Book contents
- Stories of Stroke
- Stories of Stroke
- Copyright page
- Contents
- Contributors
- Why This Book Needed to Be Written
- Preface
- Part I Early Recognition
- Part II Basic Knowledge, Sixteenth to Early Twentieth Centuries
- Part III Modern Era, Mid-Twentieth Century to the Present
- Types of Stroke
- Chapter Fifteen Carotid Artery Disease
- Chapter Sixteen Lacunes
- Chapter Seventeen Vertebrobasilar Disease
- Chapter Eighteen Aneurysms and Subarachnoid Hemorrhage
- Chapter Nineteen Intracerebral Hemorrhage
- Chapter Twenty Vascular Malformations
- Chapter Twenty One Cerebral Venous Thrombosis
- Chapter Twenty Two Arterial Dissections, Fibromuscular Dysplasia, Moyamoya Disease, and Reversible Cerebral Vasoconstriction Syndrome
- Chapter Twenty Three Blood Disorders
- Chapter Twenty Four Stroke Genetics
- Chapter Twenty Five Eye Vascular Disease
- Chapter Twenty Six Spinal Cord Vascular Disease
- Some Key Physicians
- Imaging
- Care
- Treatment
- Part IV Stroke Literature, Organizations, and Patients
- Index
- References
Chapter Nineteen - Intracerebral Hemorrhage
from Types of Stroke
Published online by Cambridge University Press: 13 December 2022
Book contents
- Stories of Stroke
- Stories of Stroke
- Copyright page
- Contents
- Contributors
- Why This Book Needed to Be Written
- Preface
- Part I Early Recognition
- Part II Basic Knowledge, Sixteenth to Early Twentieth Centuries
- Part III Modern Era, Mid-Twentieth Century to the Present
- Types of Stroke
- Chapter Fifteen Carotid Artery Disease
- Chapter Sixteen Lacunes
- Chapter Seventeen Vertebrobasilar Disease
- Chapter Eighteen Aneurysms and Subarachnoid Hemorrhage
- Chapter Nineteen Intracerebral Hemorrhage
- Chapter Twenty Vascular Malformations
- Chapter Twenty One Cerebral Venous Thrombosis
- Chapter Twenty Two Arterial Dissections, Fibromuscular Dysplasia, Moyamoya Disease, and Reversible Cerebral Vasoconstriction Syndrome
- Chapter Twenty Three Blood Disorders
- Chapter Twenty Four Stroke Genetics
- Chapter Twenty Five Eye Vascular Disease
- Chapter Twenty Six Spinal Cord Vascular Disease
- Some Key Physicians
- Imaging
- Care
- Treatment
- Part IV Stroke Literature, Organizations, and Patients
- Index
- References
Summary
Apoplexy is a historical term (apo, from or outside, and pléttô, to strike) that was defined as the abrupt, more or less complete suspension of brain activity [1]. In the epic poems of Homer that are the foundational works of ancient Greek literature, sudden death is a sign of divine wrath, by the arrows of Apollo for men, and those of Artemis for women. These arrows are often referred to as “soft,” rapid death, rather than long suffering. They are considered to be a favor of the gods [2]. During the seventh and eighth centuries BCE, observers recognized the existence of sudden ailments, often fatal, that developed in the absence of any apparent injury and occurred in healthy individuals. In the “Treatise on Diseases II and III,” Hippocrates used “apoplexy” as a clinical term that described instances in which the patient is “staggered,” with sudden headache and loss of vision, movement, and consciousness [3]. He attributed the condition to an excess of impurities in the brain, by an influx of phlegm or black bile in the blood. Erasistratus, one of the first physicians to conduct recorded dissections during the second century BCE, rejected this humoral theory; he attributed apoplexy to a sudden abundance of blood in the brain [4].
- Type
- Chapter
- Information
- Stories of StrokeKey Individuals and the Evolution of Ideas, pp. 157 - 166Publisher: Cambridge University PressPrint publication year: 2022
References
Notes and References
Chapter 8 discusses writings about apoplexy in detail.Google Scholar
Poirier, J, Derouesné, C. Apoplexy and Stroke. Cambridge: Cambridge University Press, 1993.Google Scholar
Morgagni, G. De sedibus et causis morborum per anatomen indagates (The seats and causes of diseases investigated by anatomy). London: Millar and T. Cadell, 1769. Morgani’s life and contributions is the topic of Chapter 7.Google Scholar
Lidell, JA. A Treatise on Apoplexy, Cerebral Hemorrhage, Cerebral Embolism, Cerebral Gout, Cerebral Rheumatism, and Epidemic Cerebrospinal Meningitis. New York: William Wood and Co., 1873. Reprinted as part of the Classics of Neurology and Neurosurgery Library. Birmingham, AL: Gryphon Editions, 1990, quote on p. 128.Google Scholar
Charcot, JM, Bouchard, C. Nouvelle recherches sur la pathogenie de l’hemorrhagie cerebrale. Arch. Physiol. Norm. Pathol. 1868;1:110–127, 634–665, 725–734.Google ScholarGoogle Scholar
Wepfer, JJ. Observationes anatomicae ex cadaveribus eorum, quos sustulit apoplexia, cum exercitatione de ejus loco affect. Schaffhausen: J. Caspari Suteri, 1658.Google Scholar
Cheyne, J. Cases of Apoplexy and Lethargy with Observations upon the Comatose Diseases. London: J. Moyes printer, 1812.Google Scholar
Dana, CL. Acute bulbar paralysis due to hemorrhage and softening of the pons and medulla with reports of cases and autopsies. Med. Rec. 1903;64:361–374.Google Scholar
Gowers, WR. A Manual of Diseases of the Nervous System. London: J. and A. Churchill, 1893.Google Scholar
Osler, W. The Principles and Practice of Medicine, 5th ed. New York: D. Appleton and Co., 1903, pp. 997–1008.Google Scholar
The story of the introduction of the sphygmomanometer into medical practice is discussed in Chapter 49.Google Scholar
Kornyey, S. Rapidly fatal pontile hemorrhage: Clinical and anatomic report. Arch. Neurol. Psychiatry 1939;41:793–799.Google Scholar
The career and contributions including those related to ICH are covered in Chapter 29 and in Caplan, LR. C. Miller Fisher: Stroke in the 20th Century. New York: Oxford University Press, 2020.CrossRefGoogle Scholar
Fisher, CM. Pathology and pathogenesis of intracerebral hemorrhage in pathogenesis and treatment of cerebrovascular disease. In Fields, W (ed.), Proceedings of the Annual Meeting of the Houston Neurological Society. Springfield, IL: Charles C. Thomas, 1961, pp. 295–317.Google Scholar
Fisher, CM. Pathological observations in hypertensive cerebral hemorrhages. J. Neuropathol. Exp. Neurol. 1971;30:536–550.Google Scholar
Fisher, CM. Clinical syndromes in cerebral hemorrhage in pathogenesis and treatment of cerebrovascular disease. In Fields, W (ed.), Proceedings of the Annual Meeting of the Houston Neurological Society. Springfield, IL: Charles C. Thomas, 1961, pp. 318–342.Google Scholar
Fisher, CM, Picard, EH, Polak, A, Dalal, P, Ojemann, RG. Acute hypertensive cerebellar hemorrhage: Diagnosis and surgical treatment. J. Nerv. Ment. Dis. 1965;140:38–57.CrossRefGoogle ScholarPubMed
Cole, F, Yates, P. Intracerebral microaneurysms and small cerebrovascular lesions. Brain 1967;90:759–768.Google Scholar
Rosenblum, WI. Miliary aneurysms and “fibrinoid’’ degeneration of cerebral blood vessels. Hum. Pathol. 1977;8:133–139.Google Scholar
Mizukami, M, Araki, G, Mihara, H, Tomita, T, Fuginaga, R. Arteriographically visualized extravasation in hypertensive intracerebral hemorrhage; report of seven cases. Stroke 1972; 3: 527–537.Google ScholarGoogle Scholar
Caplan, LR. Drugs. In Kase, CS, Caplan, LR (eds.), Intracerebral Hemorrhage. Boston: Butterworth-Heinemann, 1994, pp. 201–220.Google Scholar
Caplan, LR, Neely, S, Gorelick, PB. Cold-related intracerebral hemorrhage. Arch. Neurol. 1984;41:227.Google Scholar
Barbas, N, Caplan, LR, Baquis, G, et al. Dental chair intracerebral hemorrhage. Neurology 1987;37:511–512.Google ScholarGoogle Scholar
Haines, S, Maroon, J, Janetta, P. Supratentorial intracerebral hemorrhage following posterior fossa surgery. J. Neurosurg. 1978;49:881–886.Google ScholarGoogle Scholar
Broderick, JP, Brott, TG, Tomsick, T, Barsan, W, Spilker, J. Ultra-early evaluation of intracerebral hemorrhage. J. Neurosurg. 1990; 72: 195–199.Google Scholar
Kazui, S, Naritomi, H, Yamamoto, H, Sawada, T, Yamaguchi, T. Enlargement of spontaneous intracerebral hemorrhage: Incidence and time course. Stroke 1996;27:1783–1787.Google ScholarGoogle Scholar
Oppenheim, G. Uber “drusige Nekrosen” in der Großhirnrinde. Neurol. Centralbl. 1909;28:410–413.Google Scholar
Scholz, W. Studien zur pathologie der hirngefabe II: Die drusige entartung der hirnarterienundcapillaren. Z. gesamte Neurol. Psychiatr. 1938;162:694–715.Google Scholar
Pantelakis, S. A particular type of senile angiopathy of the central nervous system: Congophilic angiopathy, topography and frequency. Monatsschr. Psychiatr. Neurol. 1954;128:219–256.Google Scholar
Jellinger, K. Cerebral hemorrhage in amyloid angiopathy. Ann. Neurol. 1977;1:604.Google ScholarGoogle Scholar
Okazaki, H, Reagan, TJ, Campbell, RJ. Clinicopathologic studies of primary cerebral amyloid angiopathy. Mayo Clin. Proc. 1979;54(1):22–31.Google Scholar
Greenberg, SM, Vonsattel, JP, Stakes, JW, Gruber, M, Finklestein, SP. The clinical spectrum of cerebral amyloid angiopathy: Presentations without lobar hemorrhage. Neurology 1993;43(10):2073–2079.Google Scholar
Knudsen, K, Rosand, AJ, Karluk, D, Greenberg, SM. Clinical diagnosis of cerebral amyloid angiopathy: Validation of the Boston criteria. Neurology 2001;56(4):537–539.Google Scholar