Abstract. Carotid stenosis is known to be an independent risk factor in the transformation process of mild cognitive impair- ment (MCI) to dementia and is treated by carotid artery stenting

Carotid stenosis is known to be an independent risk factor in the transformation process of mild cognitive impairment (MCI) to dementia and is treated by carotid artery stenting (CAS); however, the effects of CAS on cognitive function are unclear. In this study, 240 patients were prospectively assigned to a CAS or control group according to patient preference and underwent detailed neuropsychological examinations (NPEs) before and 6 months after treatment. Cerebral perfusion was assessed with computed tomography perfusion (CTP). Among the 240 patients included in the study, 208 patients completed NPEs at baseline and 6 months after therapy. The patients in the two groups did not differ with regard to baseline characteristics, educational level, vascular risk factors (VRFs) and NPEs prior to therapy. Significant improvements in the Mini-Mental State Examination (MMSE; before, 24.6±1.7 vs. after, 24.8±1.9; P=0.016), Montreal Cognitive Assessment (MOCA; before, 23.7±1.7 vs. after, 24.1±2.0; P=0.006), Fuld Object Memory Evaluation (FOME; before, 13.8±2.2 vs. after, 14.0±2.3; P=0.031) and Wechsler Adult Intelligence Scale-digital span (WAIS-DS; before, 6.7±2.1 vs. after, 6.9±2.3; P=0.040) were observed in the CAS group; however, improvements were not observed in the control group. Of the 84 patients in the CAS group who received CTP follow-up, 72 (86%) presented improvements in ipsilateral brain perfusion 6 months after the procedure; however, no improvement was observed in the control group. Close correlations were identified between the change in perfusion and the change in MMSE (r=0.575) and MOCA (r=0.574). CAS improves global cognitive function in patients with carotid stenosis and MCI and the improvement of cognition is closely related to the improvement of cerebral perfusion.

[1]  A. Tonkin,et al.  Pattern and significance of cerebral microemboli during coronary artery bypass grafting. , 1998, The Annals of thoracic surgery.

[2]  W. Tseng,et al.  Neurocognitive Improvement After Carotid Artery Stenting in Patients With Chronic Internal Carotid Artery Occlusion and Cerebral Ischemia , 2011, Stroke.

[3]  H. Crystal,et al.  Object-memory evaluation for prospective detection of dementia in normal functioning elderly: predictive and normative data. , 1990, Journal of clinical and experimental neuropsychology.

[4]  I. Reinvang,et al.  Association between intraoperative cerebral microembolic signals and postoperative neuropsychological deficit: comparison between patients with cardiac valve replacement and patients with coronary artery bypass grafting , 1998, Journal of neurology, neurosurgery, and psychiatry.

[5]  A. Algra,et al.  Cognition after carotid endarterectomy or stenting , 2011, Neurology.

[6]  M. Eliasziw,et al.  Analysis of pooled data from the randomised controlled trials of endarterectomy for symptomatic carotid stenosis , 2003, The Lancet.

[7]  H. Mudra,et al.  Carotid artery stenting in octogenarians: results from the ALKK Carotid Artery Stent (CAS) Registry. , 2007, European heart journal.

[8]  J. Price,et al.  Mild cognitive impairment represents early-stage Alzheimer disease. , 2001, Archives of neurology.

[9]  O. Joakimsen,et al.  Reduced neuropsychological test performance in asymptomatic carotid stenosis , 2004, Neurology.

[10]  D. Eidelberg,et al.  Dementia associated with bilateral carotid occlusions: neuropsychological and haemodynamic course after extracranial to intracranial bypass surgery. , 1995, Journal of neurology, neurosurgery, and psychiatry.

[11]  R. Rao,et al.  The role of carotid stenosis in vascular cognitive impairment , 2002, Journal of the Neurological Sciences.

[12]  J. Bacharach,et al.  Protected carotid stenting in high-risk patients with severe carotid artery stenosis. , 2006, Journal of the American College of Cardiology.

[13]  D. Leys,et al.  The Role of Carotid Artery Stenting and Carotid Endarterectomy in Cognitive Performance: A Systematic Review , 2008, Stroke.

[14]  A. Algra,et al.  Asymptomatic Carotid Artery Stenosis and the Risk of New Vascular Events in Patients With Manifest Arterial Disease: The SMART Study , 2007, Stroke.

[15]  A. Hanley,et al.  Carotid Atherosclerosis and a Reduced Likelihood for Lowered Cognitive Performance in a Canadian First Nations Population , 2009, Neuroepidemiology.

[16]  Huadong Zhou,et al.  Study of the relationship between cigarette smoking, alcohol drinking and cognitive impairment among elderly people in China. , 2003, Age and ageing.

[17]  M. Brown,et al.  Comparison of microembolism detected by transcranial Doppler and neuropsychological sequelae of carotid surgery and percutaneous transluminal angioplasty. , 2000, Stroke.

[18]  A. Korner,et al.  The Geriatric Depression Scale and the Cornell Scale for Depression in Dementia. A validity study , 2006, Nordic journal of psychiatry.

[19]  J. Li,et al.  Vascular risk factors promote conversion from mild cognitive impairment to Alzheimer disease , 2011, Neurology.

[20]  Fabrizio Vernieri,et al.  The role of carotid atherosclerosis in Alzheimer's disease progression. , 2011, Journal of Alzheimer's disease : JAD.

[21]  D. Zhou Study on frequency and predictors of dementia after ischemic stroke: the Chongqing Stroke Study , 2006 .

[22]  D. Inzitari,et al.  Carotid Artery Stenting: First Consensus Document of the ICCS-SPREAD Joint Committee , 2006, Stroke.

[23]  Yaakov Stern,et al.  A controlled prospective study of neuropsychological dysfunction following carotid endarterectomy. , 2002, Archives of neurology.

[24]  E. Tangalos,et al.  Mild Cognitive Impairment Clinical Characterization and Outcome , 1999 .

[25]  G. Paulson,et al.  Dementia associated with bilateral carotid artery disease. , 1966, Geriatrics.

[26]  J. Marler,et al.  Measurements of acute cerebral infarction: a clinical examination scale. , 1989, Stroke.

[27]  L. Fried,et al.  Cognitive Impairment and Decline Are Associated with Carotid Artery Disease in Patients without Clinically Evident Cerebrovascular Disease , 2004, Annals of Internal Medicine.

[28]  P. Falkai,et al.  Cognitive changes after carotid artery stenting , 2006, Neuroradiology.

[29]  M. Westerveld,et al.  Cognitive outcomes after carotid revascularization: the role of cerebral emboli and hypoperfusion. , 2008, Neurosurgery.

[30]  C. Caltagirone,et al.  Neuropsychiatric predictors of progression from amnestic-mild cognitive impairment to Alzheimer's disease: the role of depression and apathy. , 2010, Journal of Alzheimer's disease : JAD.

[31]  P. Hofman,et al.  Cerebral hyperperfusion syndrome , 2005, The Lancet Neurology.

[32]  N Butters,et al.  Detection and staging of dementia in Alzheimer's disease. Use of the neuropsychological measures developed for the Consortium to Establish a Registry for Alzheimer's Disease. , 1992, Archives of neurology.

[33]  C. Mathers,et al.  Global prevalence of dementia: a Delphi consensus study , 2005, The Lancet.

[34]  J. Meyer,et al.  Stable Xenon CT CBF Measurements in Prevalent Cerebrovascular Disorders (Stroke) , 1984, Stroke.

[35]  S. Pendlebury,et al.  Underestimation of Cognitive Impairment by Mini-Mental State Examination Versus the Montreal Cognitive Assessment in Patients With Transient Ischemic Attack and Stroke: A Population-Based Study , 2010, Stroke.