Literature DB >> 30061156

Silent infarcts in sickle cell disease occur in the border zone region and are associated with low cerebral blood flow.

Andria L Ford1, Dustin K Ragan1, Slim Fellah1, Michael M Binkley1, Melanie E Fields2, Kristin P Guilliams1,2, Hongyu An3, Lori C Jordan4, Robert C McKinstry3, Jin-Moo Lee1,3, Michael R DeBaun4.   

Abstract

Silent cerebral infarcts (SCIs) are associated with cognitive impairment in sickle cell anemia (SCA). SCI risk factors include low hemoglobin and elevated systolic blood pressure; however, mechanisms underlying their development are unclear. Using the largest prospective study evaluating SCIs in pediatric SCA, we identified brain regions with increased SCI density. We tested the hypothesis that infarct density is greatest within regions in which cerebral blood flow is lowest, further restricting cerebral oxygen delivery in the setting of chronic anemia. Neuroradiology and neurology committees reached a consensus of SCIs in 286 children in the Silent Infarct Transfusion (SIT) Trial. Each infarct was outlined and coregistered to a brain atlas to create an infarct density map. To evaluate cerebral blood flow as a function of infarct density, pseudocontinuous arterial spin labeling was performed in an independent pediatric SCA cohort. Blood flow maps were aligned to the SIT Trial infarct density map. Mean blood flow within low, moderate, and high infarct density regions from the SIT Trial were compared. Logistic regression evaluated clinical and imaging predictors of overt stroke at 3-year follow-up. The SIT Trial infarct density map revealed increased SCI density in the deep white matter of the frontal and parietal lobes. A relatively small region, measuring 5.6% of brain volume, encompassed SCIs from 90% of children. Cerebral blood flow was lowest in the region of highest infarct density (P < .001). Baseline infarct volume and reticulocyte count predicted overt stroke. In pediatric SCA, SCIs are symmetrically located in the deep white matter where minimum cerebral blood flow occurs.
© 2018 by The American Society of Hematology.

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Year:  2018        PMID: 30061156      PMCID: PMC6194388          DOI: 10.1182/blood-2018-04-841247

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   25.476


  40 in total

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Authors:  Mark Jenkinson; Peter Bannister; Michael Brady; Stephen Smith
Journal:  Neuroimage       Date:  2002-10       Impact factor: 6.556

2.  Quantitative brain diffusion-tensor MRI findings in patients with sickle cell disease.

Authors:  Ali Balci; Sinem Karazincir; Yeliz Beyoglu; Cihangir Cingiz; Ramazan Davran; Edip Gali; Esra Okuyucu; Ertugrul Egilmez
Journal:  AJR Am J Roentgenol       Date:  2012-05       Impact factor: 3.959

3.  Poor school and cognitive functioning with silent cerebral infarcts and sickle cell disease.

Authors:  J Schatz; R T Brown; J M Pascual; L Hsu; M R DeBaun
Journal:  Neurology       Date:  2001-04-24       Impact factor: 9.910

4.  Volumetric neuroimage analysis extensions for the MIPAV software package.

Authors:  Pierre-Louis Bazin; Jennifer L Cuzzocreo; Michael A Yassa; William Gandler; Matthew J McAuliffe; Susan S Bassett; Dzung L Pham
Journal:  J Neurosci Methods       Date:  2007-05-29       Impact factor: 2.390

5.  Large-Vessel Vasculopathy in Children With Sickle Cell Disease: A Magnetic Resonance Imaging Study of Infarct Topography and Focal Atrophy.

Authors:  Kristin P Guilliams; Melanie E Fields; Dustin K Ragan; Yasheng Chen; Cihat Eldeniz; Monica L Hulbert; Michael M Binkley; James N Rhodes; Joshua S Shimony; Robert C McKinstry; Katie D Vo; Hongyu An; Jin-Moo Lee; Andria L Ford
Journal:  Pediatr Neurol       Date:  2016-12-07       Impact factor: 3.372

6.  Acute perfusion and diffusion abnormalities predict early new MRI lesions 1 week after minor stroke and transient ischemic attack.

Authors:  Negar Asdaghi; Bilal Hameed; Monica Saini; Thomas Jeerakathil; Derek Emery; Kenneth Butcher
Journal:  Stroke       Date:  2011-07-07       Impact factor: 7.914

7.  Controlled trial of transfusions for silent cerebral infarcts in sickle cell anemia.

Authors:  Michael R DeBaun; Mae Gordon; Robert C McKinstry; Michael J Noetzel; Desiree A White; Sharada A Sarnaik; Emily R Meier; Thomas H Howard; Suvankar Majumdar; Baba P D Inusa; Paul T Telfer; Melanie Kirby-Allen; Timothy L McCavit; Annie Kamdem; Gladstone Airewele; Gerald M Woods; Brian Berman; Julie A Panepinto; Beng R Fuh; Janet L Kwiatkowski; Allison A King; Jason M Fixler; Melissa M Rhodes; Alexis A Thompson; Mark E Heiny; Rupa C Redding-Lallinger; Fenella J Kirkham; Natalia Dixon; Corina E Gonzalez; Karen A Kalinyak; Charles T Quinn; John J Strouse; J Philip Miller; Harold Lehmann; Michael A Kraut; William S Ball; Deborah Hirtz; James F Casella
Journal:  N Engl J Med       Date:  2014-08-21       Impact factor: 91.245

8.  Risk of recurrent stroke in children with sickle cell disease receiving blood transfusion therapy for at least five years after initial stroke.

Authors:  Douglas J Scothorn; Cynthia Price; Daniel Schwartz; Cindy Terrill; George R Buchanan; Wanda Shurney; Ingrid Sarniak; Robert Fallon; Jen-Yih Chu; Charles H Pegelow; Winfred Wang; James F Casella; Linda S Resar; Brian Berman; Thomas Adamkiewicz; Lewis L Hsu; Kwaku Ohene-Frempong; Kim Smith-Whitley; Donald Mahoney; J Paul Scott; Gerald M Woods; Masayo Watanabe; Michael R Debaun
Journal:  J Pediatr       Date:  2002-03       Impact factor: 4.406

9.  Longitudinal changes in brain magnetic resonance imaging findings in children with sickle cell disease.

Authors:  Charles H Pegelow; Eric A Macklin; Franklin G Moser; Winfred C Wang; Jacqueline A Bello; Scott T Miller; Elliott P Vichinsky; Michael R DeBaun; Ludovico Guarini; Robert A Zimmerman; Donald P Younkin; Dianne M Gallagher; Thomas R Kinney
Journal:  Blood       Date:  2002-04-15       Impact factor: 22.113

10.  Associated risk factors for silent cerebral infarcts in sickle cell anemia: low baseline hemoglobin, sex, and relative high systolic blood pressure.

Authors:  Michael R DeBaun; Sharada A Sarnaik; Mark J Rodeghier; Caterina P Minniti; Thomas H Howard; Rathi V Iyer; Baba Inusa; Paul T Telfer; Melanie Kirby-Allen; Charles T Quinn; Françoise Bernaudin; Gladstone Airewele; Gerald M Woods; Julie Ann Panepinto; Beng Fuh; Janet K Kwiatkowski; Allison A King; Melissa M Rhodes; Alexis A Thompson; Mark E Heiny; Rupa C Redding-Lallinger; Fenella J Kirkham; Hernan Sabio; Corina E Gonzalez; Suzanne L Saccente; Karen A Kalinyak; John J Strouse; Jason M Fixler; Mae O Gordon; J Phillip Miller; Michael J Noetzel; Rebecca N Ichord; James F Casella
Journal:  Blood       Date:  2011-11-17       Impact factor: 22.113
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  35 in total

Review 1.  Advances in Understanding Ischemic Stroke Physiology and the Impact of Vasculopathy in Children With Sickle Cell Disease.

Authors:  Kristin P Guilliams; Melanie E Fields; Michael M Dowling
Journal:  Stroke       Date:  2019-02       Impact factor: 7.914

2.  Reduced oxygen extraction efficiency in sickle cell anemia patients with evidence of cerebral capillary shunting.

Authors:  Meher R Juttukonda; Manus J Donahue; Spencer L Waddle; Larry T Davis; Chelsea A Lee; Niral J Patel; Sumit Pruthi; Adetola A Kassim; Lori C Jordan
Journal:  J Cereb Blood Flow Metab       Date:  2020-04-11       Impact factor: 6.200

Review 3.  The multifaceted role of ischemia/reperfusion in sickle cell anemia.

Authors:  Robert P Hebbel; John D Belcher; Gregory M Vercellotti
Journal:  J Clin Invest       Date:  2020-03-02       Impact factor: 14.808

4.  White matter has impaired resting oxygen delivery in sickle cell patients.

Authors:  Yaqiong Chai; Adam M Bush; Julie Coloigner; Aart J Nederveen; Benita Tamrazi; Chau Vu; Soyoung Choi; Thomas D Coates; Natasha Lepore; John C Wood
Journal:  Am J Hematol       Date:  2019-02-21       Impact factor: 10.047

5.  Stroke and myocardial infarction in hereditary thrombotic thrombocytopenic purpura: similarities to sickle cell anemia.

Authors:  Azra Borogovac; James N George
Journal:  Blood Adv       Date:  2019-12-10

6.  A cross-sectional, case-control study of intracranial arterial wall thickness and complete blood count measures in sickle cell disease.

Authors:  Shuai Yuan; Lori C Jordan; Larry T Davis; Petrice M Cogswell; Chelsea A Lee; Niral J Patel; Spencer L Waddle; Meher Juttukonda; R Sky Jones; Allison Griffin; Manus J Donahue
Journal:  Br J Haematol       Date:  2020-12-16       Impact factor: 6.998

7.  Haploidentical bone marrow transplantation improves cerebral hemodynamics in adults with sickle cell disease.

Authors:  Lori C Jordan; Meher R Juttukonda; Adetola A Kassim; Michael R DeBaun; Larry T Davis; Sumit Pruthi; Niral J Patel; Chelsea A Lee; Spencer L Waddle; Manus J Donahue
Journal:  Am J Hematol       Date:  2019-03-24       Impact factor: 10.047

8.  Hydroxyurea reduces cerebral metabolic stress in patients with sickle cell anemia.

Authors:  Melanie E Fields; Kristin P Guilliams; Dustin Ragan; Michael M Binkley; Amy Mirro; Slim Fellah; Monica L Hulbert; Morey Blinder; Cihat Eldeniz; Katie Vo; Joshua S Shimony; Yasheng Chen; Robert C McKinstry; Hongyu An; Jin-Moo Lee; Andria L Ford
Journal:  Blood       Date:  2019-03-11       Impact factor: 22.113

9.  Functional Connectivity Decreases with Metabolic Stress in Sickle Cell Disease.

Authors:  Melanie E Fields; Amy E Mirro; Kristin P Guilliams; Michael M Binkley; Luisa Gil Diaz; Jessica Tan; Slim Fellah; Cihat Eldeniz; Yasheng Chen; Andria L Ford; Joshua S Shimony; Allison A King; Hongyu An; Christopher D Smyser; Jin-Moo Lee
Journal:  Ann Neurol       Date:  2020-09-16       Impact factor: 10.422

10.  Partial recovery of vegetative state after a massive ischaemic stroke in a child with sickle cell anaemia.

Authors:  Calixto Machado; Rafael Rodríguez-Rojas; Gerry Leisman
Journal:  BMJ Case Rep       Date:  2020-05-05
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