Author
Thomas Jeerakathil
Other affiliations: University of New South Wales, University of Saskatchewan, Alberta Health Services ...read more
Bio: Thomas Jeerakathil is an academic researcher from University of Alberta. The author has contributed to research in topics: Stroke & Intracerebral hemorrhage. The author has an hindex of 27, co-authored 97 publications receiving 3188 citations. Previous affiliations of Thomas Jeerakathil include University of New South Wales & University of Saskatchewan.
Papers published on a yearly basis
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TL;DR: These findings provide strong evidence of a vascular basis for WMH, and FSRP and several cardiovascular risk factors were related to both WMHV measured continuously and to a categorical designation of large volumes of WMH.
Abstract: Background and Purpose— Previous studies of cardiovascular risk factors and white matter hyperintensity (WMH) on brain MRI have been limited by the failure to exclude symptomatic cerebrovascular disease and dementia or by the use of semiquantitative rather than quantitative methods to measure WMH volume (WMHV). We examined the relationship between Framingham Stroke Risk Profile (FSRP) and WMHV measured quantitatively in a stroke and dementia-free subset of the Framingham Offspring Cohort. Methods— Brain MRI was performed in 1814 members of the Framingham Offspring Cohort. Pixel-based quantitative measures of WMHV corrected for head size were obtained using a semiautomated algorithm. WMHV was not normally distributed and therefore was log-transformed (LWMHV). The FSRP and its component risk factors measured a mean of 7.5 years before MRI were related to both continuous measures of LWMHV and to the presence of large volumes of LWMHV (LWMHV-large). All analyses were adjusted for age and sex. Results— FSRP wa...
455 citations
TL;DR: Although stroke is common after TIA, the early risk is not predicted by clinical and demographic factors, andidated models to identify which patients require urgent intervention are needed.
Abstract: Background: The risk of stroke is elevated in the first 48 hours after TIA. Previous prognostic models suggest that diabetes mellitus, age, and clinical symptomatology predict stroke. The authors evaluated the magnitude of risk of stroke and predictors of stroke after TIA in an entire population over time. Methods: Administrative data from four different databases were used to define TIA and stroke for the entire province of Alberta for the fiscal year (April 1999–March 2000). The age-adjusted incidence of TIA was estimated using direct standardization to the 1996 Canadian population. The risk of stroke after a diagnosis of TIA in an Alberta emergency room was defined using a Kaplan-Meier survival function. Cox proportional hazards modeling was used to develop adjusted risk estimates. Risk assessment began 24 hours after presentation and therefore the risk of stroke in the first few hours after TIA is not captured by our approach. Results: TIA was reported among 2,285 patients for an emergency room diagnosed, age-adjusted incidence of 68.2 per 100,000 population (95% CI 65.3 to 70.9). The risk of stroke after TIA was 9.5% (95% CI 8.3 to 10.7) at 90 days and 14.5% (95% CI 12.8 to 16.2) at 1 year. The risk of combined stroke, myocardial infarction, or death was 21.8% (95% CI 20.0 to 23.6) at 1 year. Hypertension, diabetes mellitus, and older age predicted stroke at 1 year but not earlier. Conclusions: Although stroke is common after TIA, the early risk is not predicted by clinical and demographic factors. Validated models to identify which patients require urgent intervention are needed.
364 citations
TL;DR: Nerinetide did not improve the proportion of patients achieving good clinical outcomes after endovascular thrombectomy compared with patients receiving placebo, and this trial is registered with ClinicalTrials.gov, NCT02930018.
321 citations
TL;DR: There is a low prevalence of CMBs in the community and a strong relationship with increasing age and male sex, but there are no independent relationships with cardiovascular risk factors, APOE status, brain volumes, or WMH.
Abstract: Background and Purpose—Cerebral microbleeds (CMBs) are areas of low signal intensity on gradient echo T2*-weighted magnetic resonance imaging (T2*MRI) corresponding to hemosiderin deposits in the perivascular space. Microangiopathy from atherosclerosis or amyloid angiopathy might lead to the formation of these lesions; therefore, there may be associations between CMBs and cardiovascular risk factors, APOE allele status, and brain morphology. We examined these relationships in the Framingham Study (FHS). Methods—In 472 subjects from the FHS Offspring and Cohort, we related CMB status to age, sex, systolic blood pressure, total cholesterol and high-density lipoprotein cholesterol (HDL-C) levels, smoking, diabetes, total hemispheric brain volume, white matter hyperintensity volume (WMHV), and APOE allele status. Results—Overall prevalence of CMBs was 4.7%, but CMBs were more prevalent with advanced age and male sex. Blood pressure, brain volume, and WMHV were related to CMBs in crude analysis but not after adjustment for age and sex. There were no significant relationships demonstrated between CMBs and APOE allele status, cholesterol, smoking, or diabetes. Conclusions—There is a low prevalence of CMBs in the community and a strong relationship with increasing age and male sex. We found no independent relationships with cardiovascular risk factors, APOE status, brain volumes, or WMH. (Stroke. 2004;35:1831-1835.)
290 citations
TL;DR: The level of EPCs was significantly correlated with the Framingham coronary risk score (FCRS) and may play a role in the pathophysiology of cerebrovascular disease.
Abstract: Background and Purpose— Endothelial progenitor cells (EPCs) are associated with endothelial repair after ischemia in cardiac or peripheral circulation. There are no reports of EPCs with cerebrovascular disease. We present our experience with EPCs in patients with cerebrovascular disease. Summary of Report— EPC counts differed significantly (P<0.001) between stroke patients (acute stroke: median 4.75 and range 0 to 33; stable stroke: median 7.25 and range 0 to 43) and control subjects (median 15.5 and range 4.3 to 50), independent of age. The level of EPCs was significantly correlated with the Framingham coronary risk score (FCRS) (ρ=−0.349; P=0.002). Conclusions— Similar to cardiac experience, the low EPC levels may play a role in the pathophysiology of cerebrovascular disease.
214 citations
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TL;DR: These guidelines supersede the prior 2007 guidelines and 2009 updates and support the overarching concept of stroke systems of care and detail aspects of stroke care from patient recognition; emergency medical services activation, transport, and triage; through the initial hours in the emergency department and stroke unit.
Abstract: Background and Purpose—The authors present an overview of the current evidence and management recommendations for evaluation and treatment of adults with acute ischemic stroke. The intended audienc...
7,214 citations
TL;DR: The Statistical Update brings together the most up-to-date statistics on heart disease, stroke, other vascular diseases, and their risk factors and presents them in its Heart Disease and Stroke Statistical Update each year.
Abstract: Appendix I: List of Statistical Fact Sheets. URL: http://www.americanheart.org/presenter.jhtml?identifier=2007
We wish to thank Drs Brian Eigel and Michael Wolz for their valuable comments and contributions. We would like to acknowledge Tim Anderson and Tom Schneider for their editorial contributions and Karen Modesitt for her administrative assistance.
Disclosures
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# Summary {#article-title-2}
Each year, the American Heart Association, in conjunction with the Centers for Disease Control and Prevention, the National Institutes of Health, and other government agencies, brings together the most up-to-date statistics on heart disease, stroke, other vascular diseases, and their risk factors and presents them in its Heart Disease and Stroke Statistical Update. The Statistical Update is a valuable resource for researchers, clinicians, healthcare policy makers, media professionals, the lay public, and many others who seek the best national data available on disease …
6,176 citations
TL;DR: This chapter describes the most important sources and the types of data the AHA uses from them and other government agencies to derive the annual statistics in this Update.
Abstract: 1. About These Statistics…e70
2. Cardiovascular Diseases…e72
3. Coronary Heart Disease, Acute Coronary Syndrome, and Angina Pectoris…e89
4. Stroke…e99
5. High Blood Pressure…e111
6. Congenital Cardiovascular Defects…e116
7. Heart Failure…e119
8. Other Cardiovascular Diseases…e122
9. Risk Factor: Smoking/Tobacco Use…e128
10. Risk Factor: High Blood Cholesterol and Other Lipids…e132
11. Risk Factor: Physical Inactivity…e136
12. Risk Factor: Overweight and Obesity…e139
13. Risk Factor: Diabetes Mellitus…e143
14. End-Stage Renal Disease and Chronic Kidney Disease…e149
15. Metabolic Syndrome…e151
16. Nutrition…e153
17. Quality of Care…e155
18. Medical Procedures…e159
19. Economic Cost of Cardiovascular Diseases…e162
20. At-a-Glance Summary Tables…e164
21. Glossary and Abbreviation Guide…e168
Writing Group Disclosures…e171
Appendix I: List of Statistical Fact Sheets:
http://www.americanheart.org/presenter.jhtml?identifier=2007
We thank Drs Robert Adams, Philip Gorelick, Matt Wilson, and Philip Wolf (members of the Statistics Committee or Stroke Statistics Subcommittee); Brian Eigel; Gregg Fonarow; Kathy Jenkins; Gail Pearson; and Michael Wolz for their valuable comments and contributions. We would like to acknowledge Tim Anderson and Tom Schneider for their editorial contributions and Karen Modesitt for her administrative assistance.
# 1. About These Statistics {#article-title-2}
The American Heart Association (AHA) works with the Centers for Disease Control and Prevention’s National Center for Health Statistics (CDC/NCHS); the National Heart, Lung, and Blood Institute (NHLBI); the National Institute of Neurological Disorders and Stroke (NINDS); and other government agencies to derive the annual statistics in this Update. This chapter describes the most important sources and the types of data we use from them. For more details and an alphabetical list of abbreviations, see Chapter 21 of this document, the Glossary and Abbreviation Guide.
The surveys used are:
5,393 citations
TL;DR: Dariush Mozaffarian, Michael E. Mussolino, Graham Nichol, Nina P. Paynter, Wayne D. Sorlie, Randall S. Stafford, Tanya N. Turan, Melanie B. Turner, Nathan D. Turner.
Abstract: Rosamond, Paul D. Sorlie, Randall S. Stafford, Tanya N. Turan, Melanie B. Turner, Nathan D. Dariush Mozaffarian, Michael E. Mussolino, Graham Nichol, Nina P. Paynter, Wayne D. Ariane Marelli, David B. Matchar, Mary M. McDermott, James B. Meigs, Claudia S. Moy, Lackland, Judith H. Lichtman, Lynda D. Lisabeth, Diane M. Makuc, Gregory M. Marcus, John A. Heit, P. Michael Ho, Virginia J. Howard, Brett M. Kissela, Steven J. Kittner, Daniel T. Caroline S. Fox, Heather J. Fullerton, Cathleen Gillespie, Kurt J. Greenlund, Susan M. Hailpern, Todd M. Brown, Mercedes R. Carnethon, Shifan Dai, Giovanni de Simone, Earl S. Ford, Véronique L. Roger, Alan S. Go, Donald M. Lloyd-Jones, Robert J. Adams, Jarett D. Berry, Association 2011 Update : A Report From the American Heart −− Heart Disease and Stroke Statistics
5,311 citations
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01 Feb 2009
TL;DR: This Secret History documentary follows experts as they pick through the evidence and reveal why the plague killed on such a scale, and what might be coming next.
Abstract: Secret History: Return of the Black Death Channel 4, 7-8pm In 1348 the Black Death swept through London, killing people within days of the appearance of their first symptoms. Exactly how many died, and why, has long been a mystery. This Secret History documentary follows experts as they pick through the evidence and reveal why the plague killed on such a scale. And they ask, what might be coming next?
5,234 citations