Learn neurology “stroke by stroke.” C.M.Fisher

1. Learn neurology “stroke by stroke.” C.M.Fisher

2. History • Wepfer was the first in 1658, to recognize the significance of carotid obstruction and its relationship to underlying "fibrous masses" and thrombus. • It was Fisher who, in 1951, recognized that the two basic mechanisms causing focal cerebral ischemia from carotid artery disease were embolization, decreased flow through the carotid arteries, or both. • In 1954, Eastcott et al reported a successful operation on a 66-year-old woman with recurrent transient ischemic attacks (TIAs) and an angiographically defined carotid stenosis.

4. Diagnosis of stroke • The diagnosis of stroke is clinical and depends crucially on an accurate history, taken from the patient,carer or witness. • The neurological symptoms and signs are focal (i.e. neuroanatomically localizing) rather than non-focal • The focal neurological symptoms are negative in quality • The onset of the focal neurological symptoms was sudden • The focal neurological symptoms were maximal at onset (i.e. evolving over minutes in all of the affected body parts) rather than progressive

5. Transient Ischemic Attack (TIA) • Reversible focal dysfunction, usually lasts minutes • Among TIA pts who go to ED: • 5% have stroke in next 2 days • 25% have recurrent event in next 3 months • Stroke risk decreased with proper therapy

6. Reletive Risk (RR)= a/a+b/c/c+d=a(c+d)/c(a+b) • Odds ratio (OR)=a/b/c/d=ad/bc

7. Risk factors • The proportion of ischemic stroke in the population that can be attributed to a particular risk factor is called the attributable risk (AR) . • This equation shows the influence of both relative risk and prevalence of the risk factor on the value of AR.

9. Carotid Artery Stenosias • Patients were classified as symptomatic if they had a carotid distribution TIA or nondisabling stroke in the preceding 6 months • In asymptomatic patients with stenosis < 80% and Aspirin treatment only, there is 1% per year risk of stroke . • The risk of stroke in symptomatic patients treated with antiplatelet therapy alone is thought to be 26% in 2 years. • Population-based studies indicate that the prevalence of carotid stenosis is 0.5% by the sixth decade of life, but increases to 10% by age 80 years • Extracranial internal carotid artery stenosis accounts for 15 to 20% of ischemic strokes

10. Prevention • Absolute risk reduction • Relative risk reduction • Number need to treat • Life expectency • Procedure risk • Subgroup analysis

12. Shall I ……………or shall I not?

13. symptomatic carotid stenosis • North American Symptomatic Carotid Endarterectomy Trial (NASCET) • The European Carotid Surgery Trial (ECST) • The 2-year ipsilateral stroke risk in 70 to 99% stenosis was 26% in the medically treated patients and 9% in the BMT +CE group (p <0 .001). • The absolute risk reduction (ARR) was 17.0% and the number needed to treat (NNT) was six at 2 years. • The greatest benefit found in men, patients above age 75 years, and those randomized within 2 weeks of their last symptomatic event

14. symptomatic carotid stenosis • Benefit for CE was shown for: 50 to 69% stenosis, • ARR of 4.6% (over 5 years), NNT=22. • No benefit in stenosis < 50%

15. symptomatic carotid stenosis • A symptomatic carotid stenosis of 70 to 99 percent is a proven indication for CEA • The surgical risk should not exceed 6 % • The greatest benefit from CEA is likely to be achieved if surgery takes place within two weeks of a nondisabling stroke or TIA. • It is recommended that the patient have at least a 5-year life expectancy. • CEA is acceptable, but with a marginal to moderate degree of benefit, for patients with symptomatic carotid stenosis of 50 to 69 percent (men who have surgery within two weeks of a nondisabling stroke or TIA) • CE should not be considered for symptomatic patients with less than 50% stenosis

16. Asymptomatic carotid disease • The Asymptomatic Carotid Surgery Trial (ACST) • The ACST showed that the net benefit of CEA is delayed • Seventeen patients need to be treated with CEA to prevent 1 stroke over 5 years. • Largest benefit is seen among men aged <65 years.

17. Asymptomatic carotid disease • If CEA is considered for asymptomatic patients, the potential benefit is most likely to be realized in: • medically stable men with stenoses of 60 to 99 (especially 80 to 99)percent • have a life expectancy of at least five years and • treated by surgeons with a demonstrated perioperative complication rate that is less than 3 percent • The evidence supporting CEA in asymptomatic women is less compelling.

18. Carotid artery stenting • CAVATAS: The Carotid Artery Vertebral Artery Transluminal Angioplasty Study (CAVATAS) • SAPPHIRE: The Stenting and Angioplasty with Protection in Patients at High Risk for Endarterectomy (SAPPHIRE) • EVA-3S: Endarterectomy versus Angioplasty in Patients with Symptomatic Severe carotid Stenosis • SPACE: Stent Protected Angioplasty versus Carotid Endarterectomy (SPACE)

19. Risk of any stroke or death (%) within 30 days of treatment

20. Carotid artery stenting • SAPPHIRE trial concluded that, among patients with severe carotid-artery stenosis and coexisting conditions, carotid stenting with the use of an emboli-protection device is not inferior to carotid endarterectomy. • SPACE failed to prove non-inferiority of carotid stenting compared with endarterectomy. • Ongoing trials include the North American CREST trial that is randomizing patients with >50% symptomatic or >70% asymptomatic carotid stenoses and the International Carotid Stenting Study(ICSS or CAVATAS 2), which is randomizing patients with symptomatic >70% carotid stenoses. • While the durability of CEA is known, the long-term risk of restenosis among stented patients is unclear

21. High Surgical Risk • Clinically significant cardiac disease • Contralateral carotid occlusion • Severe pulmonary disease • Contralateral laryngeal-nerve palsy • Previous radical neck surgery or radiation therapy to the neck • Recurrent stenosis after endarterectomy • High cervical lesion or low common carotid lesion poorly accessible by surgery • Severe tandem lesions and intracranial lesions

22. Conclusion • CEA remains the standard of care for patients with severe carotid disease in the absence of concomitant medical or anatomical conditions known to increase the risk of surgery. • High-risk patients may be potential candidates for stenting, as suggested with the SAPPHIRE trial. • CAS is a reasonable option when performed by operators with established peri-procedural morbidity and mortality rates of 4% to 6% • There is no role for stenting in asymptomatic patients at this time