1. Stroke: Evaluation and Treatment
John B. Terry, M.D.
Medical Director, Neurocritical Care
Via Christi Regional Medical Center I like this title. Neurologists intervening. Most will think of procedural intervention, but as I am about to show you it goes well beyond that.I like this title. Neurologists intervening. Most will think of procedural intervention, but as I am about to show you it goes well beyond that.
2. Stroke-in-Evolution Emergency
Heterogenous group of etiologies
Increasing number and complexity of treatment options
Stroke in evolution is a term frequently used to describe patients with clinical worsening. I think it is a good description for current thought about stroke and its treatment.
As we talk I want to cover 4 significant points.Stroke in evolution is a term frequently used to describe patients with clinical worsening. I think it is a good description for current thought about stroke and its treatment.
As we talk I want to cover 4 significant points.
3. Stroke: Definition A syndrome characterized by acute onset of a neurologic deficit that persists for at least 24 hours, reflects focal involvement of the central nervous system, and is the result of a disturbance of the cerebral circulation. Acute onset
Begins abruptly with stroke. Maximal deficit immediately with embolic
stroke; maximal over minutes to hours with thrombotic stroke. If deficit
evolves over days to weeks, then more likely tumor, inflammatory dis-
order, or neurodegenerative disorder.
Focal involvement
Symptoms suggest where the lesion is, the exam accurately delineates
the location, and x-ray confirms it.
Cerebral circulation
Vascular event suggested by acute onset and naure of symptoms and signs
consistent with involvemnt of tissue in the territory of a particular blood
vessel.Acute onset
Begins abruptly with stroke. Maximal deficit immediately with embolic
stroke; maximal over minutes to hours with thrombotic stroke. If deficit
evolves over days to weeks, then more likely tumor, inflammatory dis-
order, or neurodegenerative disorder.
Focal involvement
Symptoms suggest where the lesion is, the exam accurately delineates
the location, and x-ray confirms it.
Cerebral circulation
Vascular event suggested by acute onset and naure of symptoms and signs
consistent with involvemnt of tissue in the territory of a particular blood
vessel.
4. Stroke: Definitions Transient Ischemic Attack (TIA)
Reversible Ischemic Neurologic Deficit (RIND)
Stroke in Evolution (Progressive Stroke)
Completed Stroke TIA
less than 24 hours
RIND
less than a few days
Stroke in evolution
Completed stroke
deficits remain stableTIA
less than 24 hours
RIND
less than a few days
Stroke in evolution
Completed stroke
deficits remain stable
5. Stroke Epidemiology > 700,000 new or recurrent strokes occur per year
Accounts for > 50% of all hospitalizations for acute neurologic disease
~ 4 million Americans are living with neurologic deficits due to stroke
Leading cause of serious, long-term disability
Risk and mortality increase with age
Third leading cause of death in the U.S.; second leading cause worldwide
Stroke is an improtant health problem
Incidence is increasing with time
It is a large problem in the US but even larger in the worldStroke is an improtant health problem
Incidence is increasing with time
It is a large problem in the US but even larger in the world
6. Stroke Subtypes Multple etiologies result in the sudden onset of a focal neurologic deficit.
When patients present, it is not difficult to make the diagnosis of a hemorrhagic etiology. In ischemic stroke, however, almost half of the time the cause is undetermined.Multple etiologies result in the sudden onset of a focal neurologic deficit.
When patients present, it is not difficult to make the diagnosis of a hemorrhagic etiology. In ischemic stroke, however, almost half of the time the cause is undetermined.
7. Stroke Risk Factors Tobacco use
High blood pressure
Previous TIA or Stroke
Diabetes mellitus
Atrial fibrillation
Family history of stroke or heart attack
hyperlipidemia
8. Stroke Risk Factors Cardiac structural conditions
Cholesterol
Serum homocysteine
Sedentary lifestyle
Gender
Age
heavy alcohol use
oral contraceptives
10. Bar graph of probability of stroke during 10 years in men aged 70 years at two systolic blood pressure levles: impact of other risk factors. Hyp Rx, antihypertensive therapy; DM, diabetes mellitus; Cigs, cigarette smoking; CVD, previously diagnosed coronary heart dis, cardiac failure, or intermittent claudication; AF, atrial fibrillation; LVH-ECG, left ventricular hypertrophy by ECGBar graph of probability of stroke during 10 years in men aged 70 years at two systolic blood pressure levles: impact of other risk factors. Hyp Rx, antihypertensive therapy; DM, diabetes mellitus; Cigs, cigarette smoking; CVD, previously diagnosed coronary heart dis, cardiac failure, or intermittent claudication; AF, atrial fibrillation; LVH-ECG, left ventricular hypertrophy by ECG
11. Stroke: Symptoms & Signs Symptoms suggest the cause of the lesion and its location
Signs accurately identify the location of the lesion (cortex, brainstem, or spinal cord; left or right side; anterior or posterior circulation)
Neuroimaging confirms the location and excludes other disorders which might produce similar signs and symptoms.
14. MCA distributes to the lateral surface of the hemisphere
ACA distributes to the medial frontal and parietal lobes
PCA distributes to the medial occipital and temporal lobes
17. Anterior Circulation Internal carotid artery and its branches
anterior & middle cerebral arteries (ACA & MCA)
anterior choroidal artery
lenticulostriate branches of MCA
Supplies much of cerebral hemispheres and adjacent subcortical white matter ACA
medial frontal & parietal cortex, subjacent white mat., ant. corpus callosum
MCA
Ant. choroidal artery
hippocampus, globus pallidus, lower internal capsule
Lenticulostriate arteries
caudate nucleus, putamen, upper internal capsule
Symptoms: amaurosis fugax
mono-, or hemiparesis
hemisensory loss
visual field deficit
agnosia
apraxia
aphasiaACA
medial frontal & parietal cortex, subjacent white mat., ant. corpus callosum
MCA
Ant. choroidal artery
hippocampus, globus pallidus, lower internal capsule
Lenticulostriate arteries
caudate nucleus, putamen, upper internal capsule
Symptoms: amaurosis fugax
mono-, or hemiparesis
hemisensory loss
visual field deficit
agnosia
apraxia
aphasia
18. Clinicoanatomical Correlates Anterior Cerebral Artery
Parasagital cerebral cortex; motor & sensory cortex related to contralateral leg, bladder inhibitory & micturation center
Paralysis and sensory loss contralateral leg; uninhibited bladder Uncommon; 85% of blood flow is to MCAUncommon; 85% of blood flow is to MCA
19. Clinicoanatomical Correlates Middle Cerebral Artery
Superior div.: contralateral hemiparesis
with relative sparing of the leg, contra-
lateral hemisensory loss; Brocas
aphasia
Inferior div.: homonymous hemianopsia,
impaired cortical sensory function, ano-
sognosia, apraxia, Wernickes aphasia
20. Clinicoanatomical Correlates Middle Cerebral Artery
Superior div.: motor & sensory cortex
for face, arm, hand; Brocas area
Inferior div.: visual radiations, macular
vision; Wernickes area
Lenticulostriate vessels: basal ganglia,
genu & posterior limb internal capsule Most common site of strokeMost common site of stroke
21. Clinicoanatomical Correlates Middle Cerebral Artery
Lenticulostriate vessels: dense hemi-
paresis affecting arm/leg/face equally Bifurcation of MCA occlusion: combined superior and inferior division sxs
Stem of MCA: combined sup., inf., and lenticulostriate arteriesBifurcation of MCA occlusion: combined superior and inferior division sxs
Stem of MCA: combined sup., inf., and lenticulostriate arteries
22. Clinicoanatomical Correlates Internal Carotid Artery
Signs and symptoms similar to MCA stroke
Transient monocular blindness (amaurosis fugax)
23. Posterior Circulation Vertebral artery, basilar artery & their branches:
posterior inferior cerebellar artery (PICA)
posterior cerebral artery & its thalamoperforate and thalamogeniculate branches Symptoms
coma, or LOC
drop attacks
vertigo
ataxia
hemianopsia
dysarthria
dysphagia
diplopia
cranial nerve signs
hemiparesis
hemisensory loss
crossed motor and sensory findings
cerebellar signsSymptoms
coma, or LOC
drop attacks
vertigo
ataxia
hemianopsia
dysarthria
dysphagia
diplopia
cranial nerve signs
hemiparesis
hemisensory loss
crossed motor and sensory findings
cerebellar signs
24. Clinicoanatomical Correlates Posterior Cerebral Artery
Occipital cerebral cortex, medial temporal lobes, thalamus, rostral midbrain
Homonymous hemianopsia, cortical blindness, impaired recent memory, anomic aphasia, alexia without agraphia, visual agnosia (eg., prosopagnosia)
25. Clinicoanatomical Correlates Basilar Artery
Occipital & medial temporal lobes, medial thalamus, posterior limb internal capsule, brainstem, cerebellum
Bilateral neurologic signs, cranial nerve & cerebellar signs, diplopia, vertigo, crossed motor & sensory signs, hemi- or quadraplegia, ataxia, dysarthria, LOC PICA: Wallenbergs Synd.; ipsilateral cerebellar ataxia, Horners, facial
sensory loss, contralateral pain & temp, nystagmus, vertigo, N/V,
dysphagia, dysarthria, hiccup
AICA: lateral caudal pons; similar to PICA but with deafness & tinnitus,
VII paralysis (no Horners, dysphagia, dysarthria)
Sup. Cerebellar Art: similar to AICa
Long penetrating paramedian vertebrobasilar branches
Short basal vertebrobasialr branches
PICA: Wallenbergs Synd.; ipsilateral cerebellar ataxia, Horners, facial
sensory loss, contralateral pain & temp, nystagmus, vertigo, N/V,
dysphagia, dysarthria, hiccup
AICA: lateral caudal pons; similar to PICA but with deafness & tinnitus,
VII paralysis (no Horners, dysphagia, dysarthria)
Sup. Cerebellar Art: similar to AICa
Long penetrating paramedian vertebrobasilar branches
Short basal vertebrobasialr branches
26. Clinicoanatomical Correlates Lacunar Stroke
Atherosclerosis with fibrinoid necrosis & lipohyalinosis of small penetrating arteries
(internal capsule, thalamus, pons)
Occurs in setting of longstanding hypertension or diabetes mellitus Normal angiographyNormal angiography
27. Clinicoanatomical Correlates Lacunar Stroke
Multiple syndromes including:
Pure motor hemiparesis
Pure hemisensory loss
Ataxic hemiparesis
Dysarthria-Clumsy Hand Syndrome Pure motor hemiparesis: pons or internal capsule
Pure hemisensory loss: thalamus
Ataxic hemiparesis: pons or internal capsule
Dysarthria Clumsy Hand synd.: internal capsule or ponsPure motor hemiparesis: pons or internal capsule
Pure hemisensory loss: thalamus
Ataxic hemiparesis: pons or internal capsule
Dysarthria Clumsy Hand synd.: internal capsule or pons
28. Stroke Management Algorithm
29. Pre-Hospital Care Recognition of symptoms:
Weakness or numbness on one side of the body
Speech difficulties
Visual difficulties
Balance problems
Sudden severe headache
Loss of consciousness
Emergency requiring a prompt response
Rapid Transport to hospital
30. After Arrival at Hospital Prompt examination
CT scan
Determination of etiology of symptoms
Admission
Pharmacologic treatment
Diagnostic tests
Physical therapy and swallowing evaluation
Definitive stroke prevention and rehabilitation strategy
31. Stroke: Differential Diagnosis hypoglycemia
tumor
abcess
syncope
seizure trauma
classic migraine
multiple sclerosis
Bells palsy
conversion reaction Do not mistake hypoglycemia for a stroke as it may produce focal neurological deficits similar to a stroke.Do not mistake hypoglycemia for a stroke as it may produce focal neurological deficits similar to a stroke.
32. CT Scan
33. Immediate Treatment Options Thrombolysis (tPA)
Aspirin
Antiplatelet agents
Fluids
Blood Thinner (heparin)
Future options
34. Barnett HJM, Buchan AM, JAMA, 283(23), June 21, 2000
35. Stroke: Treatment risk factor modification
antiplatelet agents
aspirin
ticlopidine
clopidogrel
dipyridamole
anticoagulants
Heparin
Coumadin
LMWH carotid endarterectomy
extracranial-intracranial bypass
thrombolytics
tissue plasminogen activator
streptokinase
glutamate antagonist
36. Neurovascular Evaluation Cardiogenic emboli
Large arterial process
embolic
thrombotic
Penetrating vessel process
Hematologic process
37. Stroke: Evaluation History
Onset and course
Associated symptoms (seizure, headache)
Predisposing risk factors Onset and course: stepwise w/ TIAs suggests thrombotic
abrupt w/ maximal deficit immediately suggest embolic
Assd sxs: seizure more common w/ embolus; rarely if ever w/ lacunar
headache w/ 25% of patients w/ ischemic stroke (due to vaso-
dilation of contralateral vessels)
Predisposing risk factorsOnset and course: stepwise w/ TIAs suggests thrombotic
abrupt w/ maximal deficit immediately suggest embolic
Assd sxs: seizure more common w/ embolus; rarely if ever w/ lacunar
headache w/ 25% of patients w/ ischemic stroke (due to vaso-
dilation of contralateral vessels)
Predisposing risk factors
38. Stroke: Evaluation Physical Examination
Blood pressure (both arms) & pulse
Ophthalmoscopic exam for retinal emboli
Carotid or ocular bruits
Cardiac murmur or dysrhythmia
Temporal artery tenderness
Neuro Exam (may be normal after TIA)
39. Stroke: Evaluation Routine laboratory tests
CBC w/ diff
Multichemistry profile including glucose
Lipid profile
Protime, PTT, ESR, VDRL
Routine Urinalysis
40. Stroke: Evaluation Other Clinical Studies
ECG & CXR
CT or MRI
Echocardiogram (transthoracic vs. TEE)
Carotid & Transcranial Doppler
Continuous ECG monitoring (eg., Holter)
Cerebral arteriogram
Lumbar Puncture
EEG CT may be more advantageous than MRI. May show acute hemorrahage more easily than MRI, is easier to perform, less time required, requires less patient cooperation.CT may be more advantageous than MRI. May show acute hemorrahage more easily than MRI, is easier to perform, less time required, requires less patient cooperation.
41. Documentation of Cardiac Embolism
Introduction of TEE
Increased Proportion of Cardiogenic Embolism1
Additional Findings
Aortic Arch Atheroma
Patent Foramen Ovale
Coronary Screening2 Stroke Prevention�Echocardiographic Evaluation of Stroke
42. Stroke: Evaluation Special Laboratory Studies
Serum viscosity
antithrombin III, protein C & S
lupus anticoagulant, anticardiolipins
Homocysteine, Factor V mutation
Sickle cell prep
ANA
Coagulation factor analysis
43. MRI Scan
44. Cerebrovascular Doppler
46. Neurovascular Evaluation
47. Stroke: Etiology (vascular) Atherosclerosis
Fibromuscular dysplasia
Carotid or vertebral artery dissection
Lacunar stroke
Drug abuse
Venous sinus thrombosis
Complicated migraine Atherosclerosios: esplly origin of CCA, bifurcation of ICA, w/i cavernous
sinus, vertebral art. at origin & just above etrance to skull, basilar artery
Pathogenesis: injury to vascular endothelial cells (LDL, biochemical,
inflammatory, mechanical), w/ monocytes invade and accumulate lipids
leading to fatty streak; stimulates proliferation & migration of intimal
smooth muscle cells; fibrous plaque & further injury; platelet adhesion
occludes vessel or causes platelet emboli.
Fibromuscular dysplasia: segmental nonatheromatous condition of cerebral
vessels; segmental thinning of media alternating w/ rings of fibrous &
muscular hyperplasia. Extracranial>intracranial vessels; women>men.
Rarely thrombose, usually thrombi embolize. Associated with saccular
aneurysms of cerebral artery w/ increased risk of SAH. Dx: beaded
appearance of artery on angiography. Tx: aspirin, or gradual intra-
luminal dilation.
Carotid or vertebral dissection: traumatic, Marfans, Ehlers Danlos. Occur
spontaneously (usually young male); cystic medial necrosis. Pain in neck
Tx: controversial, nothing? aspirin? anticoagulation? surgery?
Drug abuse: cocaine, heroin, amphetamine, phenylpropanolamine.
Moyamoya: smoke...haze; sickle cell, basilar meningitis, atherosclerosis
Migraine: complicated migraine
Venous or sinus thrombosis: assd w/ otitis, sinusitis, postpartum, dehydra-
tion, coagulopathy
Lacunar: occludes sm. penetrating art.; pons, int. cap., thalamus; fibrinoid
necrosis, lipohyalinosis.Atherosclerosios: esplly origin of CCA, bifurcation of ICA, w/i cavernous
sinus, vertebral art. at origin & just above etrance to skull, basilar artery
Pathogenesis: injury to vascular endothelial cells (LDL, biochemical,
inflammatory, mechanical), w/ monocytes invade and accumulate lipids
leading to fatty streak; stimulates proliferation & migration of intimal
smooth muscle cells; fibrous plaque & further injury; platelet adhesion
occludes vessel or causes platelet emboli.
Fibromuscular dysplasia: segmental nonatheromatous condition of cerebral
vessels; segmental thinning of media alternating w/ rings of fibrous &
muscular hyperplasia. Extracranial>intracranial vessels; women>men.
Rarely thrombose, usually thrombi embolize. Associated with saccular
aneurysms of cerebral artery w/ increased risk of SAH. Dx: beaded
appearance of artery on angiography. Tx: aspirin, or gradual intra-
luminal dilation.
Carotid or vertebral dissection: traumatic, Marfans, Ehlers Danlos. Occur
spontaneously (usually young male); cystic medial necrosis. Pain in neck
Tx: controversial, nothing? aspirin? anticoagulation? surgery?
Drug abuse: cocaine, heroin, amphetamine, phenylpropanolamine.
Moyamoya: smoke...haze; sickle cell, basilar meningitis, atherosclerosis
Migraine: complicated migraine
Venous or sinus thrombosis: assd w/ otitis, sinusitis, postpartum, dehydra-
tion, coagulopathy
Lacunar: occludes sm. penetrating art.; pons, int. cap., thalamus; fibrinoid
necrosis, lipohyalinosis.
48. Stroke: Etiology (vascular)�-continued- Inflammatory disorders
temporal arteritis
systemic lupus erythematosus
syphilitic arteritis
AIDS
granulomatous angiitis
polyarteritis nodosa
Herpes zoster Temporal arteritis: Giant cell arteritis; esplly elderly; visual loss, h.a.,
polymyalgia rheumatica, increased ESR, positive bx; Tx: steroids.
SLE: microangiopathy, noninflammatory, w/ microinfarcts. Liebmann-Sacks
endocarditis rarely embolizes
Granulomatous angiitis: idiopathic inflam. d.o. affecting small art. & veins
H.a., focal deficits, CSF pleocytosis, nl ESR, +angio or biopsy;
Tx: prednisone w/ or w/o cytoxan
Syphilitic arteritis: increased in male homosexuals; w/i 5 yrs after infection;
medium vessels, lacunar infarcts, deep white matter
Herpes Zoster: arteritis
Polyarteritis nodosa: segmental vasculitis of small & medium sized arts
AIDS: increased risk of stroke (why?); toxic effects of HIV-1 on blood
vessels? Immune complexes?Temporal arteritis: Giant cell arteritis; esplly elderly; visual loss, h.a.,
polymyalgia rheumatica, increased ESR, positive bx; Tx: steroids.
SLE: microangiopathy, noninflammatory, w/ microinfarcts. Liebmann-Sacks
endocarditis rarely embolizes
Granulomatous angiitis: idiopathic inflam. d.o. affecting small art. & veins
H.a., focal deficits, CSF pleocytosis, nl ESR, +angio or biopsy;
Tx: prednisone w/ or w/o cytoxan
Syphilitic arteritis: increased in male homosexuals; w/i 5 yrs after infection;
medium vessels, lacunar infarcts, deep white matter
Herpes Zoster: arteritis
Polyarteritis nodosa: segmental vasculitis of small & medium sized arts
AIDS: increased risk of stroke (why?); toxic effects of HIV-1 on blood
vessels? Immune complexes?
49. Stroke: Etiology (cardiac) mural thrombus
rheumatic heart disease
dysrhythmias (esp. atrial fibrillation)
endocarditis
bacterial
marrantic mitral valve prolapse (?)
paradoxical embolus
patent foramen ovale
atrial septal defect
left atrial myxoma
prosthetic heart valve Mural thrombus: after MI, cardiomyopathy
Rheum. Hrt. Dis: esplly mitral stenosis w/ atrial fib.
Dysrhythmias: a. fib.; sick sinus (bradytachy synd.)
Endocarditis: bacterial (strept, staphy, & w/ drug users pseudomonas, candida,
& aspergillosis); marrantic assd w/ cancer (adenoca lung and GI);
Liebmann-Sacks endocarditis rarely embolizes
MV prolapse: increased risk is small; massive stroke rare
Paradoxical embolus
Left atrial myxoma
Prosthetic heart valve: anticoagulateMural thrombus: after MI, cardiomyopathy
Rheum. Hrt. Dis: esplly mitral stenosis w/ atrial fib.
Dysrhythmias: a. fib.; sick sinus (bradytachy synd.)
Endocarditis: bacterial (strept, staphy, & w/ drug users pseudomonas, candida,
& aspergillosis); marrantic assd w/ cancer (adenoca lung and GI);
Liebmann-Sacks endocarditis rarely embolizes
MV prolapse: increased risk is small; massive stroke rare
Paradoxical embolus
Left atrial myxoma
Prosthetic heart valve: anticoagulate
50. Stroke: Etiology (hematologic) Thrombocytosis (platelets >1,000,000/uL)
Polycythemia (hematocrit >50-60%)
Leukocytosis (WBC>150,000/uL)
Sickle Cell Disease
Hypercoagulable states Polycythemia: treat with venasection
Sickle cell dis. (HgbSS): large vessel occlusion esplly; occassionally small
vessels. Decrease HgbSS to <20% if angio (contrast may cause sickling)
Hypercoagulable states: hyperviscosity (paraproteinemia, macroglobulinemia)
pregnancy
estrogen therapy
postpartum
postop.
cancer
antiphospholipid antibody synd (Lupus anticoag.,
anticardiolipin antibody)
heparin cofactor II deficiency
protein C or S deficiency
factor XII deficiency
antithrombin III deficiencyPolycythemia: treat with venasection
Sickle cell dis. (HgbSS): large vessel occlusion esplly; occassionally small
vessels. Decrease HgbSS to <20% if angio (contrast may cause sickling)
Hypercoagulable states: hyperviscosity (paraproteinemia, macroglobulinemia)
pregnancy
estrogen therapy
postpartum
postop.
cancer
antiphospholipid antibody synd (Lupus anticoag.,
anticardiolipin antibody)
heparin cofactor II deficiency
protein C or S deficiency
factor XII deficiency
antithrombin III deficiency
51. Hypercoagulable States hyperviscosity syndrome
pregnancy & postpartum
estrogen therapy
postoperative
cancer antiphospholipid antibody syndrome
protein C or S deficiency
antithrombin III deficiency
Factor V Leiden mutation
52. Prevention of Future Stroke Antiplatelet agents
Coumadin
Mechanical procedures (ie, Carotid Endarterectomy)
54. �Secondary Prevention��Medical Treatments
56. Stroke Prevention�Fatal or Nonfatal Stroke in CAPRIE
57. ESPS-2 Results: RRR for All Strokes
58. Stroke Prevention�Cardiogenic Brain Embolism
59. Stroke Prevention�Warfarin on LV Dysfunction
63. Intracranial Hemorrhage The brain is a highly vascular organ
It receives 20% of the cardiac output
Prone to hemorrhage
Fixed volume contraints of the skull result in unique consequences
These consequences are the cause for concern and uneasiness of many physicians
64. Intracranial Hemorrhage Categorized based on location
Intraparenchymal
Subarachnoid
Subdural
Epidural
Similar clinical presentations
Easily diagnosed by CT scan
Treatments differ
65. Intracranial Hemorrhage The brain is surrounded by multiple tissue layers
Many areas of the brain are supplied by perforator arteries
Berry aneurisms occur most frequently in the circle of Willis
66. Intracranial Hemorrhage Intraparenchymal Hemorrhage
67. Intracranial Hemorrhage Intraparenchymal Hemorrhage
Charcot-Bouchard aneurism
68. Intracranial Hemorrhage Intraparenchymal Hemorrhage
Charcot-Bouchard aneurism
Hypertensive hemorrhage Spontaneous hemorrhage
69. Intracranial Hemorrhage Intraparenchymal Hemorrhage
Charcot-Bouchard aneurism
Hypertensive hemorrhage Spontaneous hemorrhage
Occur in Basal ganglia, thalamus, pons, cerebellum
70. Intracranial Hemorrhage Intraparenchymal Hemorrhage
Charcot-Bouchard aneurism
Hypertensive hemorrhage Spontaneous hemorrhage
Occur in Basal ganglia, thalamus, pons, cerebellum
Controvery exists regarding best treatment
71. Intracranial Hemorrhage Subarachnoid Hemorrhage
72. Intracranial Hemorrhage Subarachnoid Hemorrhage
Most blood is present in the basal cisterns
73. Intracranial Hemorrhage Subarachnoid Hemorrhage
Most blood is present in the basal cisterns
Results from rupture of a berry aneurism
74. Intracranial Hemorrhage Subarachnoid Hemorrhage
Most blood is present in the basal cisterns
Results from rupture of a berry aneurism
Occur most commonly in the anterior circulation
75. Intracranial Hemorrhage Subarachnoid Hemorrhage
Most blood is present in the basal cisterns
Results from rupture of a berry aneurism
Occur most commonly in the anterior circulation
Has significant early and late complications
76. Intracranial Hemorrhage Subarachnoid Hemorrhage
Most blood is present in the basal cisterns
Results from rupture of a berry aneurism
Occur most commonly in the anterior circulation
Has significant early and late complications
Treatment is prevention of complications
77. Intracranial Hemorrhage Subdural Hemorrhage
78. Intracranial Hemorrhage Subdural Hemorrhage
Felt to be associated with venous bleeding
79. Intracranial Hemorrhage Subdural Hemorrhage
Felt to be associated with venous bleeding
May be associated with trauma
80. Intracranial Hemorrhage Subdural Hemorrhage
Felt to be associated with venous bleeding
May be associated with trauma
Subjacent brain often traumatized
81. Intracranial Hemorrhage Subdural Hemorrhage
Felt to be associated with venous bleeding
May be associated with trauma
Subjacent brain often traumatized
Treatment is surgical drainage
82. Intracranial Hemorrhage Epidural Hemorrhage
Arterial bleeding
83. Intracranial Hemorrhage Epidural Hemorrhage
Arterial bleeding
May be associated with a lucid period followed by rapid deterioration
Often associated with trauma and skull fracture
Treatment is surgical drainage
84. Intracranial Hemorrhage Future Challenges:
To develop systems to provide rapid evaluation and treatment of these lesions
To develop innovation in treatments
Maximize potential for recovery
85. Case 1 52 y/o found confused in car by the side of the road on 3/14/01.
Arrived in ER approximately 18:00
Intubated, sedated secondary to vomiting
Right hemiparesis
Bilateral upgoing toes
Fluctuating level of consciousness
86. Case 1 Last seen normal at 17:15
CT scan showed no evidence of stroke or hemorrhage
Received tPA at 19:58.
87. MRA 3/17/01
88. MRI 3/17/01
89. Discharge 3/27/01
90. Head CT 5/11/01
91. Clinic 5/10/01
92. Case 2 History
53 y/o female presenting with one week of headache and confusion and bilateral thalamic lesions.
Exam
Obtunded
Reacted to pain with flexion
93. Initial MRI
94. Post Biopsy CT
95. MRV
99. Final CT
100. Again, these are special cases that do not represent the normal stroke patient but they illustrate the increasing complexity of the treatment of stroke and how it may be delivered in a Neurovascular center setting.Again, these are special cases that do not represent the normal stroke patient but they illustrate the increasing complexity of the treatment of stroke and how it may be delivered in a Neurovascular center setting.
102. Cerebrovascular Disorder�
. I like this title. Neurologists intervening. Most will think of procedural intervention, but as I am about to show you it goes well beyond that.I like this title. Neurologists intervening. Most will think of procedural intervention, but as I am about to show you it goes well beyond that.
103. Cerebrovascular Disorder References
-Neurosonology by CH Tegeler et al Mosby 1995
-Principles of Neurology by RD Adams and M. Victor,5th edition ,1993
-AHA Guideline of management of unruptured intracranial aneurysm.Stroke 31:2742-2750.2000
-AHA Guideline :Surgery in intracerebral hemorrhage.Stroke .31:2511-2516,2000
104. Cerebrovascular Disorder References
AHA Guideline:Theinopyridines VS ASA to prevent Stroke and Vascular disease.Stroke 31:31;1779-1784,2000
AHA Guideline: Atrial Fibrillation. Stroke 32:803-808,2001
AHA Guideline:Guideline for TIA management Stroke 30: 2502-2511,1999
AHA Guideline:Carotid Endarterectomy for asymptomatic stenosis:Stroke 29:554-562,1998
105. Cerebrovascular Disorder References
AHA Guideline: Comparison of angioplasty VS endarterectomy for symptomatic carotid artery disease, Stroke 31;1439-1443,2000
AHA Guideline:Calcium antagonists, Stroke 32:570-576,2001- Meta analysis of 29 trials -Dont help in acute stroke
AHA Guideline: Intravenous Unfractionated Heparin is not helpful in acute stroke Stroke 32:579,2001
106. Cerebrovascular Disorder References
CAST Study and IST study ( 40,000 patients) ASA at the dose of160 mg and 300 mg as an acute treatment prevents early recurrence of stroke.The benefit is about 1%
107. Cerebrovascular Disorder Intracerebral Hemorrhage
Cerebral Ischemia
Stroke Classification Investigations
Major Vascular anatomy
Treatment
108. Cerebrovascular Disorder Intracerebral hemorrhage
Epidural hematoma
Subdural hematoma
Subarachnoid hemorrhage
Intraparenchymal hemorrhage
Intraventricular hemorrhage
109. Cerebrovascular Disorder Epidural hematoma
-Associated with head injury
-Bleeding from arterial blood middle meningeal artery
-Bleeeding between the dura mater and skull
-Lucid interval may be described
-Radiographically- lens shape blood /skull x-rays fracture across the middle meningeal artery groove
-Treatment surgical evacuation
-Good prognosis if intervene early
110. Cerebrovascular Disorder Subdural hematoma
Acute subdural hematoma
Chronic subdural hematoma
111. Cerebrovascular Disorder Acute subdural hematoma
-Almost always associated with head injury
-Bleed between arachnoid and dura mater
-Almost always associated parenchymal injury-hemorrhagic contusion
-Prognosis is not so good because of associated with parenchymal injury
-Radiographically showed blood covering along concavity of the brain
112. Cerebrovascular Disorder Chronic subdural hematoma
-May or may not associated with head injury
-Specific patient population-old age,alcoholic,demented and coagulopathic patient
-Non specific symptoms- headache , partial or generalize seizure,mental status change,asymptomatic
-Bleeding from the venous blood bridging vein
113. Cerebrovascular Disorder Chronic subdural hematoma
-Prognosis is not the best- probably due to underlying condition
-Treatment surgical ,if symptomatic
114. Cerebrovascular Disorder Subarachnoid hemorrhage
a)Post traumatic subarachnoid hemorrhage
b)Aneursysmal subarachnoid hemorrhage
c)Subarachnoid hemorrhage from AVM
Need to know AHA guideline for incidental aneurysm
115. Cerebrovascular Disorder Post traumatic subarachnoid hemorrhage
a) History is very important-accident happen before headache
b) Specific locations- frontal/temporal( due to the brain slide on the rough part of the skull) and occipital( due to contre coup)
c) Occasionally associated with hemorrhagic contusion of of the temporal/frontal lobe
d) No specific treatment
e) If in doubt get an angiogram to R/O aneurysm
116. Cerebrovascular Disorder Aneurysmal subarachnoid hemorrhage
Hunt and Hess Scale
Grade I-Asymptomatic or slight headache and stiff neck
Grade II- Mod- severe headache and stiff neck without focal neurological finding
Grade III- Drowsiness,Confusion, with mild neurological deficit
Grade IV- Stupor/semicoma,decerebrate rigidity
Grade V- Deep Coma and decerebrate rigidity
117. Cerebrovascular Disorder Aneurysmal subarachnoid hemorrhage
-Need to know Hunt & Hess scale clinical scale estimated the clinical outcome
-Need to know Fishers scale radiographic scale predict the risk of symptomatic vasospasm
-Aneurysm usually arise around circle of Willis
-Need 4 vessels cerebral angiogram with cross compression because of 20-25 % of patient with SAH has more than one aneurysm and need to evaluate the adequacy of collateral circulation if need to sacrifice the ICA
118. Cerebrovascular Disorder Aneurysmal subarachnoid hemorrhage
Treatment of aneurysm is to exclude aneurysm from the circulation-clipping or coiling
Pre- op BP control,Pain control, laxative and Nimodipine
Post op- Watch for neurological changes- could be due to
1) Vasospasm 2) hydrocephalus 3) Other ongoing medical conditions and 4) less likely rebleeding
119. Cerebrovascular Disorder Aneurysmal subarachnoid hemorrhage
Vasospasm- usually started around day #5 after hemorrhage
-Monitor by TCD- high velocity of MCA and MCA/ICA ratio>3
-Treatment of vasospasm HHH therapy-hypertensive,hemodiluation and hyperdynamic
-If intractable intraarterial papaverine or angioplasty or Pentobarbital coma
120. Cerebrovascular Disorder Aneurysmal subarachnoid hemorrhage
-Radiographic and symptomatic vasospasm
-Nimodipine study The incidence of vasospasm are the same in both groups,but the clinical outcome in Nimodipine group is better. Believe that Nimodipine work at smaller vessels or the cellular level to prevent the ischemic cascade
121. Cerebrovascular Disorder Unruptured aneurysm seen incidentally
What to do ?/ What to do ?
Data from ISUIA( international study for unruptured intracranial aneurysm)
Rate of rupture chiefly depends on size( <10mm 0.005% / year,>10mm 1% /year,>25 mm- 6% for the first year)
Locations- Posterior circulation have greater rate of rupture
MRA is useful as a screening test up to 93% sensitivity compared with cerebral angiogram
122. Cerebrovascular Disorder Unruptured aneurysm seen incidentally
What to do ?/ What to do ?
Cerebral angiogram come with neurological morbidity ~ 0.5%
Special group of patient warrant screening- Coarctation of Aorta,Polycystic Kidney,Type IV Ehlers-Danlos syndrome and familial intracranial aneurysm syndrome
Symptomatic unruptured aneurysm ( eg 3rd palsy) have more risk than truly unruptured aneurysm
123. Cerebrovascular Disorder Unruptured/ Ruptured aneurysm
What to do ?/ What to do ?- AHA recommendation
-Treatment of small incidental intracavernous aneurysm is not generally indicated.Large ones should be individualized
-Symptomatic intradural aneurysm should be considered for treatment with urgency
All remaining aneursym of patient with prior SAH should be considered for treatment
Treatment of small incidental aneurysm without prior SAH are not advised
124. Cerebrovascular Disorder Unruptured/ Ruptured aneurysm
What to do ?/ What to do ?- AHA recommendation
-Treatment is recommend for > 10 mm in size
Need to consider the patient age and coexisting medical problems as well as life span rate of rupture per year and calculate the necessity of treatment
125. Cerebrovascular Disorder Intracerebral hemorrhage
-Hypertensive Hemorrhage- 4 common locations
1)Basal ganglion Caudate/Putaminal be careful A-com aneurysm pointing backward
2) Thalamus 3) Pontine and 4) Cerebellar Hemorrhage
Need to know Charcot Bouchard aneurysm- in the matching section
126. Cerebrovascular Disorder Intracerebral hemorrhage
-Non hypertensive Peripheral located
a) Age ? old consider amyloid angiopathy /Congophillic angiopathy- presented with recurrent lobar hemorrhage and dementia.The most common location of hemorrhage is parietal lobe. Finding under polarized microscope- Birefringent crystral
127. Cerebrovascular Disorder Intracerebral hemorrhage
-Non hypertensive Peripheral located
Age ? old another consideration is bleeding in metastatic tumor
Metastatic tumor likely to go to brain early-Thyroid ,Lungs ,Breast,Renal cell carcinoma ,testicular,Choriocarcinoma ,melanoma and Colon plus GBM( which is primary brain tumor) these types of tumor can manifest by bleeding in the brain
128. Cerebrovascular Disorder Intracerebral hemorrhage
To remember - Paired organ mets to the brain early
Use ovary( which is paired organ link to Choriocarcionoma)
If one wants to remember paired organ + Colon+ Melanoma+ GBM
129. Cerebrovascular Disorder -Intracerebral hemorrhage non hypertensive/non- lobar,doesnt look like tumor and patient is not old
1)Vasculitis underlying connective tissue disease
2)Venous sinus thrombosis- post partum /severe dehydration
3)Drug abuse-Needle track-Cocaine or Heroin
4)Endocarditis Mycotic aneurysm Fever and cardiac murmer
5)Teenager- Diet Pill-Amphetamine/Phenyl Propranolamine
130. Cerebrovascular Disorder Isolated intraventricular hemorrhage-not common
-Vascular anomaly- AVM or aneurysm
-Hypertensive hemorrhage that rupture in ventricular system with minimal blood in the parenchyma
-Coagulopathy
131. Cerebrovascular Disorder Evaluation of Ischemic stroke
-Need to know the etiology of stroke
-The treatment plan tailor according to etiology and need to be addressed accordingly
-Need to evaluate the whole vascular system, if possible
132. Cerebrovascular Disorder Evaluation of Ischemic stroke
Carotid ultrasound and TCD
MRI and MRA both intracranially and extracranially
Transesophageal Echocardiogram
CT angiogram
133. Cerebrovascular Disorder Evaluation of Ischemic stroke
Carotid Ultrasound
Screening test usually give the range of stenosis,use velocity as to predict stenosis
B-Mode is use to identify anatomy and plaque characteristic
Color doppler help locate the location to sample the velocity
d) Use to follow the carotid non- invasively
134. Cerebrovascular Disorder Evaluation of Ischemic stroke
Carotid Ultrasound
Pitfall
Accelerating flow without stenosis-Anemia,hyperthyroidism,Aortic insufficiency ,old patient with tortuousity
Difficult or impossible to differentiate between preocclusion and occlusion-unless Power Doppler is used.
135. Cerebrovascular Disorder Evaluation of Ischemic stroke
Trancranial Doppler
Use Continuous wave doppler to evaluate the velocity of the 1st order of intracranial vessels
10-15 % of the studies are technically limited due to skull thickness and displacement from normal location
Other use including monitoring vasospasm and evaluate the need to do blood exchange in sickle cell disease
136. Cerebrovascular Disorder Evaluation of Ischemic stroke
Trancranial Doppler
Viewing Vessels according to the window
Transtemporal distal ICA, MCA-M1 portion, ACA and PCA- P1 portion
Transorbital- distal ICA,Carotid siphon,Opthalmic artery
Foramen Magnum- vertebral arteries and basilar artery
137. Cerebrovascular Disorder Evaluation of Ischemic stroke
2-D echocardiogram
-Limited sensitivity
-Cant evaluate aortic arch ,which is one of the independent risk factor
- Inadequate sensitivity as a complete evaluation
138. Cerebrovascular Disorder Evaluation of Ischemic stroke
Tranesophageal echocardiogram
-Much superior sensitivity
-Taking advantage of the anatomy of the esophagus lies just behind the left side of the heart and much closer in location,therefore increase ultrasound resolution
-Capable to evaluate aortic arch plaque and LAA
-Not invasive/or expensive as we thought
-2 cases of endocarditis being missed by 2-D echocardiogram
-Role of TEE of asymptomatic CAD
139. Cerebrovascular Disorder Evaluation of Ischemic stroke
MRI
-Evaluated infarcted area esp brain stem .
-Evaluated brain parenchyma at risk
-DWI showed the acute infarction earlier than T2 and FLAIR
-R/O any surprised lesion
140. Cerebrovascular Disorder Evaluation of Ischemic stroke
MRA
-Need to evaluate both extracranial and intracranial vessels
-Intracranial stenosis is another new entity of risk factor
Limitationn of MR
Severe claustophobic
Metallic fragment in head and neck area
Recent stenting either heart or head
Pacemaker and AICD
141. Cerebrovascular Disorder Evaluation of Ischemic stroke
CT angiography
Recent new technology
Use Iodine dye
Small slice of the of each portion of the vessels
143. Cerebrovascular Disorder Evaluation of Ischemic stroke
CT angiography
Limitation
Uncooperative patient
Dye allergy
Time consuming of radiologist
Renal dysfunction
144. Cerebrovascular Disorder Evaluation of Ischemic stroke
Cerebral angiogram
-Gold standard test
-Able to evaluate both intracranial and extracranialvessels
-Give the anatomical data
-Associated with small risk-stroke,groin hematoma etc
-Can discover ostial vertebral artery stenosis- potential risk of stroke
145. Cerebrovascular Disorder Evaluation of Ischemic stroke
Newly identified / less common risk factors of stroke
-Lupus anticoagulant? Anticardiolipin antibody syndrome
-Protein C/S deficiency
-Factor V Leiden Mutation- Activated protein C resistance
-Heterozygote form of Hyperhomocysteine- methionine loading test
-Vasculitis process- either primary or secondary angiitis
146. Cerebrovascular Disorder Treatment of stroke
Acute treatment
a) Thrombolysis- t PA intravenously
2 landmark studies- NINNDS and ECASS
Intraarterial with various medications /time windows- have not been demonstrate successful( doesnt mean they dont work)
Total more than 17 studies- 2 intraarterial and 15 intravenous
consisted total of 5144 Patients
147. Cerebrovascular Disorder Treatment of stroke
Acute treatment
Neuroprotective agents- attack various locations of of ischemic cascades-free radical scarvenger, glutamate antagonist esp NMDA receptor ,Na and Ca channel blockers,ICAM
- Up to 47 studies showed no benefit-doesnt mean they dont work though
148. Cerebrovascular Disorder Treatment of stroke
Primary stroke prevention- the only well known data is AF
SPAF I-compared placebo and anticoagulation( either ASA or coumadin)
The study terminated prior to complete enrollment because of the placebo group got to end point sooner
The data suggest that patient with AF required some type of anticoagulation
This study also identified 3 more risk factors associated with AF including diastolic hypertension,poor LV function and remote history of thromboembolism( more than 3 months)
149. Cerebrovascular Disorder Treatment of stroke- Primary stroke prevention in AF
SPAF II- compared the efficacy of ASA and coumadin at different age group( less than and more than 75 YO)
This study showed coumadin is slightly more effective than ASA in younger age group- but this group of patient has low risk any way
In older age group, coumadin is much more effective than ASA in term of preventing ischemic stroke but after adding the risk of ICH make the beneficial effect marginal.
150. Cerebrovascular Disorder Treatment of stroke- Primary stroke prevention in AF
SPAF III- comparing the efficacy of fixed dose coumadin plus ASA to against adjusted dose of coumadin to keep INR in the good range
The study was terminated early by safety committee because the fixed dose of coumadin plus ASA group reach the primary end point more often and faster.
151. Cerebrovascular Disorder Treatment of stroke- Secondary stroke prevention in AF
The study that worth mentioned is EAFT-European atrial fibrillation trial
The randomization was pretty much similar to SPAF study but the mean age is older and INR level was higher.
The result of the study is the similar to SPAF suggest that coumadin is better than ASA
The risk of intracerebral bleeding in coumadin group is higher and almost eliminate the beneficial effect of prevention from coumadin
152. Cerebrovascular Disorder Treatment of stroke- Meta-analysis of antiplatelet drug trialist comparing various doses of ASA and various different entering criteria and end-points
The meta-analysis showed that ASA reduce the risk of recurrent stroke approximately 25% comparing with placebo
153. Cerebrovascular Disorder Carotid stenosis 2 Major worth mentioned studies
NASCET North American symptomatic carotid endartectomy trial- Secondary prevention
ACAS Asymptomatic Carotid Artery Study-Primary prevention
154. Cerebrovascular Disorder NASCET study
-Symptomatic patient- either TIA or non- disabling stroke
-Comparing best medical treatment and CEA+ best medical treatment
-Relatively low risk patient
-Strict angiographic criteria-not ultrasound nor MRA
-No tandem lesion/R/O cardioembolic source
-Best surgeons in the world with very low morbidity and mortality
155. Cerebrovascular Disorder NASCET study
Less than 50% stenosis Best medical treatment
More than 70 % stenosis Surgery with best medical treatment is better
In between, medical and surgical treatment + medical treatment are equally good.
Subgroup analysis Women do poorer than men, left carotid do poorer than right carotid
Overall the absolute risk reduction is around 25% over 24 months period
156. NASCET�Ipsilateral Stroke (18 Months)
157. Cerebrovascular Disorder ACAS study
-Asymptomatic carotid stenosis
-Very low risk patient
-Over all risk of ipsilateral stroke in the 60% stenosis around 11% over 60 months
-Overall the surgical risk around 5% on the day of surgery
