TELENCEPHALON

Kaan Yücel M.D.,Ph.D. 05.May. 2014 Monday

1. Telencephalon is composed of… Cerebral hemispheresSulci, fissures, gyri, lobespartially separated by a deep longitudinal fissure, and which fill the area of the skull above the tentorium cerebelli and are subdivided into lobes based on their position.

Basal ganglia

Insula

Ventricular systemTwo lateral ventricles, third ventricle, fourth ventricle

White matter tractsCommissural, association, and projection fibres

2. Sulci & Gyri & Lobes Precentral gyrus

3. Temporal lobe & sulci & gyri

4. Occipital lobe & sulci & gyri

5. Occipital lobe & sulci & gyri

6. Insula Island of Reil

7. Medial and inferior aspects of the hemispheres

7. Medial and inferior aspects of the hemispheres

8. Brodmann areas

1909 Cytoarchitecture47 functional areas

Neocortex 6 layers

Paleocortex 3-5

layersArchicortex 3

layers

8. Brodmann areas

3

1

2

5 76

8

9

10

46

46

10

4

4 44 5

47

11

41,42

39

43

22

38

17

18

19

21

37

somesthetic association area

8. Brodmann areas

8. Brodmann areas

9. Lateral ventricles

10. Third ventricle

11. Fourth ventricle

1. Frontal Lobe. 2. Parietal Lobe. 3. Occipital Lobe. 4. Septum Pellucidum. a. Rostrum of Corpus Callosum.b. Body of Corpus Callosum.c. Splenium of Corpus Callosum.10. Pons. 11.Medulla Oblongata. 12. Cerebellum. 13. Spinal Cord. 14. Fourth ventricle. 15. Sinus Confluence.

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Cisternae

Correction: Lenticular nucleus or lentiform nucleus

12. Basal gangliaDistributed set of brain structures in the telencephalon, diencephalon, and mesencephalon.

The forebrain structures include :Caudate nucleus Putamen Nucleus accumbens (or ventral striatum) Globus pallidus

Corpus striatum

12. Basal gangliaCaudate nucleus C-shaped structure closely associated with the lateral wall of the lateral ventricle. largest at its anterior pole (the head), and its size diminishes posteriorly as it follows the course of the lateral ventricle (the body) all the way to the temporal lobe (the tail), where it terminates at the amygdaloid nuclei.

12. Basal gangliaPutamen- Caudate separated by anterior limb of the internal capsuleConnected by bridges of cells across the internal capsuleA striated look striatum or neostriatum

Caudate+ Putamen=Striatum= Main recepient of afferent input.Globus pallidus= Major efferent output leaves from.

12. Basal ganglia

MRI of the brain, T1-weighted axial cut.1, Putamen. 2, Pallidum. 3, Caudate nucleus. 4, Insula. 5, Lateral ventricle. 6, Thalamus.

Third ventricle

Functional Anatomy of the Basal Ganglia

Traditionally, the basal ganglia have been viewed as motor structures.

It is only in the past 20 years that it has been recognized that these structures also may have a role in cognition and emotion.

Functional Anatomy of the Basal Ganglia

Alexander and his colleagues that the motor circuit is involved in

‘‘the control of movement direction and in the scaling of movement amplitude or velocity’’ and ‘‘in the programming and initiation of internally generated movements.’’

Functional Anatomy of the Basal Ganglia

o GABA, dopamine, acetylcholine, and glutamine

o Multiple pathways in the basal ganglia both with both excitatory and inhibitory functions.

o Input to the basal ganglia is received from both the cerebral cortex and the thalamus.

o Lesions in the basal ganglia result in uncoordinated and disorganized movement.

EXTRAPYRAMIDAL SYSTEM

Functional Anatomy of the Basal Ganglia1. motor - between additional motor area of the cerebral cortex and

the lateral part of dorsal striatum – putamen automatic motor activity control of muscular tensioninitiating and fluent performing of motor actions executed by skeletal muscles especially during will dependent movements

2. oculomotor - between the frontal visual eye field of the cerebral cortex and the corpus of the caudate (nucleus caudatus) belonging to the medial part of dorsal striatum

12. Basal ganglia

12. Basal ganglia

MRI of the brain, T1-weighted coronal cut.1, Lateral ventricle. 2, Caudate nucleus. 3, Putamen. 4, Temporal lobe (left side). 5, Sylvian fissure (lateral sulcus).

13. Commissural fibers CORPUS CALLOSUMFreitag CM, Luders E, Hulst HE, Narr KL, Thompson PM, Toga AW, Krick C, Konrad C.Total brain volume and corpus callosum size in medication-naïve adolescents and young adults with autism spectrum disorder. Biol Psychiatry. 2009;66(4):316-319.

Kitayama N, Brummer M, Hertz L, Quinn S, Kim Y, Bremner JD. Morphologic alterations in the corpus callosum in abuse-related posttraumatic stress disorder: a preliminary study. J Nerv Ment Dis. 2007;195(12):1027-1209.Ballmaier M, Kumar A, Elderkin-Thompson V, Narr KL, Luders E, Thompson PM, Hojatkashani C, Pham D, Heinz A, Toga AW. Mapping callosal morphology in early- and late-onset elderly depression: an index of distinct changes in cortical connectivity. Neuropsychopharmacology. 2008;33(7):1528-1536.

Black SE, Moffat SD, Yu DC, Parker J, Stanchev P, Bronskill M. Callosal atrophy correlates with temporal lobe volume and mental status in Alzheimer's disease. Can J Neurol Sci. 2000;27(3):204-209.Venkatasubramanian G, Jayakumar PN, Reddy VV, Reddy US, Gangadhar BN, Keshavan MS Corpus callosum deficits in antipsychotic-naïve schizophrenia: evidence for neurodevelopmental pathogenesis. Psychiatry Res. 2010;182(2):141-145.

1. Genu of corpus callosum

2. Forceps minor 3. Anterior limb of

internal capsule 4. Septum

pellucidum 5. Caudate nucleus 6. Putamen 7. Globus pallidus 8. Posterior limb of

internal capsule 9. Thalamus 10. Splenium of

corpus callosum 11. Forceps major

13. Commissural fibers ANTERIOR COMMISSUREPOSTERIOR COMMISSURE

14. Association fibers

15. Projection fibers

1st neuron2nd neuron3rd neuron

Internal capsuleAnterior limb [3]Posterior limb [8]Genu

Motor homunculusSensory homunculus

Motor homunculusSensory homunculus

The cerebral arterial circle (of Willis) is formed at the base of the brain by the interconnecting vertebrobasilar and internal carotid systems of vessels.

1anterior communicating artery connecting the left and right anterior cerebral arteries to each other;2 posterior communicating arteries, one on each side, connecting the internal carotid artery with the posterior cerebral artery.