1. CH10. Cerebral hemispheres and vascular supply By: Laurence Poliquin-Lasnier R2 Neurology

2. Outline Review of the main functional cortical areas Anterior circulation Posterior circulation Circle of Willis Anatomy and vascular territories of: a) ACA b) MCA c) PCA Clinical syndromes of the 3 main cerebral arteries Venous drainage of the cerebral hemispheres Clinical scenarios

3. Main functional areas of the brain

4. Anterior and posterior circulation

5. 4 segments of internal carotid artery 1.Cervical segment 2.Petrous segment 3.Cavernous segment 4.Intracranial/supraclinoid segment

6. The anterior circulation: branches of the supraclinoid/intracranial carotid artery Mnemonic “OPAAM” O = Ophtalmic artery P = Posterior communicating artery A = Anterior choroidal artery A = Anterior cerebral artery M = Middle cerebral artery

7. The anterior circulation: branches of the intracranial carotid artery

8. The posterior circulation

9. Circle of Willis

10. 3 main arteries Anterior cerebral artery (ACA) Middle cerebral artery (MCA) Posterior cerebral artery (PCA) ACA and MCA arise from the internal carotid artery PCA arise from the basilar artery

11. Circle of willis

12. Vascular territories of the 3 main cerebral arteries Vascular territories of the superficial cerebral structures Vascular territories of the deep cerebral structures

13. Superficial branches of ACA

14. Distribution of vascular supply

15. Superficial branches of the MCA

16. Distribution of vascular supply

17. Superficial branches of PCA

18. Distribution of vascular supply

19. Vascular territories of deep cerebral structures Lenticulostriate arteries Anterior choroidal artery Recurrent artery of Heubner Thalamoperforator arteries

20. Vascular territories of deep cerebral structures ArteryFromSupply LenticulostriateMCABasal ganglia, internal capsule Anterior choroidalInternal carotid Globus pallidus, putamen, thalamus, posterior limb internal capsule Recurrent artery of Heubner ACAHead of the caudate, anterior putamen, globus pallidus, internal capsule ThalamoperforatorPCAThalamus, posterior limb internal capsule

21. Lenticulostriate arteries

22. Superficial and deep vascular supply of the brain

24. Clinical syndromes of the 3 main cerebral arteries MCA ACA PCA

25. Where is the lesion? 1.R face/arm UMN weakness, broca aphasia,+/- R face/arm cortical-type sensory loss

26. Distribution of vascular supply

27. Where is the lesion? 1.R pure motor hemiparesis (UMN) 2.R hemiplegia, R hemianesthesia, R homonymous hemianopsia, global aphasia, L gaze preference

28. Superficial and deep vascular supply of the brain

29. Where is the lesion? 1.R leg weakness (UMN), R leg cortical-type sensory loss, grasp, dishinibition 1.R homonymous hemianopia, alexia without agraphia

30. Clinical pearl: Alexia without agraphia Lesion in dominant (usually L) occipital cortex extending to the posterior corpus callosum Prevents processing of information in R visual field, including written material Information about L visual field is transmitted to R occipital lobe, but cannot cross to the left to the language areas by the corpus callosum lesion

31. Lacunar syndromes Lacune: small vessel infarct Ressemble small lake or cavity when examined on pathologic section 6 major lacunar syndromes: Pure motor hemiparesis Pure sensory stroke Ataxic hemiparesis Sensorimotor stroke Dysarthria-clumsy hand syndrome Basal ganglia lacune

32. 1- Pure motor hemiparesis Unilateral face, arm, leg (UMN) weakness with dysarthria Location: –Posterior limb internal capsule (common) Lenticulostriate, anterior choroidal, thalamoperforator –Ventral pons (common) Ventral penetrating branches of basilar artery –Corona radiata Small MCA branches –Cerebral peduncle Small MCA branches

33. 2- Pure sensory stroke Sensory loss to all primary modalities in the contralateral face and body Location: –Ventral posterior lateral nucleus (VPL) of thalamus Thalamoperforator branches of PCA

34. 3- Ataxia hemiparesis Pure motor hemiparesis with ataxia on same side as weakness Location: Same as pure motor hemiparesis Vascular supply: Same as pure motor hemiparesis

35. 4- Sensorimotor (thalamocapsular) Contralateral face/arm/leg sensory loss and weakness +/- dysarthria Location: –Posterior limb internal capsule and either thalamic VPL or thalamic somatosensory radiations Thalamoperforator arteries or lenticulostriate arteries

36. 5- Dysarthria-clumsy hand Facial weakness, dysarthria, dysphagia, and slight weakness and clumsiness of one hand Location: -Pons -Pontine arteries -Genu of internal capsule

37. 6- Basal ganglia lacune Hemiballismus or asymptomatic Locations: –Caudate, putamen, globus pallidus, or subthalamic nucleus Lenticulostriate, anterior choroidal, thalamoperforator, or heubner’s arteries

38. Overview of venous drainage Superficial veins drain into the superior sagittal sinus and cavernous sinus Deep veins drain into great vein of Galen Majority of veins ultimately drain to the internal jugular veins Superior sagittal sinus –> transverse sinuses - >sigmoid sinus -> jugular foramen to become the internal jugular vein Cavernous sinus (int carotid artery, CN III-IV-V-VI) - >superior petrosal sinus -> transverse sinus Cavernous sinus -> inferior petrosal sinus ->internal jugular vein

39. Deep venous drainage Internal cerebral veins, basal veins of Rosenthal, and other veins ->great cerebral vein of Galen -> joined by inferior sagittal sinus –> to form straight sinus Confluence of sinus (torcular Herophili) = superior sagittal sinus + straight sinus + occipital sinus Confluence of sinus drained by transverse sinus

40. Overview of venous drainage

41. Deep venous drainage

42. Clinical scenario #1 ID: 67yo woman PMHx: HTN, PVD, smoker HPI: after breakfast, she tried to stand up and suddenly felt she could not support her weight -> fell -> 911 Physical: Alert & oriented Unaware at times of L sided weakness Language fluent CN normal except minimally decreased L nasolabial fold + mild dysarthria

43. Clinical scenario #1 Motor: 5/5 except 1-2/5 in L leg prox and distal and 4/5 prox L arm L leg hyperreflexia, L Babinski Sensory: inconsistent decreased response to pinprick on L Tactile extinction on L One month later, partially recovered power, but feels that her L arm is out of control, grasp onto things without her being aware and would have to use her R arm to release the grasp When distracted, can use both arms normally

44. Where is the lesion? R primary motor cortex foot area Supplementary area given Alien hand syndrome Adjacent to R frontal and R parietal lobes R anterior cerebral artery occlusion

45. Clinical scenario #2 ID: 52F RFC: difficulty raising L arm PMHx: HTN, smoker HPI: noticed last night inability to raise L arm to grasp cup of coffee. This mvt caused her L arm to flop up in the air and knock the coffee on the floor Physical: R carotid bruit

46. Clinical scenario #2 Decreased L arm power proximally (4-/5 deltoid, tricep 4/5, bicep 4+/5, 5/5 distally) Decreased L leg power proximally (iliopsoas 4/5) and rest 5/5 L hyperreflexia arm and leg, L babinski Sensory N N FTN Falls to the left on tandem gait

47. Where is the lesion? Unilateral proximal arm and leg weakness Man in the barrel Contralateral motor cortex proximal arm and leg area, and trunk ACA-MCA watershed area 2ary decreased right carotid perfusion

48. Watershed areas

49. Conclusion 3 main cerebral arteries –ACA, MCA, PCA Anterior circulation composed of internal carotid artery that leads to ACA and MCA within the circle of willis Posterior circulation arises from vertebrobasilar system and leads to PCA within the circle of willis

50. Conclusion ACA supplies medial frontal and medial parietal lobes (sensorimotor cortex for lower extremities) PCA supplies the medial and inferior occipital and temporal lobes (primary visual cortex) MCA supplies entire lateral surface of the brain (face and arm sensorimotor regions + association cortex)

51. Conclusion MCA deep territory supplies internal capsule and most of basal ganglia ACA deep territory supplies anterior basal ganglia and internal capsule PCA deep territory supplies thalamus, midbrain, midbrain, posterior internal capsule

52. Conclusion Venous drainage occurs via superficial and deep cerebral veins Superficial veins drain into superior sagittal sinus and cavernous sinus Deep veins drain into great vein of Galen Ultimately all venous drainage reaches internal jugular vein mostly via transverse and sigmoid sinus