ Loss of DA neurons leads to Parkinson’s 100 Viable DA Neurons (%) 20-25 Threshold for diagnosis 100 Age (yrs)

  30. Cortex GPe Caudate Putamen SNpc STN SNr GPi Parkinson’s Disease: Loss of DA from SNpc GLU GLU GABA DA D2 D1 GABA GABA GLU GABA Thalamus Leads to reduced excitability in cortex inability to initiate movement

  31. Huntington’s Disease • Inhereted (genetic) disorder that manifests in midlife • Autosomal dominant trait • Restlessness and choreiform (rapid, jerky) movements in arms and face • Starts with degeneration in Indirect pathway • Degeneration spreads through basal ganglia

  32. Cortex GPe Caudate Putamen SNpc DA STN SNr GPi Simplified Basal Ganglia Circuit GLU GLU GABA D2 D1 GABA GABA GLU GABA Thalamus

  33. Cortex GPe Caudate Putamen SNpc DA STN SNr GPi Huntington’s Disease: Degeneration in Basal Ganglia GLU GLU GABA D2 D1 GABA GABA GLU GABA Thalamus

  34. Cortex GPe Caudate Putamen SNpc DA STN SNr GPi Huntington’s Disease: Degeneration in Basal Ganglia GLU GLU GABA D2 D1 GABA GABA GLU GABA Thalamus

  35. Cortex GPe Caudate Putamen SNpc DA STN SNr GPi Huntington’s Disease: Degeneration in Basal Ganglia GLU GLU GABA D2 D1 GABA GABA GLU GABA Thalamus

  36. Cortex GPe Caudate Putamen SNpc DA STN SNr GPi Huntington’s Disease: Degeneration in Basal Ganglia GLU GLU GABA D2 D1 GABA GABA GLU GABA Thalamus

  37. Cortex GPe Caudate Putamen SNpc DA STN SNr GPi Huntington’s Disease: Degeneration in Basal Ganglia GLU GLU GABA D2 D1 GABA GABA GLU GABA Thalamus Leads to increased excitability in cortex inability to inhibit movement

More Related