Book contents
- Uncommon Causes of Stroke
- Uncommon Causes of Stroke
- Copyright page
- Contents
- Contributors
- Preface
- Section 1 Infectious Conditions
- Section 2 Inflammatory Conditions
- Section 3 Hereditary and Genetic Conditions and Malformations
- Chapter 16 Pulmonary Arteriovenous Malformations
- Chapter 17 Hereditary Hemorrhagic Telangiectasia
- Chapter 18 Cerebral Autosomal-Dominant Arteriopathy with Subcortical Infarcts and Leukoencephalopathy (CADASIL)
- Chapter 19 Cerebral Autosomal-Recessive Arteriopathy with Subcortical Infarcts and Leukoencephalopathy (CARASIL)
- Chapter 20 Sickle Cell Disease and Other Hemoglobinopathies
- Chapter 21 Cerebrovascular Complications of Fabry Disease*
- Chapter 22 Marfan Syndrome
- Chapter 23 Pseudoxanthoma Elasticum
- Chapter 24 Ehlers–Danlos Syndrome
- Chapter 25 Progeria
- Chapter 26 MELAS Syndrome and Other Mitochondrial Disorders
- Chapter 27 Sturge–Weber Syndrome
- Chapter 28 Von Hippel–Lindau Disease
- Chapter 29 Familial Aneurysms
- Chapter 30 Cerebral Cavernous Malformations and Developmental Venous Anomalies
- Chapter 31 Cerebrovascular Manifestations of Neurofibromatosis
- Chapter 32 Menkes Disease
- Chapter 33 Wyburn–Mason Syndrome
- Chapter 34 Divry–van Bogaert Syndrome
- Chapter 35 Blue Rubber Bleb Syndrome
- Section 4 Vascular Conditions of the Eyes, Ears, and Brain
- Section 5 Disorders Involving Abnormal Coagulation
- Section 6 Systemic Disorders That Also Involve the Cerebrovascular System
- Section 7 Non-Inflammatory Disorders of the Arterial Wall
- Section 8 Venous Occlusive Conditions
- Section 9 Vasospastic Conditions and Other Miscellaneous Vasculopathies
- Index
- Plate Section (PDF Only)
- References
Chapter 20 - Sickle Cell Disease and Other Hemoglobinopathies
from Section 3 - Hereditary and Genetic Conditions and Malformations
Published online by Cambridge University Press: 15 June 2018
Book contents
- Uncommon Causes of Stroke
- Uncommon Causes of Stroke
- Copyright page
- Contents
- Contributors
- Preface
- Section 1 Infectious Conditions
- Section 2 Inflammatory Conditions
- Section 3 Hereditary and Genetic Conditions and Malformations
- Chapter 16 Pulmonary Arteriovenous Malformations
- Chapter 17 Hereditary Hemorrhagic Telangiectasia
- Chapter 18 Cerebral Autosomal-Dominant Arteriopathy with Subcortical Infarcts and Leukoencephalopathy (CADASIL)
- Chapter 19 Cerebral Autosomal-Recessive Arteriopathy with Subcortical Infarcts and Leukoencephalopathy (CARASIL)
- Chapter 20 Sickle Cell Disease and Other Hemoglobinopathies
- Chapter 21 Cerebrovascular Complications of Fabry Disease*
- Chapter 22 Marfan Syndrome
- Chapter 23 Pseudoxanthoma Elasticum
- Chapter 24 Ehlers–Danlos Syndrome
- Chapter 25 Progeria
- Chapter 26 MELAS Syndrome and Other Mitochondrial Disorders
- Chapter 27 Sturge–Weber Syndrome
- Chapter 28 Von Hippel–Lindau Disease
- Chapter 29 Familial Aneurysms
- Chapter 30 Cerebral Cavernous Malformations and Developmental Venous Anomalies
- Chapter 31 Cerebrovascular Manifestations of Neurofibromatosis
- Chapter 32 Menkes Disease
- Chapter 33 Wyburn–Mason Syndrome
- Chapter 34 Divry–van Bogaert Syndrome
- Chapter 35 Blue Rubber Bleb Syndrome
- Section 4 Vascular Conditions of the Eyes, Ears, and Brain
- Section 5 Disorders Involving Abnormal Coagulation
- Section 6 Systemic Disorders That Also Involve the Cerebrovascular System
- Section 7 Non-Inflammatory Disorders of the Arterial Wall
- Section 8 Venous Occlusive Conditions
- Section 9 Vasospastic Conditions and Other Miscellaneous Vasculopathies
- Index
- Plate Section (PDF Only)
- References
Summary
A summary is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.
- Type
- Chapter
- Information
- Uncommon Causes of Stroke , pp. 147 - 157Publisher: Cambridge University PressPrint publication year: 2018
References
Adams, R., Aaslid, R., el Gammal, T., Nichols, F., & McKie, V. (1988a) Detection of cerebral vasculopathy in sickle cell disease using transcranial Doppler ultrasonography and magnetic resonance imaging. Case report. Stroke, 19, 518–520.Google Scholar
Adams, R. J., Nichols, F. T., McKie, V., et al. (1988b) Cerebral infarction in sickle cell anemia: Mechanism based on CT and MRI. Neurology, 38, 1012.Google Scholar
Adams, R. J., Nichols, F. T., Stephens, S., et al. (1988c) Transcranial Doppler: The influence of age and hematocrit in normal children. Journal of Cardiovascular Ultrasonography, 7, 201–205.Google Scholar
Adams, R. J., Nichols, F. T., McKie, V. C, et al. (1989) Transcranial Doppler: Influence of hematocrit in children with sickle cell anemia without stroke. Journal of Cardiovascular Technology, 8, 97–101.Google Scholar
Adams, R. J., Nichols, F. T. I., Aaslid, R., et al. (1990) Cerebral vessel stenosis in sickle cell disease: Criteria for detection by transcranial Doppler. Journal of Pediatric Hematology/Oncology, 12, 277–282.Google Scholar
Adams, R., McKie, V., Nichols, F., et al. (1992a) The use of transcranial ultrasonography to predict stroke in sickle cell disease. New England Journal of Medicine, 326, 605–610.Google Scholar
Adams, R. J., Nichols, F. T., Figueroa, R., McKie, V., & Lott, T. (1992b) Transcranial Doppler correlation with cerebral angiography in sickle cell disease. Stroke, 23, 1073–1077.Google Scholar
Adams, R. J., McKie, V. C., Hsu, L., et al. (1998) Prevention of a first stroke by transfusions in children with sickle cell anemia and abnormal results on transcranial Doppler ultrasonography. New England Journal of Medicine, 339, 5–11.Google Scholar
Adams, R. J., Brambilla, D. J., Granger, S., et al. (2004) Stroke and conversion to high risk in children screened with transcranial Doppler ultrasound during the STOP study. Blood, 103, 3689–3694.Google Scholar
Adams, R. J., Brambilla, D., & Optimizing Primary Stroke Prevention in Sickle Cell Anemia (STOP 2) Trial Investigators (2005) Discontinuing prophylactic transfusions used to prevent stroke in sickle cell disease. New England Journal of Medicine, 353, 2769–2778.Google Scholar
Alkan, O., Kizilkilic, E., Kizilkilic, O., et al. (2010) Cranial involvement in sickle cell disease. Eur J Radiol, 76, 151–156.CrossRefGoogle ScholarPubMed
Atweh, G. F., DeSimone, J., Saunthararajah, Y., et al. (2003) Hemoglobinopathies. Hematology, 1, 14–39.Google Scholar
Aygun, B., Padmanabhan, S., Paley, C., & Chandrasekaran, V. (2002) Clinical significance of RBC alloantibodies and autoantibodies in sickle cell patients who received transfusions. Transfusion, 42, 37–43.Google Scholar
Bernaudin, F., Verlhac, S., Freard, F., et al. (2000) Multicenter prospective study of children with sickle cell disease: Radiographic and psychometric correlation. Journal of Child Neurology, 15, 333–343.Google Scholar
Bernaudin, F., Verlhac, S., Arnaud, C., et al. (2011) Impact of early transcranial Doppler screening and intensive therapy on cerebral vasculopathy outcome in a newborn sickle cell anemia cohort. Blood, 117, 1130–1140; quiz 1436.CrossRefGoogle Scholar
Bernaudin, F., Verlhac, S., Arnaud, C., et al. (2015) Chronic, acute anemia and eICA stenosis are independent risk factors for silent cerebral infarcts in sickle cell anemia. Blood, 125, 1653–1661.Google Scholar
Borgna Pignatti, C., Carnelli, V., Caruso, V., et al. (1998) Thromboembolic events in beta thalassemia major: An Italian multicenter study. Acta Haematologica, 99, 76–79.Google Scholar
Centers for Disease Control and Prevention (2012) Children with sickle cell disease had significantly higher medical costs than those without sickle cell disease. Atlanta, GA: Centers for Disease Control and Prevention.Google Scholar
Clarke, G. M. & Higgins, T. N. (2000) Laboratory investigation of hemoglobinopathies and thalassemias: Review and update. Clinical Chemistry, 46, 1284–1290.Google Scholar
Connes, P., Verlhac, S., & Bernaudin, F. (2013) Advances in understanding the pathogenesis of cerebrovascular vasculopathy in sickle cell anaemia. British Journal of Haematology, 161, 484–498.Google Scholar
DeBaun, M. R., Gordon, M., McKinstry, R. C., et al. (2014) Controlled trial of transfusions for silent cerebral infarcts in sickle cell anemia. New England Journal of Medicine, 371, 699–710.Google Scholar
Dobson, S. R., Holden, K. R., Nietert, P. J., et al. (2002) Moyamoya syndrome in childhood sickle cell disease: A predictive factor for recurrent cerebrovascular events. Blood, 99, 3144–3150.Google Scholar
Dowling, M. M., Quinn, C. T., Plumb, P., et al. (2012) Acute silent cerebral ischemia and infarction during acute anemia in children with and without sickle cell disease. Blood, 120, 3891–3897.Google Scholar
England, J., Rowan, R., Dawson, D., et al. (1988) Guidelines for haemoglobinopathy screening. Clinical & Laboratory Haematology, 10, 87–94.Google Scholar
Feldenzer, J., Mears, J. G., Burns, A. L., Natta, C., & Bank, A. (1979) Heterogeneity of DNA fragments associated with the sickle-globin gene. Journal of Clinical Investigation, 64, 751–755.CrossRefGoogle ScholarPubMed
Fisher, T. C. (2000) PEG-coated red blood cells: Simplifying blood transfusion in the new millennium? Immunohematology, 16, 37–48.CrossRefGoogle ScholarPubMed
Gebreyohanns, M. & Adams, R. J. (2004) Sickle cell disease: Primary stroke prevention. CNS Spectrums, 9, 445–449.Google Scholar
Gluckman, E. (2013) Allogeneic transplantation strategies including haploidentical transplantation in sickle cell disease. Hematology, 2013, 370–376.Google Scholar
Goldstein, L. B., Bushnell, C. D., Adams, R. J., et al. (2011) Guidelines for the primary prevention of stroke: A guideline for healthcare professionals from the American Heart Association/American Stroke Association. Stroke, 42, 517–584.Google Scholar
Griessenauer, C. J., Lebensburger, J. D., Chua, M. H., et al. (2015) Encephaloduroarteriosynangiosis and encephalomyoarteriosynangiosis for treatment of moyamoya syndrome in pediatric patients with sickle cell disease. J Neurosurg Pediatr, 16, 64–73.Google Scholar
Herrick, J. B. (1910) Peculiar elongated and sickle-shaped red blood corpuscles in a case of severe anemia. Archives of Internal Medicine, VI, 517–521.Google Scholar
Hulbert, M. L., Scothorn, D. J., Panepinto, J. A., et al. (2006) Exchange blood transfusion compared with simple transfusion for first overt stroke is associated with a lower risk of subsequent stroke: A retrospective cohort study of 137 children with sickle cell anemia. The Journal of Pediatrics, 149, 710–712.Google Scholar
Hulbert, M. L., McKinstry, R. C., Lacey, J. L., et al. (2011) Silent cerebral infarcts occur despite regular blood transfusion therapy after first strokes in children with sickle cell disease. Blood, 117, 772–779.CrossRefGoogle ScholarPubMed
Jeffries, B., Lipper, M., & Kishore, P. (1980) Major intracerebral arterial involvement in sickle cell disease. Surgical Neurology, 14, 291–295.Google Scholar
Jordan, L. C., Casella, J. F., & DeBaun, M. R. (2012) Prospects for primary stroke prevention in children with sickle cell anaemia. British Journal of Haematology, 157, 14–25.CrossRefGoogle ScholarPubMed
Kan, Y. W. & Dozy, A. M. (1980) Evolution of the hemoglobin S and C genes in world populations. Science, 209, 388–391.CrossRefGoogle Scholar
Kennedy, B. C., McDowell, M. M., Yang, P. H., et al. (2014) Pial synangiosis for moyamoya syndrome in children with sickle cell anemia: A comprehensive review of reported cases. Neurosurg Focus, 36, E12.CrossRefGoogle ScholarPubMed
Kernan, W. N., Ovbiagele, B., Black, H. R., et al. (2014) Guidelines for the prevention of stroke in patients with stroke and transient ischemic attack: A guideline for healthcare professionals from the American Heart Association/American Stroke Association. Stroke, 45, 2160–2236.Google Scholar
Kotb, M. M., Tantawi, W. H., Elsayed, A. A., Damanhouri, G. A., & Malibary, H. M. (2006) Brain MRI and CT findings in sickle cell disease patients from western Saudi Arabia. Neurosciences (Riyadh), 11, 28–36.Google Scholar
Kwiatkowski, J. L., Zimmerman, R. A., Pollock, A. N., et al. (2009a) Silent infarcts in young children with sickle cell disease. British Journal of Haematology, 146, 300–305.Google Scholar
Kwiatkowski, J. L., Zimmerman, R. A., Pollock, A. N., et al. (2009b) Silent infarcts in young children with sickle cell disease. British Journal of Haematology, 146, 300–305.Google Scholar
Merkel, K., Ginsberg, P., Parker, J., & Post, M. (1978) Cerebrovascular disease in sickle cell anemia: A clinical, pathological and radiological correlation. Stroke, 9, 45–52.Google Scholar
Miller, S. T., Macklin, E. A., Pegelow, C. H, et al. (2001) Silent infarction as a risk factor for overt stroke in children with sickle cell anemia: A report from the Cooperative Study of Sickle Cell Disease. Journal of Pediatrics, 139, 385–390.Google Scholar
Moritani, T., Numaguchi, Y., Lemer, N. B., et al. (2004) Sickle cell cerebrovascular disease: Usual and unusual findings on MR imaging and MR angiography. Clinical Imaging, 28, 173–186.Google Scholar
Nemtsas, P., Arnaoutoglou, M., Perifanis, V., Koutsouraki, E., & Orologas, A. (2015) Neurological complications of beta-thalassemia. Annals of Hematology, 94, 1261–1265.CrossRefGoogle ScholarPubMed
Ohene-Frempong, K., Weiner, S. J., Sleeper, L. A., et al. (1998) Cerebrovascular accidents in sickle cell disease: Rates and risk factors. Blood, 91, 288–294.Google Scholar
Oyesiku, N. M., Barrow, D. L., Eckman, J. R., Tindall, S. C., & Colohan, A.R. (1991) Intracranial aneurysms in sickle-cell anemia: Clinical features and pathogenesis. Journal of Neurosurgery, 75, 356–363.Google Scholar
Pauling, L. & Itano, H. A. (1949) Sickle cell anemia a molecular disease. Science (New York), 110, 543–548.CrossRefGoogle ScholarPubMed
Pavlakis, S., Prohovnik, I., Piomelli, S., & De Vivo, D. (1989) Neurologic complications of sickle cell disease. Advances in Pediatrics, 36, 247–276.Google Scholar
Powars, D., Wilson, B., Imbus, C., Pegelow, C., & Allen, J. (1978) The natural history of stroke in sickle cell disease. The American Journal of Medicine, 65, 461–471.Google Scholar
Powars, D. R., Wong, W.-Y., & Vachon, L. A. (2001) Incomplete cerebral infarctions are not silent. Journal of Pediatric Hematology/Oncology, 23, 79–83.Google Scholar
Prohovnik, I., Pavlakis, S., Piomelli, S., et al. (1989) Cerebral hyperemia, stroke, and transfusion in sickle cell disease. Neurology, 39, 344–344.Google Scholar
Prohovnik, I., Hurlet-Jensen, A., Adams, R., De Vivo, D., & Pavlakis, S. G. (2009) Hemodynamic etiology of elevated flow velocity and stroke in sickle-cell disease. Journal of Cerebral Blood Flow & Metabolism, 29, 803–810.Google Scholar
Roberts, D. O., Covert, B., Lindsey, T., et al. (2012) Directed blood donor program decreases donor exposure for children with sickle cell disease requiring chronic transfusion. Immunohematology, 28, 7–12.Google Scholar
Russell, M. O., Goldberg, H. I., Hodson, A., et al. (1984) Effect of transfusion therapy on arteriographic abnormalities and on recurrence of stroke in sickle cell disease. Blood, 63, 162–169.Google Scholar
Steinberg, M. H., Forget, B. G., Higgs, D. R., & Weatherall, D. J. (2009) Disorders of Hemoglobin: Genetics, Pathophysiology, and Clinical Management. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Stephens, A., Baine, R., Rucknagel, D., Schneider, R., & Serjeant, G. (1988) Recommendations for neonatal screening for haemoglobinopathies. Clinical & Laboratory Haematology, 10, 335–345.Google Scholar
Stockman, J. A., Nigro, M. A., Mishkin, M. M., & Oski, F. A. (1972) Occlusion of large cerebral vessels in sickle-cell anemia. New England Journal of Medicine, 287, 846–849.Google Scholar
Strouse, J. J., Hulbert, M. L., DeBaun, M. R., Jordan, L. C., & Casella, J. F. (2006) Primary hemorrhagic stroke in children with sickle cell disease is associated with recent transfusion and use of corticosteroids. Pediatrics, 118, 1916–1924.Google Scholar
Strouse, J. J., Lanzkron, S., & Urrutia, V. (2011) The epidemiology, evaluation and treatment of stroke in adults with sickle cell disease. Expert Review of Hematology, 4, 597–606.Google Scholar
Sydenstricked, V. P., Mulherin, W. A., & Houseal, R. W. (1923) Sickle cell anemia: Report of two cases in children, with necropsy in one case. American Journal of Diseases of Children, 141, 612–615.Google Scholar
Tam, D. A. (1997) Protein C and protein S activity in sickle cell disease and stroke. Journal of Child Neurology, 12, 19–21.Google Scholar
Vermeer, S. E., Hollander, M., van Dijk, E. J., et al. (2003) Silent brain infarcts and white matter lesions increase stroke risk in the general population: The Rotterdam scan study. Stroke, 34, 1126–1129.CrossRefGoogle ScholarPubMed
Ware, R. E., Helms, R. W. & SWiTCH Investigators (2012) Stroke with transfusions changing to hydroxyurea (SWiTCH). Blood, 119, 3925–3932.Google Scholar
Weatherall, D. J. (2008) Hemoglobinopathies worldwide: Present and future. Current Molecular Medicine, 8, 592–599.Google Scholar
Westerman, M. P., Green, D., Gilman-Sachs, A., et al. (1999) Antiphospholipid antibodies, proteins C and S, and coagulation changes in sickle cell disease. Journal of Laboratory and Clinical Medicine, 134, 352–362.Google Scholar
Wood, J. C., Cohen, A. R., Pressel, S. L., Aygun, , et al. (2016) Organ iron accumulation in chronically transfused children with sickle cell anaemia: Baseline results from the TWiTCH trial. Br J Haematol, 172, 122–130.Google Scholar
Woods, D. H. (1978) Cerebrovascular complications of sickle cell anemia. Stroke, 9, 73–75.CrossRefGoogle Scholar
Yawn, B. P., Buchanan, G. R., Afenyi-Annan, A. N., et al. (2014) Management of sickle cell disease: Summary of the 2014 evidence-based report by expert panel members. JAMA, 312, 1033–1048.Google Scholar