Search

Your search keyword '"Deveber, Gabrielle A"' showing total 1,014 results
Start Over Author "Deveber, Gabrielle A"
1,014 results on '"Deveber, Gabrielle A"'

1. Assessment of MR blood-oxygen-level-dependent (BOLD) cerebrovascular reactivity under general anesthesia in children with moyamoya

Author

Choi, Eun Jung, Levin, David, Robertson, Amanda, Kirkham, Fenella J., Muthusami, Prakash, Krishnan, Pradeep, Shroff, Manohar, Moharir, Mahendranath, Dirks, Peter, MacGregor, Daune, Pulcine, Elizabeth, Bhathal, Ishvinder, Kassner, Andrea, Walker, Kirstin, Allan, Warwick, deVeber, Gabrielle, Logan, William J., and Dlamini, Nomazulu

Published
2024
Full Text
View/download PDF

5. Gene-Targeted Therapies in Pediatric Neurology: Challenges and Opportunities in Diagnosis and Delivery.

Author

Shellhaas, Renée, deVeber, Gabrielle, and Bonkowsky, Joshua

Subjects
Antisense oligonucleotide, Child neurology, Diagnosis, Disparities, Ethics, Gene therapy, Health economics, Rare disease, Child, Gene Targeting, Genetic Therapy, Humans, Nervous System Diseases, Neurology, Pediatrics
Abstract

BACKGROUND: Gene-targeted therapies are becoming a reality for infants and children with diseases of the nervous system. Rapid scientific advances have led to disease-modifying or even curative treatments. However, delays and gaps in diagnosis, inequitable delivery, and the need for long-term surveillance pose unresolved challenges. OBJECTIVE AND METHODS: The goal of the Child Neurology Society Research Committee was to evaluate and provide guidance on the obstacles, opportunities, and uncertainties in gene-targeted therapies for pediatric neurological disease. The Child Neurology Society Research Committee engaged in collaborative, iterative literature review and committee deliberations to prepare this consensus statement. RESULTS: We identified important challenges for gene-targeted therapies that require resource investments, infrastructure development, and strategic planning. Barriers include inequities in diagnosis and delivery of therapies, high costs, and a need for long-term surveillance of efficacy and safety, including systematic tracking of unanticipated effects. Key uncertainties regarding technical aspects and usage of gene-targeted therapies should be addressed, and characterization of new natural histories of diseases will be needed. Counterbalanced with these obstacles and uncertainties is the tremendous potential being demonstrated in treatments and clinical trials of gene-targeted therapies. CONCLUSIONS: Given that gene-targeted therapies for neurological diseases are in their earliest phase, the pediatric neurology community can play a vital role in their guidance and implementation. This role includes facilitating development of infrastructure and guidelines; ensuring efficient, equitable, and ethical implementation of treatments; and advocating for affordable and broad access for all children.

Published
2021

6. A quantitative EEG index for the recognition of arterial ischemic stroke in children

Author

Armstrong, Jennifer, Chavez, Marta, deVeber, Gabrielle, Dlamini, Noma, Dowling, Michael, Felling, Ryan, Fullerton, Heather, Guilliams, Kristin, Hassanein, Sahar, Jordan, Lori, Kirton, Adam, Lefond, Catherine, Lehman, Laura, Mackay, Mark, Pergami, Paola, Rafay, Mubeen, Tatishvili, Nana, Victorio, Maria, Caffarelli, Mauro, Karukonda, Vishnu, Aghaeeaval, Mahsa, McQuillen, Patrick S., Numis, Adam L., Mackay, Mark T., Press, Craig A., Wintermark, Max, Fox, Christine K., and Amorim, Edilberto

Published
2023
Full Text
View/download PDF

7. Pediatric Neurology Research in the Twenty-First Century: Status, Challenges, and Future Directions Post-COVID-19.

Author

Bonkowsky, Joshua L, deVeber, Gabrielle, Kosofsky, Barry E, and Child Neurology Society Research Committee

Subjects
Child Neurology Society Research Committee, Humans, Pneumonia, Viral, Coronavirus Infections, Neurology, Pediatrics, Biomedical Research, Pandemics, Betacoronavirus, COVID-19, SARS-CoV-2, Career, Disparities, Funding, NIH, Neuroscience, Pediatric, Research, Training, Clinical Research, Clinical Trials and Supportive Activities, Prevention, Neurosciences, Good Health and Well Being, Paediatrics and Reproductive Medicine, Neurology & Neurosurgery
Abstract

BackgroundThe year 2020 marked a fundamental shift in the pediatric neurology field. An impressive positive trajectory of advances in patient care and research faced sudden global disruptions by the coronavirus disease 2019 pandemic and by an international movement protesting racial, socioeconomic, and health disparities. The disruptions revealed obstacles and fragility within the pediatric neurology research mission. However, renewed commitment offers unique opportunities for the pediatric neurology research community to enhance and prioritize research directions for the coming decades.MethodsThe Research Committee of the Child Neurology Society evaluated the challenges and opportunities facing the pediatric neurology research field, including reviewing published literature, synthesizing publically available data, and conducting a survey of pediatric neurologists.ResultsWe identified three priority domains for the research mission: funding levels, active guidance, and reducing disparities. Funding levels: to increase funding to match the burden of pediatric neurological disease; to tailor funding mechanisms and strategies to support clinical trial efforts unique to pediatric neurology; and to support investigators across their career trajectory. Active guidance: to optimize infrastructure and strategies, to leverage novel therapeutics, enhance data collection, and improve inclusion of children in clinical trials. Reducing disparities: to reduce health disparities in children with neurological disease, to develop proactive measures to enhance workforce diversity and inclusion, and increase avenues to balance work-life obligations for investigators.ConclusionsIn this uniquely challenging epoch, the pediatric neurology research community has a timely and important mission to re-engage the public and government, advancing the health of children with neurological conditions.

Published
2020

8. Spectrum of cerebral arteriopathies in children with arterial ischemic stroke.

Author

Rafay, Mubeen F, Shapiro, Kevin A, Surmava, Ann-Marie, deVeber, Gabrielle A, Kirton, Adam, Fullerton, Heather J, Amlie-Lefond, Catherine, Weschke, Bernhard, Dlamini, Nomazulu, Carpenter, Jessica L, Mackay, Mark T, Rivkin, Michael, Linds, Alexandra, and Bernard, Timothy J

Subjects
Neurosciences, Stroke, Clinical Research, Brain Disorders, Pediatric, Adolescent, Age of Onset, Aneurysm, Dissecting, Anticoagulants, Brain Ischemia, Cerebral Arterial Diseases, Cerebral Infarction, Child, Child, Preschool, Female, Fibrinolytic Agents, Global Health, Headache, Humans, Infant, Infant, Newborn, Intracranial Aneurysm, Male, Prospective Studies, Recurrence, Registries, Risk Factors, Treatment Outcome, Vasculitis, Central Nervous System, International Pediatric Stroke Study (IPSS) Group, Aortic Dissection, Clinical Sciences, Cognitive Sciences, Neurology & Neurosurgery
Abstract

ObjectiveTo determine that children with arterial ischemic stroke (AIS) due to an identifiable arteriopathy are distinct from those without arteriopathy and that each arteriopathy subtype has unique and recognizable clinical features.MethodsWe report a large, observational, multicenter cohort of children with AIS, age 1 month to 18 years, enrolled in the International Pediatric Stroke Study from 2003 to 2014. Clinical and demographic differences were compared by use of the Fisher exact test, with linear step-up permutation min-p adjustment for multiple comparisons. Exploratory analyses were conducted to evaluate differences between cases of AIS with and without arteriopathy and between arteriopathy subtypes.ResultsOf 2,127 children with AIS, 725 (34%) had arteriopathy (median age 7.45 years). Arteriopathy subtypes included dissection (27%), moyamoya (24.5%), focal cerebral arteriopathy-inflammatory subtype (FCA-i; 15%), diffuse cerebral vasculitis (15%), and nonspecific arteriopathy (18.5%). Children with arteriopathic AIS were more likely to present between 6 and 9 years of age (odds ratio [OR] 1.93, p = 0.029) with headache (OR 1.55, p = 0.023), multiple infarctions (OR 2.05, p < 0.001), sickle cell anemia (OR 2.9, p = 0.007), and head/neck trauma (OR 1.93, p = 0.018). Antithrombotic use and stroke recurrence were higher in children with arteriopathy. Among arteriopathy subtypes, dissection was associated with male sex, older age, headache, and anticoagulant use; FCA-i was associated with hemiparesis and single infarcts; moyamoya was associated with seizures and recurrent strokes; and vasculitis was associated with bilateral infarctions.ConclusionSpecific clinical profiles are associated with cerebral arteriopathies in children with AIS. These observations may be helpful indicators in guiding early diagnosis and defining subgroups who may benefit most from future therapeutic trials.

Published
2020

9. Seizures and Outcome One Year After Neonatal and Childhood Cerebral Sinovenous Thrombosis

Author

Mineyko, Aleksandra, Kirton, Adam, Billinghurst, Lori, Tatishvili, Nana Nino, Wintermark, Max, deVeber, Gabrielle, Fox, Christine, Investigators, SIPS, Abdalla, Abdalla, Zafeiriou, Dimitrios, Friedman, Neil, Aprasidze, Tatia, Kolk, Anneli, Armstrong, Jennifer, Ichord, Rebecca, Amlie-Lefond, Kovacevic, Gordana, Chavez, Marta Hernandez, Mackay, Mark, Titomanlio, Luigi, Guilliams, Kristin, Elbers, Jorina, Fullerton, Heather, Benedict, Susan, Dowling, Michael, Jordan, Lori, and Pergami, Paola

Subjects
Paediatrics, Biomedical and Clinical Sciences, Neurosciences, Minority Health, Neurodegenerative, Brain Disorders, Cerebrovascular, Pediatric, Clinical Research, Stroke, Epilepsy, Prevention, Perinatal Period - Conditions Originating in Perinatal Period, Childhood Injury, Hematology, 2.1 Biological and endogenous factors, 4.2 Evaluation of markers and technologies, Neurological, Adolescent, Anticonvulsants, Child, Child, Preschool, Female, Follow-Up Studies, Humans, Infant, Infant, Newborn, Ischemic Stroke, Male, Outcome Assessment, Health Care, Seizures, Sinus Thrombosis, Intracranial, Pediatric stroke, Cerebral sinovenous thrombosis, Outcomes, SIPS Investigators, Paediatrics and Reproductive Medicine, Neurology & Neurosurgery
Abstract

BackgroundPediatric cerebral sinovenous thrombosis is a treatable cause of brain injury, acute symptomatic seizures, and remote epilepsy. Our objective was to prospectively study epilepsy and outcomes in neonates and children one year after cerebral sinovenous thrombosis diagnosis.MethodsPatients with cerebral sinovenous thrombosis were enrolled prospectively from 21 international sites through the Seizures in Pediatric Stroke Study. Clinical data, including acute symptomatic seizures and cerebral sinovenous thrombosis risk factors, were collected at diagnosis. A neuroradiologist who was unaware of the diagnosis reviewed acute imaging. At one year, outcomes including seizure recurrence, epilepsy diagnosis, antiepileptic drug use, and modified Engel score were collected. Outcomes were assessed using the modified Rankin score and the King's Outcome Scale for Childhood Head Injury.ResultsTwenty-four participants with cerebral sinovenous thrombosis were enrolled (67% male, 21% neonates). Headache was the most common presenting symptom in non-neonates (47%, nine of 19). Nine (37.5%) presented with acute symptomatic seizures. Six (25%; 95% confidence interval, 10% to 47%) developed epilepsy by one-year follow-up. No clinical predictors associated with epilepsy were identified. King's Outcome Scale for Childhood Head Injury and modified Rankin scores at one year were favorable in 71%. Half of the patients who developed epilepsy (three of six) did not have infarcts, hemorrhage, or seizures identified during the acute hospitalization.ConclusionOur study provides a prospective estimate that epilepsy occurs in approximately one-quarter of patients by one year after diagnosis of cerebral sinovenous thrombosis. Later epilepsy can develop in the absence of acute seizures or parenchymal injury associated with the acute presentation.

Published
2020

10. Fronto-Parietal and White Matter Haemodynamics Predict Cognitive Outcome in Children with Moyamoya Independent of Stroke

Author

Choi, Eun Jung, Westmacott, Robyn, Kirkham, Fenella J., Robertson, Amanda, Muthusami, Prakash, Shroff, Manohar, Moharir, Mahendranath, Williams, Tricia, Dirks, Peter, MacGregor, Daune, Slim, Mahmoud, Pulcine, Elizabeth, Bhathal, Ishvinder, Kaseka, Matsanga Leyila, Kassner, Andrea, Logan, William, deVeber, Gabrielle, and Dlamini, Nomazulu

Published
2022
Full Text
View/download PDF

11. The development of the pediatric stroke neuroimaging platform (PEDSNIP)

Author

Domi, Trish, Robertson, Amanda, Lee, Wayne, Wintle, Richard F., Stence, Nicholas, Bernard, Timothy, Kirton, Adam, Carlson, Helen, Andrade, Andrea, Rafay, Mubeen F., Bjornson, Bruce, Kim, Danny, Dowling, Michael, Bonnett, Wilmot, Rivkin, Michael, Krishnan, Pradeep, Shroff, Manohar, Ertl-Wagner, Birgit, Strother, Stephen, Arnott, Steven, Wintermark, Max, Kassner, Andrea, deVeber, Gabrielle, and Dlamini, Nomazulu

Published
2023
Full Text
View/download PDF

12. Management of Stroke in Neonates and Children: A Scientific Statement From the American Heart Association/American Stroke Association

Author

Ferriero, Donna M, Fullerton, Heather J, Bernard, Timothy J, Billinghurst, Lori, Daniels, Stephen R, DeBaun, Michael R, deVeber, Gabrielle, Ichord, Rebecca N, Jordan, Lori C, Massicotte, Patricia, Meldau, Jennifer, Roach, E Steve, Smith, Edward R, and Nursing, on behalf of the American Heart Association Stroke Council and Council on Cardiovascular and Stroke

Subjects
Epidemiology, Biomedical and Clinical Sciences, Health Sciences, Rare Diseases, Brain Disorders, Pediatric, Clinical Research, Stroke, Neurosciences, Hematology, Cardiovascular, Good Health and Well Being, Adolescent, American Heart Association, Association, Brain Ischemia, Child, Child, Preschool, Humans, Incidence, Infant, Infant, Newborn, Pediatrics, United States, AHA Scientific Statements, cerebrovascular accident, genetics, infarction, perinatal care, thrombosis, American Heart Association Stroke Council and Council on Cardiovascular and Stroke Nursing, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurology & Neurosurgery, Clinical sciences, Allied health and rehabilitation science
Abstract

Purpose- Much has transpired since the last scientific statement on pediatric stroke was published 10 years ago. Although stroke has long been recognized as an adult health problem causing substantial morbidity and mortality, it is also an important cause of acquired brain injury in young patients, occurring most commonly in the neonate and throughout childhood. This scientific statement represents a synthesis of data and a consensus of the leading experts in childhood cardiovascular disease and stroke. Methods- Members of the writing group were appointed by the American Heart Association Stroke Council's Scientific Statement Oversight Committee and the American Heart Association's Manuscript Oversight Committee and were chosen to reflect the expertise of the subject matter. The writers used systematic literature reviews, references to published clinical and epidemiology studies, morbidity and mortality reports, clinical and public health guidelines, authoritative statements, personal files, and expert opinion to summarize existing evidence and to indicate gaps in current knowledge. This scientific statement is based on expert consensus considerations for clinical practice. Results- Annualized pediatric stroke incidence rates, including both neonatal and later childhood stroke and both ischemic and hemorrhagic stroke, range from 3 to 25 per 100 000 children in developed countries. Newborns have the highest risk ratio: 1 in 4000 live births. Stroke is a clinical syndrome. Delays in diagnosis are common in both perinatal and childhood stroke but for different reasons. To develop new strategies for prevention and treatment, disease processes and risk factors that lead to pediatric stroke are discussed here to aid the clinician in rapid diagnosis and treatment. The many important differences that affect the pathophysiology and treatment of childhood stroke are discussed in each section. Conclusions- Here we provide updates on perinatal and childhood stroke with a focus on the subtypes, including arterial ischemic, venous thrombotic, and hemorrhagic stroke, and updates in regard to areas of childhood stroke that have not received close attention such as sickle cell disease. Each section is highlighted with considerations for clinical practice, attendant controversies, and knowledge gaps. This statement provides the practicing provider with much-needed updated information in this field.

Published
2019

13. Global, Regional, and Country-Specific Lifetime Risks of Stroke, 1990 and 2016

Author

Feigin, Valery L, Nguyen, Grant, Cercy, Kelly, Johnson, Catherine O, Alam, Tahiya, Parmar, Priyakumari G, Abajobir, Amanuel A, Abate, Kalkidan H, Abd-Allah, Foad, Abejie, Ayenew N, Abyu, Gebre Y, Ademi, Zanfina, Agarwal, Gina, Ahmed, Muktar B, Akinyemi, Rufus O, Al-Raddadi, Rajaa, Aminde, Leopold N, Amlie-Lefond, Catherine, Ansari, Hossein, Asayesh, Hamid, Asgedom, Solomon W, Atey, Tesfay M, Ayele, Henok T, Banach, Maciej, Banerjee, Amitava, Barac, Aleksandra, Barker-Collo, Suzanne L, Bärnighausen, Till, Barregard, Lars, Basu, Sanjay, Bedi, Neeraj, Behzadifar, Masoud, Béjot, Yannick, Bennett, Derrick A, Bensenor, Isabela M, Berhe, Derbew F, Boneya, Dube J, Brainin, Michael, Campos-Nonato, Ismael R, Caso, Valeria, Castañeda-Orjuela, Carlos A, Rivas, Jacquelin C, Catalá-López, Ferrán, Christensen, Hanne, Criqui, Michael H, Damasceno, Albertino, Dandona, Lalit, Dandona, Rakhi, Davletov, Kairat, de Courten, Barbora, deVeber, Gabrielle, Dokova, Klara, Edessa, Dumessa, Endres, Matthias, Faraon, Emerito JA, Farvid, Maryam S, Fischer, Florian, Foreman, Kyle, Forouzanfar, Mohammad H, Gall, Seana L, Gebrehiwot, Tsegaye T, Geleijnse, Johanna M, Gillum, Richard F, Giroud, Maurice, Goulart, Alessandra C, Gupta, Rahul, Gupta, Rajeev, Hachinski, Vladimir, Hamadeh, Randah R, Hankey, Graeme J, Hareri, Habtamu A, Havmoeller, Rasmus, Hay, Simon I, Hegazy, Mohamed I, Hibstu, Desalegn T, James, Spencer L, Jeemon, Panniyammakal, John, Denny, Jonas, Jost B, Jóźwiak, Jacek, Kalani, Rizwan, Kandel, Amit, Kasaeian, Amir, Kengne, Andre P, Khader, Yousef S, Khan, Abdur R, Khang, Young-Ho, Khubchandani, Jagdish, Kim, Daniel, Kim, Yun J, Kivimaki, Mika, Kokubo, Yoshihiro, Kolte, Dhaval, Kopec, Jacek A, Kosen, Soewarta, Kravchenko, Michael, Krishnamurthi, Rita, Kumar, G Anil, Lafranconi, Alessandra, and Lavados, Pablo M

Subjects
Aging, Brain Disorders, Stroke, Prevention, Aetiology, 2.4 Surveillance and distribution, Good Health and Well Being, Adult, Age Distribution, Aged, Aged, 80 and over, Cause of Death, Female, Global Burden of Disease, Global Health, Humans, Incidence, Male, Middle Aged, Risk, Sex Distribution, Socioeconomic Factors, GBD 2016 Lifetime Risk of Stroke Collaborators, Medical and Health Sciences, General & Internal Medicine
Abstract

BackgroundThe lifetime risk of stroke has been calculated in a limited number of selected populations. We sought to estimate the lifetime risk of stroke at the regional, country, and global level using data from a comprehensive study of the prevalence of major diseases.MethodsWe used the Global Burden of Disease (GBD) Study 2016 estimates of stroke incidence and the competing risks of death from any cause other than stroke to calculate the cumulative lifetime risks of first stroke, ischemic stroke, or hemorrhagic stroke among adults 25 years of age or older. Estimates of the lifetime risks in the years 1990 and 2016 were compared. Countries were categorized into quintiles of the sociodemographic index (SDI) used in the GBD Study, and the risks were compared across quintiles. Comparisons were made with the use of point estimates and uncertainty intervals representing the 2.5th and 97.5th percentiles around the estimate.ResultsThe estimated global lifetime risk of stroke from the age of 25 years onward was 24.9% (95% uncertainty interval, 23.5 to 26.2); the risk among men was 24.7% (95% uncertainty interval, 23.3 to 26.0), and the risk among women was 25.1% (95% uncertainty interval, 23.7 to 26.5). The risk of ischemic stroke was 18.3%, and the risk of hemorrhagic stroke was 8.2%. In high-SDI, high-middle-SDI, and low-SDI countries, the estimated lifetime risk of stroke was 23.5%, 31.1% (highest risk), and 13.2% (lowest risk), respectively; the 95% uncertainty intervals did not overlap between these categories. The highest estimated lifetime risks of stroke according to GBD region were in East Asia (38.8%), Central Europe (31.7%), and Eastern Europe (31.6%), and the lowest risk was in eastern sub-Saharan Africa (11.8%). The mean global lifetime risk of stroke increased from 22.8% in 1990 to 24.9% in 2016, a relative increase of 8.9% (95% uncertainty interval, 6.2 to 11.5); the competing risk of death from any cause other than stroke was considered in this calculation.ConclusionsIn 2016, the global lifetime risk of stroke from the age of 25 years onward was approximately 25% among both men and women. There was geographic variation in the lifetime risk of stroke, with the highest risks in East Asia, Central Europe, and Eastern Europe. (Funded by the Bill and Melinda Gates Foundation.).

Published
2018

14. Global, Regional, and Country-Specific Lifetime Risks of Stroke, 1990 and 2016.

Author

GBD 2016 Lifetime Risk of Stroke Collaborators, Feigin, Valery L, Nguyen, Grant, Cercy, Kelly, Johnson, Catherine O, Alam, Tahiya, Parmar, Priyakumari G, Abajobir, Amanuel A, Abate, Kalkidan H, Abd-Allah, Foad, Abejie, Ayenew N, Abyu, Gebre Y, Ademi, Zanfina, Agarwal, Gina, Ahmed, Muktar B, Akinyemi, Rufus O, Al-Raddadi, Rajaa, Aminde, Leopold N, Amlie-Lefond, Catherine, Ansari, Hossein, Asayesh, Hamid, Asgedom, Solomon W, Atey, Tesfay M, Ayele, Henok T, Banach, Maciej, Banerjee, Amitava, Barac, Aleksandra, Barker-Collo, Suzanne L, Bärnighausen, Till, Barregard, Lars, Basu, Sanjay, Bedi, Neeraj, Behzadifar, Masoud, Béjot, Yannick, Bennett, Derrick A, Bensenor, Isabela M, Berhe, Derbew F, Boneya, Dube J, Brainin, Michael, Campos-Nonato, Ismael R, Caso, Valeria, Castañeda-Orjuela, Carlos A, Rivas, Jacquelin C, Catalá-López, Ferrán, Christensen, Hanne, Criqui, Michael H, Damasceno, Albertino, Dandona, Lalit, Dandona, Rakhi, Davletov, Kairat, de Courten, Barbora, deVeber, Gabrielle, Dokova, Klara, Edessa, Dumessa, Endres, Matthias, Faraon, Emerito JA, Farvid, Maryam S, Fischer, Florian, Foreman, Kyle, Forouzanfar, Mohammad H, Gall, Seana L, Gebrehiwot, Tsegaye T, Geleijnse, Johanna M, Gillum, Richard F, Giroud, Maurice, Goulart, Alessandra C, Gupta, Rahul, Gupta, Rajeev, Hachinski, Vladimir, Hamadeh, Randah R, Hankey, Graeme J, Hareri, Habtamu A, Havmoeller, Rasmus, Hay, Simon I, Hegazy, Mohamed I, Hibstu, Desalegn T, James, Spencer L, Jeemon, Panniyammakal, John, Denny, Jonas, Jost B, Jóźwiak, Jacek, Kalani, Rizwan, Kandel, Amit, Kasaeian, Amir, Kengne, Andre P, Khader, Yousef S, Khan, Abdur R, Khang, Young-Ho, Khubchandani, Jagdish, Kim, Daniel, Kim, Yun J, Kivimaki, Mika, Kokubo, Yoshihiro, Kolte, Dhaval, Kopec, Jacek A, Kosen, Soewarta, Kravchenko, Michael, Krishnamurthi, Rita, Kumar, G Anil, and Lafranconi, Alessandra

Subjects
GBD 2016 Lifetime Risk of Stroke Collaborators, Humans, Incidence, Cause of Death, Risk, Age Distribution, Sex Distribution, Socioeconomic Factors, Adult, Aged, Aged, 80 and over, Middle Aged, Female, Male, Stroke, Global Health, Global Burden of Disease, Brain Disorders, Aging, Prevention, 2.4 Surveillance and distribution, General & Internal Medicine, Medical and Health Sciences
Abstract

BackgroundThe lifetime risk of stroke has been calculated in a limited number of selected populations. We sought to estimate the lifetime risk of stroke at the regional, country, and global level using data from a comprehensive study of the prevalence of major diseases.MethodsWe used the Global Burden of Disease (GBD) Study 2016 estimates of stroke incidence and the competing risks of death from any cause other than stroke to calculate the cumulative lifetime risks of first stroke, ischemic stroke, or hemorrhagic stroke among adults 25 years of age or older. Estimates of the lifetime risks in the years 1990 and 2016 were compared. Countries were categorized into quintiles of the sociodemographic index (SDI) used in the GBD Study, and the risks were compared across quintiles. Comparisons were made with the use of point estimates and uncertainty intervals representing the 2.5th and 97.5th percentiles around the estimate.ResultsThe estimated global lifetime risk of stroke from the age of 25 years onward was 24.9% (95% uncertainty interval, 23.5 to 26.2); the risk among men was 24.7% (95% uncertainty interval, 23.3 to 26.0), and the risk among women was 25.1% (95% uncertainty interval, 23.7 to 26.5). The risk of ischemic stroke was 18.3%, and the risk of hemorrhagic stroke was 8.2%. In high-SDI, high-middle-SDI, and low-SDI countries, the estimated lifetime risk of stroke was 23.5%, 31.1% (highest risk), and 13.2% (lowest risk), respectively; the 95% uncertainty intervals did not overlap between these categories. The highest estimated lifetime risks of stroke according to GBD region were in East Asia (38.8%), Central Europe (31.7%), and Eastern Europe (31.6%), and the lowest risk was in eastern sub-Saharan Africa (11.8%). The mean global lifetime risk of stroke increased from 22.8% in 1990 to 24.9% in 2016, a relative increase of 8.9% (95% uncertainty interval, 6.2 to 11.5); the competing risk of death from any cause other than stroke was considered in this calculation.ConclusionsIn 2016, the global lifetime risk of stroke from the age of 25 years onward was approximately 25% among both men and women. There was geographic variation in the lifetime risk of stroke, with the highest risks in East Asia, Central Europe, and Eastern Europe. (Funded by the Bill and Melinda Gates Foundation.).

Published
2018

15. Families as partners in neonatal neuro-critical care programs.

Author

Bansal, Simran, Molloy, Eleanor J., Rogers, Elizabeth, Bidegain, Margarita, Pilon, Betsy, Hurley, Tim, Lemmon, Monica E., Bonifacio, Sonia, Wintermark, Pia, Aly, Hany, Boardman, James, McCaul, Melisa Carrasco, Chau, Vann, deVeber, Gabrielle, Gano, Dawn, Glass, Hannah, Lemmon, Monica, Pardo, Andrea, Peeples, Eric, and Wusthoff, Courtney

Published
2024
Full Text
View/download PDF

17. Focal Cerebral Arteriopathy of Childhood

Author

Fullerton, Heather J, Stence, Nicholas, Hills, Nancy K, Jiang, Bin, Amlie-Lefond, Catherine, Bernard, Timothy J, Friedman, Neil R, Ichord, Rebecca, Mackay, Mark T, Rafay, Mubeen F, Chabrier, Stéphane, Steinlin, Maja, Elkind, Mitchell SV, deVeber, Gabrielle A, and Wintermark, Max

Subjects
Allied Health and Rehabilitation Science, Biomedical and Clinical Sciences, Health Sciences, Pediatric, Brain Disorders, Stroke, Neurosciences, Adolescent, Anterior Cerebral Artery, Brain Infarction, Carotid Artery, Internal, Carotid Stenosis, Cerebral Angiography, Cerebral Arterial Diseases, Child, Child, Preschool, Computed Tomography Angiography, Disease Progression, Female, Humans, Infant, Magnetic Resonance Angiography, Male, Middle Cerebral Artery, Posterior Cerebral Artery, Severity of Illness Index, brain ischemia, cerebrovascular disorders, child, follow-up studies, humans, VIPS Investigators, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurology & Neurosurgery, Clinical sciences, Allied health and rehabilitation science
Abstract

Background and Purpose- Focal cerebral arteriopathy (FCA)-a common cause of arterial ischemic stroke in previously healthy children-often progresses over days to weeks, increasing the risk of recurrent stroke. We developed a novel severity scoring system designed to quantify FCA progression and correlate with clinical outcomes. Methods- The VIPS study (Vascular Effects of Infection in Pediatric Stroke) prospectively enrolled 355 children with arterial ischemic stroke (2010-2014), including 41 with centrally confirmed FCA. Two neuroradiologists independently reviewed FCA cerebrovascular imaging, assigning a graded severity score of zero (no involvement) to 4 (occlusion) to individual arterial segments. The FCA severity score (FCASS) was the unweighted sum. In an iterative process, we modeled scores derived from different combinations of arterial segments to identify the model that optimized correlation with clinical outcome, simplicity, and reliability. Results- The optimal FCASS summed scores from 5 arterial segments: supraclinoid internal carotid artery, A1, A2, M1, and M2. The median (interquartile range) baseline FCASS was 4 (2-6). Of 33 children with follow-up imaging, the maximum FCASS (at any time point) was 7 (5-9). Twenty-four (73%) had FCA progression on follow-up with their maximum FCASS at a median of 8 (5-35.5) days poststroke; their median FCASS increase was 4 (2.5-6). FCASS did not correlate with recurrent arterial ischemic stroke. Maximum (but not baseline) FCASS correlated with 1-year pediatric stroke outcome measures ( P=0.037). Conclusions- Our novel scoring system for FCA severity correlates with neurological outcomes in the VIPS cohort and provides a tool for FCA treatment trials under development.

Published
2018

18. Children with post-stroke epilepsy have poorer outcomes one year after stroke

Author

Fox, Christine K, Jordan, Lori C, Beslow, Lauren A, Armstrong, Jennifer, Mackay, Mark T, and deVeber, Gabrielle

Subjects
Health Services and Systems, Biomedical and Clinical Sciences, Health Sciences, Neurosciences, Rehabilitation, Clinical Research, Epilepsy, Stroke, Neurodegenerative, Brain Disorders, Pediatric, Adolescent, Brain Ischemia, Child, Child, Preschool, Female, Follow-Up Studies, Humans, Infant, Infant, Newborn, Male, Prospective Studies, Risk Factors, Young Adult, Ischemic stroke, risk factors, seizures, pediatric, outcomes, neurology, Clinical Sciences, Neurology & Neurosurgery, Clinical sciences, Allied health and rehabilitation science
Abstract

Background Epilepsy is a common complication of pediatric stroke. Aim In this study, we aim to measure the association between epilepsy and neurologic outcome after childhood arterial ischemic stroke. Methods Prospective cohort study of children (29 days-19 years) enrolled after an acute arterial ischemic stroke at 21 international pediatric stroke centers and followed to identify epilepsy. One year post-stroke, outcomes were scored using the examination-based Pediatric Stroke Outcome Measure (range = 0-10); higher values reflect greater disability. Ordinal logistic regression was used to measure the association of Pediatric Stroke Outcome Measure scores (categorized as 0-1, 1.5-3, 3.5-6, 6.5-10) with epilepsy. Results Investigators enrolled 86 children (median age = 6.1 years, interquartile range (IQR) = 1.4-12.2 years) with acute stroke. At 1 year, 18/80 (23%) remained on an anticonvulsant including 8/80 (10%) with epilepsy. Among the 70 with Pediatric Stroke Outcome Measure scored, the median was 0.5 (IQR = 0-1.5) for children without epilepsy ( n = 63), and 6 (IQR = 0.5-10) for children with epilepsy ( n = 7). In univariable analyses, poorer 1-year outcome was associated with middle cerebral artery stroke, cortical infarcts, hemorrhagic transformation, hospital disposition not to home, and epilepsy. In multivariable analysis, middle cerebral artery stroke (odds ratio (OR) = 4.9, 95% confidence intervals (CI) = 1.1-21.3) and epilepsy (OR = 24.1, CI = 1.5-380) remained associated with poorer outcome. Conclusions Children who developed epilepsy during the first year post-stroke had poorer neurologic outcomes than those without epilepsy.

Published
2018

19. Socioeconomic determinants of outcome after childhood arterial ischemic stroke

Author

Jordan, Lori C, Hills, Nancy K, Fox, Christine K, Ichord, Rebecca N, Pergami, Paola, deVeber, Gabrielle A, Fullerton, Heather J, and Lo, Warren

Subjects
Neurosciences, Clinical Research, Stroke, Brain Disorders, Pediatric, Physical Rehabilitation, Behavioral and Social Science, Rehabilitation, Adolescent, Brain Ischemia, Child, Child, Preschool, Female, Humans, Income, Infant, Male, Prospective Studies, Social Class, Socioeconomic Factors, Treatment Outcome, VIPS Investigators, Clinical Sciences, Cognitive Sciences, Neurology & Neurosurgery
Abstract

ObjectiveTo determine whether lower socioeconomic status (SES) is associated with worse 1-year neurologic outcomes and reduced access to rehabilitation services in children with arterial ischemic stroke (AIS).MethodsFrom 2010 to 2014, the Vascular effects of Infection in Pediatric Stroke (VIPS) observational study prospectively enrolled and confirmed 355 children (age 29 days-18 years) with AIS at 37 international centers. SES markers measured via parental interview included annual household income (US dollars) at the time of enrollment, maternal education level, and rural/suburban/urban residence. Receipt of rehabilitation services was measured by parental report. Pediatric Stroke Outcome Measure scores were categorized as 0 to 1, 1.5 to 3, 3.5 to 6, and 6.5 to 10. Univariate and multivariable ordinal logistic regression models examined potential predictors of outcome.ResultsAt 12 ± 3 months after stroke, 320 children had documented outcome measurements, including 15 who had died. In univariate analysis, very low income (p = 0.004). In multivariable analysis, including adjustment for stroke etiology, this association persisted (OR 3.17, 95% CI 1.18-8.47, p = 0.02). Income did not correlate with receiving rehabilitation services at 1 year after stroke; however, quality and quantity of services were not assessed.ConclusionsIn a large, multinational, prospective cohort of children with AIS, low income was associated with worse neurologic outcomes compared to higher income levels. This difference was not explained by stroke type, neurologic comorbidities, or reported use of rehabilitation services. The root causes of this disparity are not clear and warrant further investigation.

Published
2018

23. Parvovirus B19 Infection in Children With Arterial Ischemic Stroke

Author

Fullerton, Heather J, Luna, Jorge M, Wintermark, Max, Hills, Nancy K, Tokarz, Rafal, Li, Ying, Glaser, Carol, DeVeber, Gabrielle A, Lipkin, W Ian, and Elkind, Mitchell SV

Subjects
Pediatric, Brain Disorders, Prevention, Stroke, Neurosciences, Infectious Diseases, 2.1 Biological and endogenous factors, Aetiology, Infection, Adolescent, Brain Ischemia, Case-Control Studies, Child, Child, Preschool, Female, Humans, Infant, Male, Parvoviridae Infections, Parvovirus B19, Human, Pilot Projects, case-control studies, carotid artery, internal, heart diseases, middle cerebral artery, parvovirus B19, human, polymerase chain reaction. stroke, VIPS Investigators*, case–control studies, polymerase chain reaction, stroke, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurology & Neurosurgery
Abstract

Background and purposeCase-control studies suggest that acute infection transiently increases the risk of childhood arterial ischemic stroke. We hypothesized that an unbiased pathogen discovery approach utilizing MassTag-polymerase chain reaction would identify pathogens in the blood of childhood arterial ischemic stroke cases.MethodsThe multicenter international VIPS study (Vascular Effects of Infection in Pediatric Stroke) enrolled arterial ischemic stroke cases, and stroke-free controls, aged 29 days through 18 years. Parental interview included questions on recent infections. In this pilot study, we used MassTag-polymerase chain reaction to test the plasma of the first 161 cases and 34 controls enrolled for a panel of 28 common bacterial and viral pathogens.ResultsPathogen DNA was detected in no controls and 14 cases (8.7%): parvovirus B19 (n=10), herpesvirus 6 (n=2), adenovirus (n=1), and rhinovirus 6C (n=1). Parvovirus B19 infection was confirmed by serologies in all 10; infection was subclinical in 8. Four cases with parvovirus B19 had underlying congenital heart disease, whereas another 5 had a distinct arteriopathy involving a long-segment stenosis of the distal internal carotid and proximal middle cerebral arteries.ConclusionsUsing MassTag-polymerase chain reaction, we detected parvovirus B19-a virus known to infect erythrocytes and endothelial cells-in some cases of childhood arterial ischemic stroke. This approach can generate new, testable hypotheses about childhood stroke pathogenesis.

Published
2017

24. Harnessing Neuroimaging Capability in Pediatric Stroke: Proceedings of the Stroke Imaging Laboratory for Children Workshop

Author

Dlamini, Nomazulu, Wintermark, Max, Fullerton, Heather, Strother, Stephen, Lee, Wayne, Bjornson, Bruce, Guilliams, Kristin P, Miller, Steven, Kirton, Adam, Filippi, Christopher G, Linds, Alexandra, Askalan, Rand, and deVeber, Gabrielle

Subjects
Paediatrics, Biomedical and Clinical Sciences, Neurosciences, Stroke, Brain Disorders, Pediatric, Biomedical Imaging, Animals, Brain, Child, Humans, Magnetic Resonance Imaging, Neuroimaging, Pediatrics, pediatric, stroke, neuroimaging, MRI, diffusion, perfusion, cerebrovascular reactivity, Paediatrics and Reproductive Medicine, Neurology & Neurosurgery
Abstract

On June 5, 2015 the International Pediatric Stroke Study and the Stroke Imaging Laboratory for Children cohosted a unique workshop focused on developing neuroimaging research in pediatric stroke. Pediatric neurologists, neuroradiologists, interventional neuroradiologists, physicists, nurse practitioners, neuropsychologists, and imaging research scientists from around the world attended this one-day meeting. Our objectives were to (1) establish a group of experts to collaborate in advancing pediatric neuroimaging for stroke, (2) develop consensus clinical and research magnetic resonance imaging protocols for pediatric stroke patients, and (3) develop imaging-based research strategies in pediatric ischemic stroke. This article provides a summary of the meeting proceedings focusing on identified challenges and solutions and outcomes from the meeting. Further details on the workshop contents and outcomes are provided in three additional articles in the current issue of Pediatric Neurology.

Published
2017

25. Prolonged or recurrent acute seizures after pediatric arterial ischemic stroke are associated with increasing epilepsy risk

Author

Fox, Christine K, Mackay, Mark T, Dowling, Michael M, Pergami, Paola, Titomanlio, Luigi, Deveber, Gabrielle, and Investigators, the SIPS

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Neurosciences, Brain Disorders, Pediatric, Neurodegenerative, Clinical Research, Stroke, Epilepsy, Management of diseases and conditions, 7.3 Management and decision making, Adolescent, Age Factors, Brain Ischemia, Child, Child, Preschool, Female, Follow-Up Studies, Humans, Infant, Infant, Newborn, Male, Online Systems, Recurrence, Risk Factors, SIPS Investigators, Medical and Health Sciences, Pediatrics, Biomedical and clinical sciences, Health sciences, Psychology
Abstract

AimTo determine epilepsy risk factors after pediatric stroke.MethodA cohort of children with arterial ischemic stroke (birth-18y) was enrolled at 21 centers and followed for 1 year. Acute seizures (≤7d after stroke) and active epilepsy (at least one unprovoked remote seizure plus maintenance anticonvulsant at 1y) were identified. Predictors were determined using logistic regression.ResultsAmong 114 patients (28 neonates and 86 children) enrolled, 26 neonates (93%) and 32 children (37%) had an acute seizure. Acute seizures lasted longer than 5 minutes in 23 patients (40%) and were frequently recurrent: 33 (57%) had 2 to 10 seizures and 11 (19%) had more than 10. Among 109 patients with 1-year follow-up, 11 (10%) had active epilepsy. For each year younger, active epilepsy was 20% more likely (odds ratio [OR] 0.8, 95% confidence interval [CI] 0.6-0.99, p=0.041). Prolonged or recurrent acute seizures also increased epilepsy risk. Each additional 10 minutes of the longest acute seizure increased epilepsy risk fivefold (OR 4.7, 95% CI 1.7-13). Patients with more than 10 acute seizures had a 30-fold increased epilepsy risk (OR 30, 95% CI 2.9-305).InterpretationPediatric stroke survivors, especially younger children, have a high risk of epilepsy 1 year after stroke. Prolonged or recurrent acute seizures increase epilepsy risk in a dose-dependent manner.

Published
2017

26. Neuroprotective therapies in the NICU in preterm infants: present and future (Neonatal Neurocritical Care Series)

Author

Child Health, MS Neonatologie, Brain, Molloy, Eleanor J., El-Dib, Mohamed, Soul, Janet, Juul, Sandra, Gunn, Alistair J., Bender, Manon, Gonzalez, Fernando, Bearer, Cynthia, Wu, Yvonne, Robertson, Nicola J., Cotton, Mike, Branagan, Aoife, Hurley, Tim, Tan, Sidhartha, Laptook, Abbot, Austin, Topun, Mohammad, Khorshid, Rogers, Elizabeth, Luyt, Karen, Wintermark, Pia, Bonifacio, Sonia Lomeli, Aly, Hany, Chau, Vann, Glass, Hannah, Lemmon, Monica, Wusthoff, Courtney, deVeber, Gabrielle, Pardo, Andrea, Carrasco, Melisa, Boardman, James, Gano, Dawn, Peeples, Eric, Child Health, MS Neonatologie, Brain, Molloy, Eleanor J., El-Dib, Mohamed, Soul, Janet, Juul, Sandra, Gunn, Alistair J., Bender, Manon, Gonzalez, Fernando, Bearer, Cynthia, Wu, Yvonne, Robertson, Nicola J., Cotton, Mike, Branagan, Aoife, Hurley, Tim, Tan, Sidhartha, Laptook, Abbot, Austin, Topun, Mohammad, Khorshid, Rogers, Elizabeth, Luyt, Karen, Wintermark, Pia, Bonifacio, Sonia Lomeli, Aly, Hany, Chau, Vann, Glass, Hannah, Lemmon, Monica, Wusthoff, Courtney, deVeber, Gabrielle, Pardo, Andrea, Carrasco, Melisa, Boardman, James, Gano, Dawn, and Peeples, Eric

Published
2024

29. Inter-Rater Reliability of the CASCADE Criteria

Author

Bernard, Timothy J, Beslow, Lauren A, Manco-Johnson, Marilyn J, Armstrong-Wells, Jennifer, Boada, Richard, Weitzenkamp, David, Hollatz, Amanda, Poisson, Sharon, Amlie-Lefond, Catherine, Lo, Warren, deVeber, Gabrielle, Goldenberg, Neil A, Dowling, Michael M, Roach, E Steve, Fullerton, Heather J, Benseler, Susanne M, Jordan, Lori C, Kirton, Adam, and Ichord, Rebecca N

Subjects
Allied Health and Rehabilitation Science, Biomedical and Clinical Sciences, Clinical Sciences, Health Sciences, Neurosciences, Stroke, Clinical Research, Cardiovascular, Pediatric, Prevention, Brain Disorders, Brain Ischemia, Cerebral Arterial Diseases, Child, Cross-Sectional Studies, Humans, Neuroimaging, Reproducibility of Results, attention, classification, cohort studies, consensus, incidence, pediatrics, risk factors, Cardiorespiratory Medicine and Haematology, Neurology & Neurosurgery, Clinical sciences, Allied health and rehabilitation science
Abstract

Background and purposeThere are limited data about the reliability of subtype classification in childhood arterial ischemic stroke, an issue that prompted the IPSS (International Pediatric Stroke Study) to develop the CASCADE criteria (Childhood AIS Standardized Classification and Diagnostic Evaluation). Our purpose was to determine the CASCADE criteria's reliability in a population of children with stroke.MethodsEight raters from the IPSS reviewed neuroimaging and clinical records of 64 cases (16 cases each) randomly selected from a prospectively collected cohort of 113 children with arterial ischemic stroke and classified them using the CASCADE criteria. Clinical data abstracted included history of present illness, risk factors, and acute imaging. Agreement among raters was measured by unweighted κ statistic.ResultsThe CASCADE criteria demonstrated a moderate inter-rater reliability, with an overall κ statistic of 0.53 (95% confidence interval [CI]=0.39-0.67). Cardioembolic and bilateral cerebral arteriopathy subtypes had much higher agreement (κ=0.84; 95% CI=0.70-0.99; and κ=0.90; 95% CI=0.71-1.00, respectively) than cases of aortic/cervical arteriopathy (κ=0.36; 95% CI=0.01-0.71), unilateral focal cerebral arteriopathy of childhood (FCA; κ=0.49; 95% CI=0.23-0.76), and small vessel arteriopathy of childhood (κ=-0.012; 95% CI=-0.04 to 0.01).ConclusionsThe CASCADE criteria have moderate reliability when used by trained and experienced raters, which suggests that it can be used for classification in multicenter pediatric stroke studies. However, the moderate reliability of the arteriopathic subtypes suggests that further refinement is needed for defining subtypes. Such revisions may reduce the variability in the literature describing risk factors, recurrence, and outcomes associated with childhood arteriopathy.

Published
2016

30. Inflammatory Biomarkers in Childhood Arterial Ischemic Stroke: Correlates of Stroke Cause and Recurrence.

Author

Fullerton, Heather J, deVeber, Gabrielle A, Hills, Nancy K, Dowling, Michael M, Fox, Christine K, Mackay, Mark T, Kirton, Adam, Yager, Jerome Y, Bernard, Timothy J, Hod, Eldad A, Wintermark, Max, Elkind, Mitchell SV, and VIPS Investigators

Subjects
VIPS Investigators, Humans, Brain Ischemia, Cerebral Arterial Diseases, Recurrence, Peroxidase, Tumor Necrosis Factor-alpha, C-Reactive Protein, Serum Amyloid A Protein, Risk Factors, Adolescent, Child, Child, Preschool, Female, Male, Stroke, Biomarkers, C-reactive protein, Cox proportional hazards models, biomarkers, inflammation, serum amyloid A protein, stroke, Prevention, Pediatric, Brain Disorders, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurosciences, Neurology & Neurosurgery
Abstract

Background and purposeAmong children with arterial ischemic stroke (AIS), those with arteriopathy have the highest recurrence risk. We hypothesized that arteriopathy progression is an inflammatory process and that inflammatory biomarkers would predict recurrent AIS.MethodsIn an international study of childhood AIS, we selected cases classified into 1 of the 3 most common childhood AIS causes: definite arteriopathic (n=103), cardioembolic (n=55), or idiopathic (n=78). We measured serum concentrations of high-sensitivity C-reactive protein, serum amyloid A, myeloperoxidase, and tumor necrosis factor-α. We used linear regression to compare analyte concentrations across the subtypes and Cox proportional hazards models to determine predictors of recurrent AIS.ResultsMedian age at index stroke was 8.2 years (interquartile range, 3.6-14.3); serum samples were collected at median 5.5 days post stroke (interquartile range, 3-10 days). In adjusted models (including age, infarct volume, and time to sample collection) with idiopathic as the reference, the cardioembolic (but not arteriopathic) group had higher concentrations of high-sensitivity C-reactive protein and myeloperoxidase, whereas both cardioembolic and arteriopathic groups had higher serum amyloid A. In the arteriopathic (but not cardioembolic) group, higher high-sensitivity C-reactive protein and serum amyloid A predicted recurrent AIS. Children with progressive arteriopathies on follow-up imaging had higher recurrence rates, and a trend toward higher high-sensitivity C-reactive protein and serum amyloid A, compared with children with stable or improved arteriopathies.ConclusionsAmong children with AIS, specific inflammatory biomarkers correlate with cause and-in the arteriopathy group-risk of stroke recurrence. Interventions targeting inflammation should be considered for pediatric secondary stroke prevention trials.

Published
2016

31. Arterial Tortuosity

Author

Wei, Felix, Diedrich, Karl T, Fullerton, Heather J, deVeber, Gabrielle, Wintermark, Max, Hodge, Jacquie, Kirton, Adam, Dowling, MM, Benedict, SL, Bernard, TJ, Fox, CK, Friedman, NR, Lo, WD, Ichord, RN, Tan, MA, Mackay, MT, Hernandez, Chavez MI, Humphreys, P, Jordan, LC, Sultan, SM, Rivkin, MJ, Rafay, MF, Titomanlio, L, Kovacevic, GS, Yager, JY, Amlie-Lefond, C, Dlamini, N, Condie, J, Yeh, EA, Kneen, R, Bjornson, BH, Pergami, P, Zou, LP, Elbers, J, Abdalla, A, Chan, AK, Farooq, O, Lim, MJ, Carpenter, JL, Pavlakis, S, Wong, VCN, and Forsyth, R

Subjects
Allied Health and Rehabilitation Science, Biomedical and Clinical Sciences, Health Sciences, Stroke, Brain Disorders, Cardiovascular, Pediatric, Neurosciences, Adolescent, Arteries, Biomarkers, Brain Ischemia, Cerebral Arterial Diseases, Child, Child, Preschool, Comorbidity, Female, Humans, Infant, Joint Instability, Male, Meningitis, Moyamoya Disease, Myocardial Infarction, Prospective Studies, Skin Diseases, Genetic, Vascular Malformations, arterial tortuosity, child, dissection, magnetic resonance angiography, pediatric stroke, stroke, Vascular Effects of Infection in Pediatric Stroke (VIPS) Investigators, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurology & Neurosurgery, Clinical sciences, Allied health and rehabilitation science
Abstract

Background and purposeArteriopathy is the leading cause of childhood arterial ischemic stroke. Mechanisms are poorly understood but may include inherent abnormalities of arterial structure. Extracranial dissection is associated with connective tissue disorders in adult stroke. Focal cerebral arteriopathy is a common syndrome where pathophysiology is unknown but may include intracranial dissection or transient cerebral arteriopathy. We aimed to quantify cerebral arterial tortuosity in childhood arterial ischemic stroke, hypothesizing increased tortuosity in dissection.MethodsChildren (1 month to 18 years) with arterial ischemic stroke were recruited within the Vascular Effects of Infection in Pediatric Stroke (VIPS) study with controls from the Calgary Pediatric Stroke Program. Objective, multi-investigator review defined diagnostic categories. A validated imaging software method calculated the mean arterial tortuosity of the major cerebral arteries using 3-dimensional time-of-flight magnetic resonance angiographic source images. Tortuosity of unaffected vessels was compared between children with dissection, transient cerebral arteriopathy, meningitis, moyamoya, cardioembolic strokes, and controls (ANOVA and post hoc Tukey). Trauma-related versus spontaneous dissection was compared (Student t test).ResultsOne hundred fifteen children were studied (median, 6.8 years; 43% women). Age and sex were similar across groups. Tortuosity means and variances were consistent with validation studies. Tortuosity in controls (1.346±0.074; n=15) was comparable with moyamoya (1.324±0.038; n=15; P=0.998), meningitis (1.348±0.052; n=11; P=0.989), and cardioembolic (1.379±0.056; n=27; P=0.190) cases. Tortuosity was higher in both extracranial dissection (1.404±0.084; n=22; P=0.021) and transient cerebral arteriopathy (1.390±0.040; n=27; P=0.001) children. Tortuosity was not different between traumatic versus spontaneous dissections (P=0.70).ConclusionsIn children with dissection and transient cerebral arteriopathy, cerebral arteries demonstrate increased tortuosity. Quantified arterial tortuosity may represent a clinically relevant imaging biomarker of vascular biology in pediatric stroke.

Published
2016

32. Arterial Tortuosity: An Imaging Biomarker of Childhood Stroke Pathogenesis?

Author

Wei, Felix, Diedrich, Karl T, Fullerton, Heather J, deVeber, Gabrielle, Wintermark, Max, Hodge, Jacquie, Kirton, Adam, and Vascular Effects of Infection in Pediatric Stroke (VIPS) Investigators

Subjects
Vascular Effects of Infection in Pediatric Stroke (VIPS) Investigators, Arteries, Humans, Joint Instability, Brain Ischemia, Moyamoya Disease, Cerebral Arterial Diseases, Meningitis, Myocardial Infarction, Skin Diseases, Genetic, Prospective Studies, Comorbidity, Adolescent, Child, Child, Preschool, Infant, Female, Male, Stroke, Vascular Malformations, Biomarkers, arterial tortuosity, child, dissection, magnetic resonance angiography, pediatric stroke, stroke, Skin Diseases, Genetic, Preschool, Clinical Sciences, Cardiorespiratory Medicine and Haematology, Neurosciences, Neurology & Neurosurgery
Abstract

Background and purposeArteriopathy is the leading cause of childhood arterial ischemic stroke. Mechanisms are poorly understood but may include inherent abnormalities of arterial structure. Extracranial dissection is associated with connective tissue disorders in adult stroke. Focal cerebral arteriopathy is a common syndrome where pathophysiology is unknown but may include intracranial dissection or transient cerebral arteriopathy. We aimed to quantify cerebral arterial tortuosity in childhood arterial ischemic stroke, hypothesizing increased tortuosity in dissection.MethodsChildren (1 month to 18 years) with arterial ischemic stroke were recruited within the Vascular Effects of Infection in Pediatric Stroke (VIPS) study with controls from the Calgary Pediatric Stroke Program. Objective, multi-investigator review defined diagnostic categories. A validated imaging software method calculated the mean arterial tortuosity of the major cerebral arteries using 3-dimensional time-of-flight magnetic resonance angiographic source images. Tortuosity of unaffected vessels was compared between children with dissection, transient cerebral arteriopathy, meningitis, moyamoya, cardioembolic strokes, and controls (ANOVA and post hoc Tukey). Trauma-related versus spontaneous dissection was compared (Student t test).ResultsOne hundred fifteen children were studied (median, 6.8 years; 43% women). Age and sex were similar across groups. Tortuosity means and variances were consistent with validation studies. Tortuosity in controls (1.346±0.074; n=15) was comparable with moyamoya (1.324±0.038; n=15; P=0.998), meningitis (1.348±0.052; n=11; P=0.989), and cardioembolic (1.379±0.056; n=27; P=0.190) cases. Tortuosity was higher in both extracranial dissection (1.404±0.084; n=22; P=0.021) and transient cerebral arteriopathy (1.390±0.040; n=27; P=0.001) children. Tortuosity was not different between traumatic versus spontaneous dissections (P=0.70).ConclusionsIn children with dissection and transient cerebral arteriopathy, cerebral arteries demonstrate increased tortuosity. Quantified arterial tortuosity may represent a clinically relevant imaging biomarker of vascular biology in pediatric stroke.

Published
2016

33. Herpesvirus Infections and Childhood Arterial Ischemic Stroke

Author

Elkind, Mitchell SV, Hills, Nancy K, Glaser, Carol A, Lo, Warren D, Amlie-Lefond, Catherine, Dlamini, Nomazulu, Kneen, Rachel, Hod, Eldad A, Wintermark, Max, deVeber, Gabrielle A, and Fullerton, Heather J

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Prevention, Brain Disorders, Stroke, Sexually Transmitted Infections, Infectious Diseases, Aetiology, 2.2 Factors relating to the physical environment, Infection, Adolescent, Brain Ischemia, Case-Control Studies, Child, Child, Preschool, Female, Herpesviridae Infections, Humans, Infant, Infant, Newborn, Internationality, Male, Prospective Studies, child, herpesviridae infections, infection, pediatrics, stroke, VIPS Investigators*, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Public Health and Health Services, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences, Sports science and exercise
Abstract

BackgroundEpidemiological studies demonstrate that childhood infections, including varicella zoster virus, are associated with an increased risk of arterial ischemic stroke (AIS). Other herpesviruses have been linked to childhood AIS in case reports. We sought to determine whether herpesvirus infections, which are potentially treatable, increase the risk of childhood AIS.Methods and resultsWe enrolled 326 centrally confirmed cases of AIS and 115 stroke-free controls with trauma (29 days to 18 years of age) with acute blood samples (≤3 weeks after stroke/trauma); cases had convalescent samples (7-28 days later) when feasible. Samples were tested by commercial enzyme-linked immunosorbent assay kits for immunoglobulin M/immunoglobulin G antibodies to herpes simplex virus 1 and 2, cytomegalovirus, Epstein-Barr virus, and varicella zoster virus. An algorithm developed a priori classified serological evidence of past and acute herpesvirus infection as dichotomous variables. The median (quartiles) age was 7.7 (3.1-14.3) years for cases and 10.7 (6.9-13.2) years for controls (P=0.03). Serological evidence of past infection did not differ between cases and controls. However, serological evidence of acute herpesvirus infection doubled the odds of childhood AIS, even after adjusting for age, race, and socioeconomic status (odds ratio, 2.2; 95% confidence interval, 1.2-4.0; P=0.007). Among 187 cases with acute and convalescent blood samples, 85 (45%) showed evidence of acute herpesvirus infection; herpes simplex virus 1 was found most often. Most infections were asymptomatic.ConclusionsHerpesviruses may act as a trigger for childhood AIS, even if the infection is subclinical. Antivirals like acyclovir might have a role in the prevention of recurrent stroke if further studies confirm a causal relationship.

Published
2016

34. Risk of Recurrent Arterial Ischemic Stroke in Childhood: A Prospective International Study.

Author

Wintermark, Max, Hills, Nancy, Dowling, Michael, Tan, Marilyn, Rafay, Mubeen, Elkind, Mitchell, Barkovich, A, deVeber, Gabrielle, and Fullerton, Heather

Subjects
child, pediatrics, risk factor, stroke, vaccination, Adolescent, Brain Ischemia, Cerebral Arterial Diseases, Child, Child, Preschool, Cohort Studies, Female, Follow-Up Studies, Humans, Infant, Internationality, Male, Prospective Studies, Recurrence, Risk Factors, Stroke
Abstract

BACKGROUND AND PURPOSE: Published cohorts of children with arterial ischemic stroke (AIS) in the 1990s to early 2000s reported 5-year cumulative recurrence rates approaching 20%. Since then, utilization of antithrombotic agents for secondary stroke prevention in children has increased. We sought to determine rates and predictors of recurrent stroke in the current era. METHODS: The Vascular Effects of Infection in Pediatric Stroke (VIPS) study enrolled 355 children with AIS at 37 international centers from 2009 to 2014 and followed them prospectively for recurrent stroke. Index and recurrent strokes underwent central review and confirmation, as well as central classification of causes of stroke, including arteriopathies. Other predictors were measured via parental interview or chart review. RESULTS: Of the 355 children, 354 survived their acute index stroke, and 308 (87%) were treated with an antithrombotic medication. During a median follow-up of 2.0 years (interquartile range, 1.0-3.0), 40 children had a recurrent AIS, and none had a hemorrhagic stroke. The cumulative stroke recurrence rate was 6.8% (95% confidence interval, 4.6%-10%) at 1 month and 12% (8.5%-15%) at 1 year. The sole predictor of recurrence was the presence of an arteriopathy, which increased the risk of recurrence 5-fold when compared with an idiopathic AIS (hazard ratio, 5.0; 95% confidence interval, 1.8-14). The 1-year recurrence rate was 32% (95% confidence interval, 18%-51%) for moyamoya, 25% (12%-48%) for transient cerebral arteriopathy, and 19% (8.5%-40%) for arterial dissection. CONCLUSIONS: Children with AIS, particularly those with arteriopathy, remain at high risk for recurrent AIS despite increased utilization of antithrombotic agents. Therapies directed at the arteriopathies themselves are needed.

Published
2016

35. Risk of Recurrent Arterial Ischemic Stroke in Childhood

Author

Fullerton, Heather J, Wintermark, Max, Hills, Nancy K, Dowling, Michael M, Tan, Marilyn, Rafay, Mubeen F, Elkind, Mitchell SV, Barkovich, A James, deVeber, Gabrielle A, Plumb, Patricia A, Benedict, Susan L, Bernard, Timothy J, Fox, Christine K, Friedman, Neil R, Lo, Warren D, Ichord, Rebecca N, Mackay, Mark T, Kirton, Adam, Hernandez-Chavez, Marta I, Humphreys, Peter, Jordan, Lori C, Sultan, Sally, Rivkin, Michael J, Titomanlio, Luigi, Kovacevic, Gordana S, Yager, Jerome Y, Amlie-Lefond, Catherine, Dlamini, Nomazulu, Condie, John, Yeh, Ann, Kneen, Rachel, Bjornson, Bruce, Pergami, Paola, Zou, Li Ping, Elbers, Jorina M, Abdalla, Abdalla, Chan, Anthony K, Farooq, Osman, Lim, Mingming J, Carpenter, Jessica L, Pavlakis, Steven, Wong, Virginia C, and Forsyth, Robert

Subjects
Paediatrics, Biomedical and Clinical Sciences, Brain Disorders, Pediatric, Stroke, Prevention, Neurosciences, Atherosclerosis, Adolescent, Brain Ischemia, Cerebral Arterial Diseases, Child, Child, Preschool, Cohort Studies, Female, Follow-Up Studies, Humans, Infant, Internationality, Male, Prospective Studies, Recurrence, Risk Factors, child, pediatrics, risk factor, stroke, vaccination, VIPS Investigators, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurology & Neurosurgery, Clinical sciences, Allied health and rehabilitation science
Abstract

Background and purposePublished cohorts of children with arterial ischemic stroke (AIS) in the 1990s to early 2000s reported 5-year cumulative recurrence rates approaching 20%. Since then, utilization of antithrombotic agents for secondary stroke prevention in children has increased. We sought to determine rates and predictors of recurrent stroke in the current era.MethodsThe Vascular Effects of Infection in Pediatric Stroke (VIPS) study enrolled 355 children with AIS at 37 international centers from 2009 to 2014 and followed them prospectively for recurrent stroke. Index and recurrent strokes underwent central review and confirmation, as well as central classification of causes of stroke, including arteriopathies. Other predictors were measured via parental interview or chart review.ResultsOf the 355 children, 354 survived their acute index stroke, and 308 (87%) were treated with an antithrombotic medication. During a median follow-up of 2.0 years (interquartile range, 1.0-3.0), 40 children had a recurrent AIS, and none had a hemorrhagic stroke. The cumulative stroke recurrence rate was 6.8% (95% confidence interval, 4.6%-10%) at 1 month and 12% (8.5%-15%) at 1 year. The sole predictor of recurrence was the presence of an arteriopathy, which increased the risk of recurrence 5-fold when compared with an idiopathic AIS (hazard ratio, 5.0; 95% confidence interval, 1.8-14). The 1-year recurrence rate was 32% (95% confidence interval, 18%-51%) for moyamoya, 25% (12%-48%) for transient cerebral arteriopathy, and 19% (8.5%-40%) for arterial dissection.ConclusionsChildren with AIS, particularly those with arteriopathy, remain at high risk for recurrent AIS despite increased utilization of antithrombotic agents. Therapies directed at the arteriopathies themselves are needed.

Published
2016

36. Infection, vaccination, and childhood arterial ischemic stroke

Author

Fullerton, Heather J, Hills, Nancy K, Elkind, Mitchell SV, Dowling, Michael M, Wintermark, Max, Glaser, Carol A, Tan, Marilyn, Rivkin, Michael J, Titomanlio, Luigi, Barkovich, A James, and deVeber, Gabrielle A

Subjects
Immunization, Neurosciences, Stroke, Clinical Research, Pediatric, Prevention, Vaccine Related, Brain Disorders, 2.1 Biological and endogenous factors, Aetiology, Infection, Adolescent, Bacteremia, Brain Ischemia, Case-Control Studies, Child, Child, Preschool, Female, Fever, Gastroenteritis, Humans, Immunization Schedule, Infant, Infant, Newborn, Infections, Infectious Encephalitis, Influenza, Human, Logistic Models, Male, Meningitis, Multivariate Analysis, Nasal Decongestants, Odds Ratio, Otitis Media, Pneumonia, Prevalence, Prospective Studies, Respiratory Tract Infections, Risk Factors, Sepsis, United States, Vaccination, Vaccines, VIPS Investigators, Clinical Sciences, Cognitive Sciences, Neurology & Neurosurgery
Abstract

ObjectivesMinor infection can trigger adult arterial ischemic stroke (AIS) and is common in childhood. We tested the hypotheses that infection transiently increases risk of AIS in children, regardless of stroke subtype, while vaccination against infection is protective.MethodsThe Vascular Effects of Infection in Pediatric Stroke study is an international case-control study that prospectively enrolled 355 centrally confirmed cases of AIS (29 days-18 years old) and 354 stroke-free controls. To determine prior exposure to infections and vaccines, we conducted parental interviews and chart review.ResultsMedian (interquartile range) age was 7.6 years for cases and 9.3 for controls (p = 0.44). Infection in the week prior to stroke, or interview date for controls, was reported in 18% of cases, vs 3% of controls, conferring a 6.3-fold increased risk of AIS (p < 0.0001); upper respiratory infections were most common. Prevalence of preceding infection was similar across stroke subtypes: arteriopathic, cardioembolic, and idiopathic. Use of vasoactive cold medications was similarly low in both groups. Children with some/few/no routine vaccinations were at higher stroke risk than those receiving all or most (odds ratio [OR] 7.3, p = 0.0002). In an age-adjusted multivariate logistic regression model, independent risk factors for AIS included infection in the prior week (OR 6.3, p < 0.0001), undervaccination (OR 8.2, p = 0.0004), black race (compared to white; OR 1.9, p = 0.009), and rural residence (compared to urban; OR 3.0, p = 0.0003).ConclusionsInfection may act as a trigger for childhood AIS, while routine vaccinations appear protective. Hence, efforts to reduce the spread of common infections might help prevent stroke in children.

Published
2015

37. Stroke Prevalence, Mortality and Disability-Adjusted Life Years in Children and Youth Aged 0-19 Years: Data from the Global and Regional Burden of Stroke 2013

Author

Krishnamurthi, Rita V, deVeber, Gabrielle, Feigin, Valery L, Barker-Collo, Suzanne, Fullerton, Heather, Mackay, Mark T, O'Callahan, Finbar, Lindsay, M Patrice, Kolk, Anneli, Lo, Warren, Shah, Priyanka, Linds, Alexandra, Jones, Kelly, Parmar, Priya, Taylor, Steve, Norrving, Bo, Mensah, George A, Moran, Andrew E, Naghavi, Mohsen, Forouzanfar, Mohammed H, Nguyen, Grant, Johnson, Catherine O, Vos, Theo, Murray, Christopher JL, and Roth, Gregory A

Subjects
Prevention, Brain Disorders, Neurosciences, Stroke, Emerging Infectious Diseases, Aetiology, 2.4 Surveillance and distribution, Good Health and Well Being, Adolescent, Adult, Child, Child, Preschool, Cost of Illness, Disabled Persons, Female, Global Health, Health Surveys, Humans, Incidence, Infant, Male, Prevalence, Quality-Adjusted Life Years, Young Adult, Childhood stroke, Stroke epidemiology, Deaths, Disability-adjusted life years, GBD 2013 Stroke Panel Experts Group, Public Health and Health Services, Epidemiology
Abstract

BackgroundThere is increasing recognition of stroke as an important contributor to childhood morbidity and mortality. Current estimates of global childhood stroke burden and its temporal trends are sparse. Accurate and up-to-date estimates of childhood stroke burden are important for planning research and the resulting evidence-based strategies for stroke prevention and management.ObjectivesTo estimate the prevalence, mortality and disability-adjusted life years (DALYs) for ischemic stroke (IS), hemorrhagic stroke (HS) and all stroke types combined globally from 1990 to 2013.MethodologyStroke prevalence, mortality and DALYs were estimated using the Global Burden of Disease 2013 methods. All available data on stroke-related incidence, prevalence, excess mortality and deaths were collected. Statistical models and country-level covariates were employed to produce comprehensive and consistent estimates of prevalence and mortality. Stroke-specific disability weights were used to estimate years lived with disability and DALYs. Means and 95% uncertainty intervals (UIs) were calculated for prevalence, mortality and DALYs. The median of the percent change and 95% UI were determined for the period from 1990 to 2013.ResultsIn 2013, there were 97,792 (95% UI 90,564-106,016) prevalent cases of childhood IS and 67,621 (95% UI 62,899-72,214) prevalent cases of childhood HS, reflecting an increase of approximately 35% in the absolute numbers of prevalent childhood strokes since 1990. There were 33,069 (95% UI 28,627-38,998) deaths and 2,615,118 (95% UI 2,265,801-3,090,822) DALYs due to childhood stroke in 2013 globally, reflecting an approximately 200% decrease in the absolute numbers of death and DALYs in childhood stroke since 1990. Between 1990 and 2013, there were significant increases in the global prevalence rates of childhood IS, as well as significant decreases in the global death rate and DALYs rate of all strokes in those of age 0-19 years. While prevalence rates for childhood IS and HS decreased significantly in developed countries, a decline was seen only in HS, with no change in prevalence rates of IS, in developing countries. The childhood stroke DALY rates in 2013 were 13.3 (95% UI 10.6-17.1) for IS and 92.7 (95% UI 80.5-109.7) for HS per 100,000. While the prevalence of childhood IS compared to childhood HS was similar globally, the death rate and DALY rate of HS was 6- to 7-fold higher than that of IS. In 2013, the prevalence rate of both childhood IS and HS was significantly higher in developed countries than in developing countries. Conversely, both death and DALY rates for all stroke types were significantly lower in developed countries than in developing countries in 2013. Men showed a trend toward higher childhood stroke death rates (1.5 (1.3-1.8) per 100,000) than women (1.1 (0.9-1.5) per 100,000) and higher childhood stroke DALY rates (120.1 (100.8-143.4) per 100,000) than women (90.9 (74.6-122.4) per 100,000) globally in 2013.ConclusionsGlobally, between 1990 and 2013, there was a significant increase in the absolute number of prevalent childhood strokes, while absolute numbers and rates of both deaths and DALYs declined significantly. The gap in childhood stroke burden between developed and developing countries is closing; however, in 2013, childhood stroke burden in terms of absolute numbers of prevalent strokes, deaths and DALYs remained much higher in developing countries. There is an urgent need to address these disparities with both global and country-level initiatives targeting prevention as well as improved access to acute and chronic stroke care.

Published
2015

38. Stroke in Children With Cardiac Disease: Report From the International Pediatric Stroke Study Group Symposium

Author

Sinclair, Adriane J, Fox, Christine K, Ichord, Rebecca N, Almond, Christopher S, Bernard, Timothy J, Beslow, Lauren A, Chan, Anthony KC, Cheung, Michael, deVeber, Gabrielle, Dowling, Michael M, Friedman, Neil, Giglia, Therese M, Guilliams, Kristin P, Humpl, Tilman, Licht, Daniel J, Mackay, Mark T, and Jordan, Lori C

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Prevention, Cardiovascular, Clinical Research, Neurosciences, Brain Disorders, Stroke, Pediatric, Good Health and Well Being, Child, Heart Diseases, Humans, cardiac, stroke, arterial ischemic, congenital heart disease, Paediatrics and Reproductive Medicine, Neurology & Neurosurgery, Paediatrics
Abstract

BackgroundCardiac disease is a leading cause of stroke in children, yet limited data support the current stroke prevention and treatment recommendations. A multidisciplinary panel of clinicians was convened in February 2014 by the International Pediatric Stroke Study group to identify knowledge gaps and prioritize clinical research efforts for children with cardiac disease and stroke.ResultsSignificant knowledge gaps exist, including a lack of data on stroke incidence, predictors, primary and secondary stroke prevention, hyperacute treatment, and outcome in children with cardiac disease. Commonly used diagnostic techniques including brain computed tomography and ultrasound have low rates of stroke detection, and diagnosis is frequently delayed. The challenges of research studies in this population include epidemiologic barriers to research such as small patient numbers, heterogeneity of cardiac disease, and coexistence of multiple risk factors. Based on stroke burden and study feasibility, studies involving mechanical circulatory support, single ventricle patients, early stroke detection strategies, and understanding secondary stroke risk factors and prevention are the highest research priorities over the next 5-10 years. The development of large-scale multicenter and multispecialty collaborative research is a critical next step. The designation of centers of expertise will assist in clinical care and research.ConclusionsThere is an urgent need for additional research to improve the quality of evidence in guideline recommendations for cardiogenic stroke in children. Although significant barriers to clinical research exist, multicenter and multispecialty collaboration is an important step toward advancing clinical care and research for children with cardiac disease and stroke.

Published
2015

40. Arteriopathy Diagnosis in Childhood Arterial Ischemic Stroke

Author

Wintermark, Max, Hills, Nancy K, deVeber, Gabrielle A, Barkovich, A James, Elkind, Mitchell SV, Sear, Katherine, Zhu, Guangming, Leiva-Salinas, Carlos, Hou, Qinghua, Dowling, Michael M, Bernard, Timothy J, Friedman, Neil R, Ichord, Rebecca N, Fullerton, Heather J, Benedict, SL, Fox, CK, Lo, WD, Tan, MA, Mackay, MT, Kirton, A, Chavez, MI Hernandez, Humphreys, P, Jordan, LC, Sultan, SM, Rivkin, MJ, Rafay, MF, Titomanlio, L, Kovacevic, GS, Yager, JY, Amlie-Lefond, C, Dlamini, N, Condie, J, Yeh, A, Kneen, R, Bjornson, BH, Pergami, P, Zou, LP, Elbers, J, Abdalla, A, Chan, AK, Farooq, O, Lim, MJ, Carpenter, JL, Pavlakis, S, Wong, VC, and Forsyth, R

Subjects
Neurosciences, Stroke, Clinical Research, Pediatric, Brain Disorders, Prevention, 4.2 Evaluation of markers and technologies, Detection, screening and diagnosis, Adolescent, Arteries, Child, Child, Preschool, Female, Humans, Infant, Infant, Newborn, Magnetic Resonance Imaging, Male, Vascular Diseases, cerebral arterial diseases, pediatrics, stroke, transient ischemic attack, VIPS Investigators, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurology & Neurosurgery
Abstract

Background and purposeAlthough arteriopathies are the most common cause of childhood arterial ischemic stroke, and the strongest predictor of recurrent stroke, they are difficult to diagnose. We studied the role of clinical data and follow-up imaging in diagnosing cerebral and cervical arteriopathy in children with arterial ischemic stroke.MethodsVascular effects of infection in pediatric stroke, an international prospective study, enrolled 355 cases of arterial ischemic stroke (age, 29 days to 18 years) at 39 centers. A neuroradiologist and stroke neurologist independently reviewed vascular imaging of the brain (mandatory for inclusion) and neck to establish a diagnosis of arteriopathy (definite, possible, or absent) in 3 steps: (1) baseline imaging alone; (2) plus clinical data; (3) plus follow-up imaging. A 4-person committee, including a second neuroradiologist and stroke neurologist, adjudicated disagreements. Using the final diagnosis as the gold standard, we calculated the sensitivity and specificity of each step.ResultsCases were aged median 7.6 years (interquartile range, 2.8-14 years); 56% boys. The majority (52%) was previously healthy; 41% had follow-up vascular imaging. Only 56 (16%) required adjudication. The gold standard diagnosis was definite arteriopathy in 127 (36%), possible in 34 (9.6%), and absent in 194 (55%). Sensitivity was 79% at step 1, 90% at step 2, and 94% at step 3; specificity was high throughout (99%, 100%, and 100%), as was agreement between reviewers (κ=0.77, 0.81, and 0.78).ConclusionsClinical data and follow-up imaging help, yet uncertainty in the diagnosis of childhood arteriopathy remains. This presents a challenge to better understanding the mechanisms underlying these arteriopathies and designing strategies for prevention of childhood arterial ischemic stroke.

Published
2014

41. List of Contributors

Author

Aaen, Gregory, primary, Abroms, Israel F., additional, Ådén, Ulrika, additional, Ahlsten, Gunnar, additional, Aird, Robert B., additional, Al-Zaidy, Samiah A., additional, Andermann, Fred, additional, Anlar, Banu, additional, Arzimanoglou, Alexis, additional, Ashwal, Stephen, additional, Augustine, Erika, additional, Ballaban-Gil, Karen, additional, Bamford, Nigel S., additional, Barlow, Charles F., additional, Bast, Thomas, additional, Bates, David, additional, Baumann, Robert J., additional, Bertini, Enrico, additional, Beya, Alidor, additional, Blaw, Michael, additional, Bodensteiner, John, additional, Bonthius, Daniel J., additional, Brin, Amy E., additional, Brockmann, Knut, additional, Brown, John Keith, additional, Brown, Stuart B., additional, Brumback, Audrey Christine, additional, Bureau, Michelle, additional, Burke, James R., additional, Bye, Annie, additional, Camfield, Carol, additional, Camfield, Peter, additional, Campistol Plana, Jaume, additional, Canale, Dee James, additional, Caneris, Onasis, additional, Caraballo, Roberto H., additional, Caviness, Alison Chantal, additional, Chao, Hsiao-Tuan, additional, Chapman, Catherine A., additional, Chaves-Carballo, Enrique, additional, Cho, Yoon-Jae, additional, Christen, Hans-Jürgen, additional, Chugani, Harry T., additional, Cioni, Giovanni, additional, Clark, David, additional, Cliff, Edward Robert Scheffer, additional, Cochran, Frederick B., additional, Cohen, Bruce H., additional, Cohen, Maynard M., additional, Collins, Kevin, additional, Covanis, Athanasios, additional, Critchley, Macdonald, additional, Cross, J. Helen, additional, Crumrine, Patricia K., additional, Curatolo, Paolo, additional, Davies, Pamela A., additional, deVeber, Gabrielle, additional, De Vivo, Darryl C., additional, de Vries, Linda S., additional, De Waele, Liesbeth, additional, DeMyer, William, additional, Devlin, Anita, additional, Dobyns, William B., additional, Dodson, W. Edwin, additional, Donald, Kirsty, additional, Duffy, Frank H., additional, Dunn, David W., additional, Dunn, Henry G., additional, Dure, Leon S., additional, Dyken, Paul Richard, additional, Encha-Razavi, Férechté, additional, Erenberg, Gerald, additional, Estes, Melinda L., additional, Evrard, Philippe, additional, Ferriero, Donna, additional, Ferry, Peggy, additional, Fine, Archie, additional, Fine, Edward J., additional, Fine, John S., additional, Finkel, Richard S., additional, Fischer, Alain, additional, Fischer, Christine, additional, Fogan, Lance, additional, Fowler, Glenn W., additional, Frank, Yitzchak, additional, Fullerton, Heather J., additional, Furukawa, Tetsuo, additional, Gabriel, Ronald S., additional, Galanopoulou, Aristea S., additional, Gardner-Medwin, David, additional, Garg, Bhuwan, additional, Genton, Pierre, additional, George, Mark S., additional, Gineste, Thierry, additional, Giza, Christopher C., additional, Goemans, Nathalie, additional, Golden, Gerald S., additional, Golden, Jeffrey Alan, additional, Goldstein, Gary W., additional, Gomez, Christopher, additional, Gomez, Manuel R., additional, Gomez, Timothy, additional, Goodkin, Howard P., additional, Gordon, Neil, additional, Gressens, Pierre, additional, Groger, Helmut, additional, Guerrini, Renzo, additional, Gurnett, Christina A., additional, Gussoni, Emanuela, additional, Haas, Richard, additional, Hagberg, Bengt, additional, Haller, Jerome S., additional, Hartman, Adam L., additional, Haruda, Fred, additional, Hirtz, Deborah, additional, Hogan, Gwendolyn R., additional, Hunt, Guy M., additional, Iannaccone, Susan T., additional, Eleanor Inder, Terrie, additional, Ionasescu, Victor, additional, Jansen, Katrien, additional, Jiang, Yuwu, additional, Kaminski, Henry J., additional, Kamoshita, Shigehiko, additional, Kang, Peter B., additional, Kaufman, David M., additional, Kaufmann, Walter E., additional, Kaye, Edward M., additional, Kellaway, Peter, additional, Kelley, Rhona S., additional, Kennedy, Charles, additional, Kim, Young-Min, additional, Kirby, Michael, additional, Kirton, Adam, additional, Kobayashi, Eliane, additional, Kossoff, Eric H., additional, Koutroumanidis, Michail, additional, Krupp, Lauren, additional, Lange, Bernadette M., additional, Lanska, Douglas J., additional, Lanska, Mary Jo, additional, Larsen, Paul D., additional, Lassoff, Samuel J., additional, Laterra, John, additional, Lemieux, Bernard, additional, Lenn, Nicholas J., additional, Logan, William J., additional, Lomax, Elizabeth, additional, Longo, Lawrence D., additional, Lorris Betz, A., additional, Manyam, Bala V., additional, Marks, Warren A., additional, Massey, E. Wayne, additional, Mate, Laszlo J., additional, McKinlay, Ian, additional, McLean, William T., additional, McLellan, Ailsa, additional, Mehler, Mark F., additional, Melchior, Johannes C., additional, Michelson, David J., additional, Miller, Steven P., additional, Miller, Suzanne L., additional, Millichap, J. Gordon, additional, Minns, Robert A., additional, Mizrahi, Eli M., additional, Moser, Ann B., additional, Moshé, Solomon L., additional, Muhle, Hiltrud, additional, Muntoni, Francesco, additional, Naidu, Sakkubai, additional, Narayanan, Vinodh, additional, Nardocci, Nardo, additional, Neil, Jeffrey J., additional, Neumeyer, Ann, additional, Noetzel, Michael J., additional, Nomura, Yoshiko, additional, Nordli, Douglas R., additional, North, Kathryn, additional, Ohtsuka, Yoko, additional, O’Callaghan, Finbar J.K., additional, Packer, Roger J., additional, Pastores, Gregory M., additional, Patterson, Marc C., additional, Pearl, Phillip L., additional, Philippart, Michel, additional, Pihko, Helena S., additional, Piller, Gordon, additional, Platz, Thomas F., additional, Poduri, Annapurna, additional, Pollack, Michael A., additional, Porter, Brenda E., additional, Provis, Michèle, additional, Rating, Dietz, additional, Reich, Harold, additional, Remler, Bernd, additional, Rho, Jong M., additional, Richards, Peter, additional, Richardson, Edward P., additional, Richardson, Sylvia O., additional, Roach, E. Steve, additional, Rose, Arthur L., additional, Rozear, Marvin P., additional, Rubinstein, Lucien J., additional, Rust, Robert S., additional, Saini, Arushi Gahlot, additional, Saint-Anne Dargassies, Suzanne, additional, Sarnat, Harvey B., additional, Sarwar, Mohammad, additional, Satran, Richard, additional, Schneider, Sanford, additional, Schrank, Waltraud, additional, Scott, Rodney C., additional, Seinfeld, Syndi, additional, Selcen, Duygu, additional, Sestan, Nenad, additional, Shapiro, Steven, additional, Sherr, Elliott H., additional, Shevell, Michael, additional, Shield, Lloyd, additional, Sidman, Richard L., additional, Silverstein, Faye S., additional, Sinnreich, Michael, additional, Snead, O. Carter, additional, Solomons, Regan, additional, Soria-Duran, Emilio, additional, Stafstrom, Carl E., additional, Steven Roach, E., additional, Stevens, Harold, additional, Strassburg, Hans Michael, additional, Stumpf, David A., additional, Sullivan, Thomas, additional, Swick, Herbert M., additional, Swisher, Charles N., additional, Takahashi, Takao, additional, Tein, Ingrid, additional, Tochen, Laura, additional, Thomas, Eva E., additional, Thompson, Alan, additional, Toor, Svinder S., additional, Tyler, H. Richard, additional, Uldall, Peter, additional, Urion, David K., additional, Valappil, Ahsan Moosa Naduvil, additional, Van Toorn, Ronald, additional, Vermilion, Jennifer, additional, Vidaver, Doris, additional, Vohr, Betty R., additional, Vollmer, Brigitte, additional, Volpe, Joseph J., additional, Waber, Deborah P., additional, Wainwright, Mark S., additional, Waites, Lucius, additional, Walsh, Christopher, additional, Weindl, Adolf, additional, Whelan, Mary Anne, additional, White, Larry E., additional, Whittemore, Vicky Holets, additional, Wilmshurst, Jo, additional, Wirrell, Elaine, additional, Wolf, Nicole I., additional, Youssef, Paul, additional, Zempel, John, additional, Zoghbi, Huda Y., additional, Zuberi, Sameer M., additional, and Zupanc, Mary, additional

Published
2021
Full Text
View/download PDF

44. Global, regional, and national levels and causes of maternal mortality during 1990–2013: a systematic analysis for the Global Burden of Disease Study 2013

Author

Kassebaum, Nicholas J, Bertozzi-Villa, Amelia, Coggeshall, Megan S, Shackelford, Katya A, Steiner, Caitlyn, Heuton, Kyle R, Gonzalez-Medina, Diego, Barber, Ryan, Huynh, Chantal, Dicker, Daniel, Templin, Tara, Wolock, Timothy M, Ozgoren, Ayse Abbasoglu, Abd-Allah, Foad, Abera, Semaw Ferede, Abubakar, Ibrahim, Achoki, Tom, Adelekan, Ademola, Ademi, Zanfina, Adou, Arsène Kouablan, Adsuar, José C, Agardh, Emilie E, Akena, Dickens, Alasfoor, Deena, Alemu, Zewdie Aderaw, Alfonso-Cristancho, Rafael, Alhabib, Samia, Ali, Raghib, Al Kahbouri, Mazin J, Alla, François, Allen, Peter J, AlMazroa, Mohammad A, Alsharif, Ubai, Alvarez, Elena, Alvis-Guzmán, Nelson, Amankwaa, Adansi A, Amare, Azmeraw T, Amini, Hassan, Ammar, Walid, Antonio, Carl AT, Anwari, Palwasha, Arnlöv, Johan, Arsenijevic, Valentina S Arsic, Artaman, Ali, Asad, Majed Masoud, Asghar, Rana J, Assadi, Reza, Atkins, Lydia S, Badawi, Alaa, Balakrishnan, Kalpana, Basu, Arindam, Basu, Sanjay, Beardsley, Justin, Bedi, Neeraj, Bekele, Tolesa, Bell, Michelle L, Bernabe, Eduardo, Beyene, Tariku J, Bhutta, Zulfiqar, Bin Abdulhak, Aref, Blore, Jed D, Basara, Berrak Bora, Bose, Dipan, Breitborde, Nicholas, Cárdenas, Rosario, Castañeda-Orjuela, Carlos A, Castro, Ruben Estanislao, Catalá-López, Ferrán, Cavlin, Alanur, Chang, Jung-Chen, Che, Xuan, Christophi, Costas A, Chugh, Sumeet S, Cirillo, Massimo, Colquhoun, Samantha M, Cooper, Leslie Trumbull, Cooper, Cyrus, da Costa Leite, Iuri, Dandona, Lalit, Dandona, Rakhi, Davis, Adrian, Dayama, Anand, Degenhardt, Louisa, De Leo, Diego, del Pozo-Cruz, Borja, Deribe, Kebede, Dessalegn, Muluken, deVeber, Gabrielle A, Dharmaratne, Samath D, Dilmen, Uğur, Ding, Eric L, Dorrington, Rob E, Driscoll, Tim R, Ermakov, Sergei Petrovich, Esteghamati, Alireza, Faraon, Emerito Jose A, Farzadfar, Farshad, Felicio, Manuela Mendonca, Fereshtehnejad, Seyed-Mohammad, and de Lima, Graça Maria Ferreira

Subjects
2.4 Surveillance and distribution, Aetiology, Infection, Reproductive health and childbirth, Good Health and Well Being, Age Distribution, Cause of Death, Female, Global Health, HIV Infections, Humans, Maternal Mortality, Models, Statistical, Organizational Objectives, Pregnancy, Pregnancy Complications, Infectious, Risk Factors, Socioeconomic Factors, Time Factors, Medical and Health Sciences, General & Internal Medicine
Abstract

BackgroundThe fifth Millennium Development Goal (MDG 5) established the goal of a 75% reduction in the maternal mortality ratio (MMR; number of maternal deaths per 100,000 livebirths) between 1990 and 2015. We aimed to measure levels and track trends in maternal mortality, the key causes contributing to maternal death, and timing of maternal death with respect to delivery.MethodsWe used robust statistical methods including the Cause of Death Ensemble model (CODEm) to analyse a database of data for 7065 site-years and estimate the number of maternal deaths from all causes in 188 countries between 1990 and 2013. We estimated the number of pregnancy-related deaths caused by HIV on the basis of a systematic review of the relative risk of dying during pregnancy for HIV-positive women compared with HIV-negative women. We also estimated the fraction of these deaths aggravated by pregnancy on the basis of a systematic review. To estimate the numbers of maternal deaths due to nine different causes, we identified 61 sources from a systematic review and 943 site-years of vital registration data. We also did a systematic review of reports about the timing of maternal death, identifying 142 sources to use in our analysis. We developed estimates for each country for 1990-2013 using Bayesian meta-regression. We estimated 95% uncertainty intervals (UIs) for all values.Findings292,982 (95% UI 261,017-327,792) maternal deaths occurred in 2013, compared with 376,034 (343,483-407,574) in 1990. The global annual rate of change in the MMR was -0·3% (-1·1 to 0·6) from 1990 to 2003, and -2·7% (-3·9 to -1·5) from 2003 to 2013, with evidence of continued acceleration. MMRs reduced consistently in south, east, and southeast Asia between 1990 and 2013, but maternal deaths increased in much of sub-Saharan Africa during the 1990s. 2070 (1290-2866) maternal deaths were related to HIV in 2013, 0·4% (0·2-0·6) of the global total. MMR was highest in the oldest age groups in both 1990 and 2013. In 2013, most deaths occurred intrapartum or postpartum. Causes varied by region and between 1990 and 2013. We recorded substantial variation in the MMR by country in 2013, from 956·8 (685·1-1262·8) in South Sudan to 2·4 (1·6-3·6) in Iceland.InterpretationGlobal rates of change suggest that only 16 countries will achieve the MDG 5 target by 2015. Accelerated reductions since the Millennium Declaration in 2000 coincide with increased development assistance for maternal, newborn, and child health. Setting of targets and associated interventions for after 2015 will need careful consideration of regions that are making slow progress, such as west and central Africa.FundingBill & Melinda Gates Foundation.

Published
2014

47. Towards a Consensus-Based Classification of Childhood Arterial Ischemic Stroke

Author

Bernard, Timothy J, Manco-Johnson, Marilyn J, Lo, Warren, MacKay, Mark T, Ganesan, Vijeya, deVeber, Gabrielle, Goldenberg, Neil A, Armstrong-Wells, Jennifer, Dowling, Michael M, Roach, E Steve, Tripputi, Mark, Fullerton, Heather J, Furie, Karen L, Benseler, Susanne M, Jordan, Lori C, Kirton, Adam, and Ichord, Rebecca

Subjects
Brain Disorders, Neurosciences, Pediatric, Stroke, Algorithms, Brain Ischemia, Cerebral Arterial Diseases, Child, Consensus, Delphi Technique, Humans, Observer Variation, Registries, Reproducibility of Results, pediatric, classification, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurology & Neurosurgery
Abstract

Background and purposeThe implementation of uniform nomenclature and classification in adult arterial ischemic stroke (AIS) has been critical for defining outcomes and recurrence risks according to etiology and in developing risk-stratified treatments. In contrast, current classification and nomenclature in childhood AIS are often overlapping or contradictory. Our purpose was to develop a comprehensive consensus-based classification system for childhood AIS.MethodsUsing a modified-Delphi method, members of the International Pediatric Stroke Study (IPSS) developed the Childhood AIS Standardized Classification And Diagnostic Evaluation (CASCADE) criteria. Two groups of pediatric stroke specialists from the IPSS classified 7 test cases using 2 methods each: (1) classification typical of the individual clinician's current clinical practice; and (2) classification based on the CASCADE criteria. Group 1 underwent in-person training in the utilization of the CASCADE criteria. Group 2 classified the same cases via an online survey, including definitions but without training. Inter-rater reliability (IRR) was assessed via multi-rater unweighted κ-statistic.ResultsIn Group 1 (with training), IRR was improved using CASCADE criteria (κ=0.78, 95% CI=[0.49, 0.94]), compared with typical clinical practice (κ=0.40, 95% CI=[0.11, 0.60]). In Group 2 (without training), IRR was lower than among trained raters (κ=0.61, 95% CI=[0.29, 0.77]), but higher than current practice (κ=0.23, 95% CI=[0.03, 0.36]).ConclusionsA new, consensus-based classification system for childhood AIS, the CASCADE criteria, can be used to classify cases with good IRR. These preliminary findings suggest that the CASCADE criteria may be particularity useful in the setting of prospective multicenter studies in childhood-onset AIS, where standardized training of investigators is feasible.

Published
2012

48. Pediatric Stroke

Author

Tibussek, Daniel, deVeber, Gabrielle, Shroff, Manohar, Saba, Luca, editor, and Raz, Eytan, editor

Published
2016
Full Text
View/download PDF

49. Measuring progress and projecting attainment on the basis of past trends of the health-related Sustainable Development Goals in 188 countries: an analysis from the Global Burden of Disease Study 2016

Author

Fullman, Nancy, Barber, Ryan M, Abajobir, Amanuel Alemu, Abate, Kalkidan Hassen, Abbafati, Cristiana, Abbas, Kaja M, Abd-Allah, Foad, Abdulkader, Rizwan Suliankatchi, Abdulle, Abdishakur M, Abera, Semaw Ferede, Aboyans, Victor, Abu-Raddad, Laith J, Abu-Rmeileh, Niveen M E, Adedeji, Isaac Akinkunmi, Adetokunboh, Olatunji, Afshin, Ashkan, Agrawal, Anurag, Agrawal, Sutapa, Ahmad Kiadaliri, Aliasghar, Ahmadieh, Hamid, Ahmed, Muktar Beshir, Aichour, Miloud Taki Eddine, Aichour, Amani Nidhal, Aichour, Ibtihel, Aiyar, Sneha, Akinyemi, Rufus Olusola, Akseer, Nadia, Al-Aly, Ziyad, Alam, Khurshid, Alam, Noore, Alasfoor, Deena, Alene, Kefyalew Addis, Alizadeh-Navaei, Reza, Alkerwi, Ala'a, Alla, François, Allebeck, Peter, Allen, Christine, Al-Raddadi, Rajaa, Alsharif, Ubai, Altirkawi, Khalid A, Alvis-Guzman, Nelson, Amare, Azmeraw T, Amini, Erfan, Ammar, Walid, Ansari, Hossein, Antonio, Carl Abelardo T, Anwari, Palwasha, Arora, Megha, Artaman, Al, Aryal, Krishna Kumar, Asayesh, Hamid, Asgedom, Solomon Weldegebreal, Assadi, Reza, Atey, Tesfay Mehari, Atre, Sachin R, Avila-Burgos, Leticia, Avokpaho, Euripide Frinel G Arthur, Awasthi, Ashish, Azzopardi, Peter, Bacha, Umar, Badawi, Alaa, Balakrishnan, Kalpana, Bannick, Marlena S, Barac, Aleksandra, Barker-Collo, Suzanne L, Bärnighausen, Till, Barrero, Lope H, Basu, Sanjay, Battle, Katherine E, Baune, Bernhard T, Beardsley, Justin, Bedi, Neeraj, Beghi, Ettore, Béjot, Yannick, Bell, Michelle L, Bennett, Derrick A, Bennett, James R, Bensenor, Isabela M, Berhane, Adugnaw, Berhe, Derbew Fikadu, Bernabé, Eduardo, Betsu, Balem Demtsu, Beuran, Mircea, Beyene, Addisu Shunu, Bhala, Neeraj, Bhansali, Anil, Bhatt, Samir, Bhutta, Zulfiqar A, Bicer, Burcu Kucuk, Bidgoli, Hassan Haghparast, Bikbov, Boris, Bilal, Arebu I, Birungi, Charles, Biryukov, Stan, Bizuayehu, Habtamu Mellie, Blosser, Christopher D, Boneya, Dube Jara, Bose, Dipan, Bou-Orm, Ibrahim R, Brauer, Michael, Breitborde, Nicholas J K, Brugha, Traolach S, Bulto, Lemma Negesa Bulto, Butt, Zahid A, Cahuana-Hurtado, Lucero, Cameron, Ewan, Campuzano, Julio Cesar, Carabin, Hélène, Cárdenas, Rosario, Carrero, Juan Jesus, Carter, Austin, Casey, Daniel C, Castañeda-Orjuela, Carlos A, Castro, Ruben Estanislao, Catalá-López, Ferrán, Cercy, Kelly, Chang, Hsing-Yi, Chang, Jung-Chen, Charlson, Fiona J, Chew, Adrienne, Chisumpa, Vesper Hichilombwe, Chitheer, Abdulaal A, Christensen, Hanne, Christopher, Devasahayam Jesudas, Cirillo, Massimo, Cooper, Cyrus, Criqui, Michael H, Cromwell, Elizabeth A, Crump, John A, Dandona, Lalit, Dandona, Rakhi, Dargan, Paul I, das Neves, José, Davitoiu, Dragos V, de Courten, Barbora, De Steur, Hans, Defo, Barthelemy Kuate, Degenhardt, Louisa, Deiparine, Selina, Deribe, Kebede, deVeber, Gabrielle A, Ding, Eric L, Djalalinia, Shirin, Do, Huyen Phuc, Dokova, Klara, Doku, David Teye, Donkelaar, Aaron van, Dorsey, E Ray, Driscoll, Tim R, Dubey, Manisha, Duncan, Bruce Bartholow, Ebel, Beth E, Ebrahimi, Hedyeh, El-Khatib, Ziad Ziad, Enayati, Ahmadali, Endries, Aman Yesuf, Ermakov, Sergey Petrovich, Erskine, Holly E, Eshrati, Babak, Eskandarieh, Sharareh, Esteghamati, Alireza, Estep, Kara, Faraon, Emerito Jose Aquino, Farinha, Carla Sofia e Sa, Faro, André, Farzadfar, Farshad, Fazeli, Mir Sohail, Feigin, Valery L, Feigl, Andrea B, Fereshtehnejad, Seyed-Mohammad, Fernandes, João C, Ferrari, Alize J, Feyissa, Tesfaye Regassa, Filip, Irina, Fischer, Florian, Fitzmaurice, Christina, Flaxman, Abraham D, Foigt, Nataliya, Foreman, Kyle J, Frank, Tahvi, Franklin, Richard C, Friedman, Joseph, Frostad, Joseph J, Fürst, Thomas, Furtado, Joao M, Gakidou, Emmanuela, Garcia-Basteiro, Alberto L, Gebrehiwot, Tsegaye Tewelde, Geleijnse, Johanna M, Geleto, Ayele, Gemechu, Bikila Lencha, Gething, Peter W, Gibney, Katherine B, Gill, Paramjit Singh, Gillum, Richard F, Giref, Ababi Zergaw, Gishu, Melkamu Dedefo, Giussani, Giorgia, Glenn, Scott D, Godwin, William W, Goldberg, Ellen M, Gona, Philimon N, Goodridge, Amador, Gopalani, Sameer Vali, Goryakin, Yevgeniy, Griswold, Max, Gugnani, Harish Chander, Gupta, Rajeev, Gupta, Tanush, Gupta, Vipin, Hafezi-Nejad, Nima, Hailu, Gessessew Bugssa, Hamadeh, Randah Ribhi, Hammami, Mouhanad, Hankey, Graeme J, Harb, Hilda L, Hareri, Habtamu Abera, Hassanvand, Mohammad Sadegh, Havmoeller, Rasmus, Hawley, Caitlin, Hay, Simon I, He, Jiawei, Hendrie, Delia, Henry, Nathaniel J, Heredia-Pi, Ileana Beatriz, Hoek, Hans W, Holmberg, Mollie, Horita, Nobuyuki, Hosgood, H Dean, Hostiuc, Sorin, Hoy, Damian G, Hsairi, Mohamed, Htet, Aung Soe, Huang, John J, Huang, Hsiang, Huynh, Chantal, Iburg, Kim Moesgaard, Ikeda, Chad, Inoue, Manami, Irvine, Caleb Mackay Salpeter, Jacobsen, Kathryn H, Jahanmehr, Nader, Jakovljevic, Mihajlo B, Jauregui, Alejandra, Javanbakht, Mehdi, Jeemon, Panniyammakal, Jha, Vivekanand, John, Denny, Johnson, Catherine O, Johnson, Sarah Charlotte, Jonas, Jost B, Jürisson, Mikk, Kabir, Zubair, Kadel, Rajendra, Kahsay, Amaha, Kamal, Ritul, Karch, André, Karema, Corine Kakizi, Kasaeian, Amir, Kassebaum, Nicholas J, Kastor, Anshul, Katikireddi, Srinivasa Vittal, Kawakami, Norito, Keiyoro, Peter Njenga, Kelbore, Sefonias Getachew, Kemmer, Laura, Kengne, Andre Pascal, Kesavachandran, Chandrasekharan Nair, Khader, Yousef Saleh, Khalil, Ibrahim A, Khan, Ejaz Ahmad, Khang, Young-Ho, Khosravi, Ardeshir, Khubchandani, Jagdish, Kieling, Christian, Kim, Jun Y, Kim, Yun Jin, Kim, Daniel, Kimokoti, Ruth W, Kinfu, Yohannes, Kisa, Adnan, Kissimova-Skarbek, Katarzyna A, Kivimaki, Mika, Kokubo, Yoshihiro, Kopec, Jacek A, Kosen, Soewarta, Koul, Parvaiz A, Koyanagi, Ai, Kravchenko, Michael, Krohn, Kristopher J, Kulikoff, Xie Rachel, Kumar, G Anil, Kumar Lal, Dharmesh, Kutz, Michael J, Kyu, Hmwe H, Lalloo, Ratilal, Lansingh, Van C, Larsson, Anders, Lazarus, Jeffrey Victor, Lee, Paul H, Leigh, James, Leung, Janni, Leung, Ricky, Levi, Miriam, Li, Yongmei, Liben, Misgan Legesse, Linn, Shai, Liu, Patrick Y, Liu, Shiwei, Lodha, Rakesh, Looker, Katharine J, Lopez, Alan D, Lorkowski, Stefan, Lotufo, Paulo A, Lozano, Rafael, Lucas, Timothy C D, Lunevicius, Raimundas, Mackay, Mark T, Maddison, Emilie R, Magdy Abd El Razek, Hassan, Magdy Abd El Razek, Mohammed, Majdan, Marek, Majdzadeh, Reza, Majeed, Azeem, Malekzadeh, Reza, Malhotra, Rajesh, Malta, Deborah Carvalho, Mamun, Abdullah A, Manguerra, Helena, Mantovani, Lorenzo G, Manyazewal, Tsegahun, Mapoma, Chabila C, Marks, Guy B, Martin, Randall V, Martinez-Raga, Jose, Martins-Melo, Francisco Rogerlândio, Martopullo, Ira, Mathur, Manu Raj, Mazidi, Mohsen, McAlinden, Colm, McGaughey, Madeline, McGrath, John J, McKee, Martin, Mehata, Suresh, Mehndiratta, Man Mohan, Meier, Toni, Meles, Kidanu Gebremariam, Memish, Ziad A, Mendoza, Walter, Mengesha, Melkamu Merid, Mengistie, Mubarek Abera, Mensah, George A, Mensink, Gert B M, Mereta, Seid Tiku, Meretoja, Tuomo J, Meretoja, Atte, Mezgebe, Haftay Berhane, Micha, Renata, Millear, Anoushka, Miller, Ted R, Minnig, Shawn, Mirarefin, Mojde, Mirrakhimov, Erkin M, Misganaw, Awoke, Mishra, Shiva Raj, Mitchell, Philip B, Mohammad, Karzan Abdulmuhsin, Mohammed, Kedir Endris, Mohammed, Shafiu, Mohan, Murali B V, Mokdad, Ali H, Mollenkopf, Sarah K, Monasta, Lorenzo, Montañez Hernandez, Julio Cesar, Montico, Marcella, Moradi-Lakeh, Maziar, Moraga, Paula, Morawska, Lidia, Morrison, Shane D, Moses, Mark W, Mountjoy-Venning, Cliff, Mueller, Ulrich O, Muller, Kate, Murthy, Gudlavalleti Venkata Satyanarayana, Musa, Kamarul Imran, Naghavi, Mohsen, Naheed, Aliya, Naidoo, Kovin S, Nangia, Vinay, Natarajan, Gopalakrishnan, Negoi, Ruxandra Irina, Negoi, Ionut, Nguyen, Cuong Tat, Nguyen, Quyen Le, Nguyen, Trang Huyen, Nguyen, Grant, Nguyen, Minh, Nichols, Emma, Ningrum, Dina Nur Anggraini, Nomura, Marika, Nong, Vuong Minh, Norheim, Ole F, Noubiap, Jean Jacques N, Obermeyer, Carla Makhlouf, Ogbo, Felix Akpojene, Oh, In-Hwan, Oladimeji, Olanrewaju, Olagunju, Andrew Toyin, Olagunju, Tinuke Oluwasefunmi, Olivares, Pedro R, Olsen, Helen E, Olusanya, Bolajoko Olubukunola, Olusanya, Jacob Olusegun, Ong, Kanyin, Oren, Eyal, Ortiz, Alberto, Owolabi, Mayowa O, PA, Mahesh, Pana, Adrian, Panda, Basant Kumar, Panda-Jonas, Songhomitra, Papachristou, Christina, Park, Eun-Kee, Patton, George C, Paulson, Katherine, Pereira, David M, Perico, David Norberto, Pesudovs, Konrad, Petzold, Max, Phillips, Michael Robert, Pigott, David M, Pillay, Julian David, Pinho, Christine, Piradov, Michael A, Pishgar, Farhad, Poulton, Richie G, Pourmalek, Farshad, Qorbani, Mostafa, Radfar, Amir, Rafay, Anwar, Rahimi-Movaghar, Vafa, Rahman, Mohammad Hifz Ur, Rahman, Muhammad Aziz, Rahman, Mahfuzar, Rai, Rajesh Kumar, Rajsic, Sasa, Ram, Usha, Ranabhat, Chhabi Lal, Rao, Puja C, Rawaf, Salman, Reidy, Patrick, Reiner, Robert C, Reinig, Nikolas, Reitsma, Marissa B, Remuzzi, Giuseppe, Renzaho, Andre M N, Resnikoff, Serge, Rezaei, Satar, Rios Blancas, Maria Jesus, Rivas, Jacqueline Castillo, Roba, Kedir Teji, Rojas-Rueda, David, Rokni, Mohammad Bagher, Roshandel, Gholamreza, Roth, Gregory A, Roy, Ambuj, Rubagotti, Enrico, Sadat, Nafis, Safdarian, Mahdi, Safi, Sare, Safiri, Saeid, Sagar, Rajesh, Salama, Joseph, Salomon, Joshua A, Samy, Abdallah M, Sanabria, Juan Ramon, Santomauro, Damian, Santos, Itamar S, Santos, João Vasco, Santric Milicevic, Milena M, Sartorius, Benn, Satpathy, Maheswar, Sawhney, Monika, Saxena, Sonia, Saylan, Mete I, Schmidt, Maria Inês, Schneider, Ione J C, Schneider, Matthew T, Schöttker, Ben, Schutte, Aletta E, Schwebel, David C, Schwendicke, Falk, Seedat, Soraya, Sepanlou, Sadaf G, Servan-Mori, Edson E, Shackelford, Katya Anne, Shaheen, Amira, Shahraz, Saeid, Shaikh, Masood Ali, Shamsipour, Mansour, Shamsizadeh, Morteza, Shariful Islam, Sheikh Mohammed, Sharma, Jayendra, Sharma, Rajesh, She, Jun, Shi, Peilin, Shibuya, Kenji, Shields, Chloe, Shifa, Girma Temam, Shiferaw, Mekonnen Sisay, Shigematsu, Mika, Shin, Min-Jeong, Shiri, Rahman, Shirkoohi, Reza, Shirude, Shreya, Shishani, Kawkab, Shoman, Haitham, Shrime, Mark G, Silberberg, Donald H, Silva, Diego Augusto Santos, Silva, João Pedro, Silveira, Dayane Gabriele Alves, Singh, Jasvinder A, Singh, Virendra, Sinha, Dhirendra Narain, Skiadaresi, Eirini, Slepak, Erica Leigh, Sligar, Amber, Smith, David L, Smith, Alison, Smith, Mari, Sobaih, Badr H A, Sobngwi, Eugene, Soljak, Michael, Soneji, Samir, Sorensen, Reed J D, Sposato, Luciano A, Sreeramareddy, Chandrashekhar T, Srinivasan, Vinay, Stanaway, Jeffrey D, Stein, Dan J, Steiner, Caitlyn, Steinke, Sabine, Stokes, Mark Andrew, Strub, Bryan, Sufiyan, Muawiyyah Babale, Sunguya, Bruno F, Sur, Patrick J, Swaminathan, Soumya, Sykes, Bryan L, Sylte, Dillon O, Szoeke, Cassandra E I, Tabarés-Seisdedos, Rafael, Tadakamadla, Santosh Kumar, Tandon, Nikhil, Tao, Tianchan, Tarekegn, Yihunie L, Tavakkoli, Mohammad, Taveira, Nuno, Tegegne, Teketo Kassaw, Terkawi, Abdullah Sulieman, Tessema, Gizachew Assefa, Thakur, JS, Thankappan, Kavumpurathu Raman, Thrift, Amanda G, Tiruye, Tenaw Yimer, Tobe-Gai, Ruoyan, Topor-Madry, Roman, Torre, Anna, Tortajada, Miguel, Tran, Bach Xuan, Troeger, Christopher, Truelsen, Thomas, Tsoi, Derrick, Tuem, Kald Beshir, Tuzcu, Emin Murat, Tyrovolas, Stefanos, Ukwaja, Kingsley N, Uneke, Chigozie Jesse, Updike, Rachel, Uthman, Olalekan A, van Boven, Job F M, Varughese, Santosh, Vasankari, Tommi, Venketasubramanian, Narayanaswamy, Vidavalur, Ramesh, Violante, Francesco S, Vladimirov, Sergey K, Vlassov, Vasiliy Victorovich, Vollset, Stein Emil, Vos, Theo, Wadilo, Fiseha, Wakayo, Tolassa, Wallin, Mitchell T, Wang, Yuan-Pang, Weichenthal, Scott, Weiderpass, Elisabete, Weintraub, Robert G, Weiss, Daniel J, Werdecker, Andrea, Westerman, Ronny, Whiteford, Harvey A, Wijeratne, Tissa, Wiysonge, Charles Shey, Woldeyes, Belete Getahun, Wolfe, Charles D A, Woodbrook, Rachel, Xavier, Denis, Xu, Gelin, Yadgir, Simon, Yakob, Bereket, Yan, Lijing L, Yano, Yuichiro, Yaseri, Mehdi, Ye, Pengpeng, Yimam, Hassen Hamid, Yip, Paul, Yonemoto, Naohiro, Yoon, Seok-Jun, Yotebieng, Marcel, Younis, Mustafa Z, Zaidi, Zoubida, Zaki, Maysaa El Sayed, Zavala-Arciniega, Luis, Zhang, Xueying, Zipkin, Ben, Zodpey, Sanjay, Lim, Stephen S, and Murray, Christopher J L

Published
2017
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results