Adventures in the Pathophysiology of Brain Ischemia: Penumbra, Gene Expression, Neuroprotection: The 2002 Thomas Willis Lecture

Background— The pathophysiology of cerebral ischemia is well studied in small-animal models, which offer reproducibility and control of confounding variables—factors essential to hypothesis-testing. This presentation first highlights insights into the ischemic penumbra enabled by a multimodal experimental approach; second, discusses gene expression in ischemia; and third, confronts the challenges of neuroprotectant therapy. Summary of Review— The ischemic penumbra: Transient (2-hour) middle cerebral artery suture-occlusion in anesthetized rats gives rise to highly consistent neurological and histopathological sequelae. Autoradiographic local cerebral blood flow (LCBF) studies at 2 hours of occlusion define the penumbra as a region of intermediate CBF depression (20% to 40% of control) surrounding the densely ischemic core (5% to 20% of control) and constituting one half of the entire lesion. Local glucose metabolic rate in the acute penumbra is not reduced despite the critical CBF reduction, so that the penumbral metabolism/blood flow ratio is markedly elevated. In contrast, following 1 hour of recirculation, glucose metabolism throughout the previously ischemic hemisphere has become markedly depressed, and the metabolism/flow ratio has pseudonormalized. By correlating these data with histopathology using multimodal image analysis, the probability of infarction is shown to be highly determined by the degree of antecedent CBF reduction. These animal data agree strikingly with published results in patients with acute stroke studied by positron emission tomography. This remarkable correspondence belies the assertion that data from lower species may not be relevant to human stroke. Gene expression: Perfusion gradients also determine differential patterns of gene expression in ischemia. This can be demonstrated by correlating in situ hybridization autoradiographs for gene expression with autoradiographic LCBF data and histological infarct maps derived from replicate series. In other studies, DNA microarray technology is used to screen for thousands of expressed genes. In the 2-hour middle cerebral artery occlusion model with 3-hour recirculation, we have identified 28 known ischemia-hypoxia response genes that are upregulated and 6 that are downregulated, together with 35 upregulated and 41 downregulated genes newly connected with ischemia. These findings underscore the enormous complexity of ischemic biology and suggest possible novel mechanisms for future exploration. Neuroprotection: A desirable neuroprotectant would, in theory, antagonize multiple injury mechanisms. We have explored 2 such therapies of particular promise. Mild brain hypothermia (32°C target temperature, for 5 hours) is highly neuroprotective even when initiated at the onset of recirculation. Another highly protective agent is human albumin, administered in doses of 1.25 to 2.5 g/kg—a therapy that reduces infarct volume in this ischemia model by 60% to 65%, markedly diminishes brain swelling, and has a therapeutic window extending to 4 hours. Conclusion— The careful study of rodent ischemia models can yield valuable, clinically relevant insights into the pathophysiology of ischemic stroke.

[1]  R. Adams,et al.  THE ACQUIRED (NON-WILSONIAN) TYPE OF CHRONIC HEPATOCEREBRAL DEGENERATION , 1965, Medicine.

[2]  W. Dalton Dietrich,et al.  Small Differences in Intraischemic Brain Temperature Critically Determine the Extent of Ischemic Neuronal Injury , 1987, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[3]  J. Bogousslavsky,et al.  Cerebrovascular Disease: Pathophysiology, Diagnosis and Management , 1998 .

[4]  C. Millikan Animal stroke models. , 1992, Stroke.

[5]  R. Macdonald,et al.  Pathophysiology of cerebral ischemia. , 1998, Neurologia medico-chirurgica.

[6]  H. Ellis stroke , 1997, The Lancet.

[7]  R. Busto,et al.  Combating hyperthermia in acute stroke: a significant clinical concern. , 1998, Stroke.

[8]  R. Busto,et al.  Human Albumin Therapy of Acute Ischemic Stroke: Marked Neuroprotective Efficacy at Moderate Doses and With a Broad Therapeutic Window , 2001, Stroke.

[9]  J. Grotta Neuroprotection is unlikely to be effective in humans using current trial designs. , 2002, Stroke.

[10]  C. Fisher The arterial lesions underlying lacunes , 1969, Acta Neuropathologica.

[11]  R. D. Adams,et al.  The special clinical problem of symptomatic hydrocephalus with normal cerebrospinal fluid pressure. Observations on cerebrospinal fluid hydrodynamics. , 1965, Journal of the neurological sciences.

[12]  R. Myers,et al.  Nervous system effects of cardiac arrest in monkeys. Preservation of vision. , 1977, Archives of neurology.

[13]  C. Fisher The neurological examination of the comatose patient. , 1969, Acta neurologica Scandinavica.

[14]  P. Hurn,et al.  Estrogen as a Neuroprotectant in Stroke , 2000, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[15]  R. Busto,et al.  Transient Middle Cerebral Artery Occlusion by Intraluminal Suture: I. Three-Dimensional Autoradiographic Image-Analysis of Local Cerebral Glucose Metabolism—Blood Flow Interrelationships during Ischemia and Early Recirculation , 1997, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[16]  D. Wiebers,et al.  Animal models of stroke: are they relevant to human disease? , 1990, Stroke.

[17]  Martin Reivich,et al.  ARTERIAL PCO2 AND CEREBRAL HEMODYNAMICS. , 1964 .

[18]  W Zhao,et al.  Three-Dimensional Quantitative Autoradiography by Disparity Analysis: Theory and Application to Image Averaging of Local Cerebral Glucose Utilization , 1995, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[19]  R. Busto,et al.  Delayed postischemic hyperthermia in awake rats worsens the histopathological outcome of transient focal cerebral ischemia. , 1996, Stroke.

[20]  M D Ginsberg,et al.  Three-Dimensional Image Analysis of Brain Glucose Metabolism-Blood Flow Uncoupling and its Electrophysiological Correlates in the Acute Ischemic Penumbra following Middle Cerebral Artery Occlusion , 1995, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[21]  E. Richardson,et al.  The neurological manifestations of systemic lupus erythematosus. , 1968, Medicine.

[22]  Weizhao Zhao,et al.  Quantitation of multiple gene expression by in situ hybridization autoradiography: accurate normalization using Bayes classifier , 1999, Journal of Neuroscience Methods.

[23]  E. Richardson Progressive multifocal leukoencephalopathy 30 years later. , 1988, The New England journal of medicine.

[24]  A. Thiel,et al.  Penumbral probability thresholds of cortical flumazenil binding and blood flow predicting tissue outcome in patients with cerebral ischaemia. , 2001, Brain : a journal of neurology.

[25]  G. Molinari Why model strokes? , 1988, Stroke.

[26]  M D Ginsberg,et al.  Pixel-based image analysis of HSP70, GADD45 and MAP2 mRNA expression after focal cerebral ischemia: hemodynamic and histological correlates. , 1998, Brain research. Molecular brain research.

[27]  P. Johnson,et al.  Schilder's Disease: Sex-Linked Recessive Transmission With Specific Adrenal Changes , 1972 .

[28]  P. Scheinberg Controversies in the management of cerebral vascular disease , 1988, Neurology.

[29]  A. Anagnostopoulos,et al.  Peripheral blood stem cell transplantation in the treatment of progressive multiple sclerosis: first results of a pilot study , 1997, Bone Marrow Transplantation.

[30]  M. Ginsberg,et al.  Depiction of infarct frequency distribution by computer-assisted image mapping in rat brains with middle cerebral artery occlusion. Comparison of photothrombotic and intraluminal suture models. , 1996, Stroke.

[31]  Fisher Cm The Neurological Examination of the Comatose Patient , 1969 .

[32]  R. Myers,et al.  Interocular transfer of pattern discrimination in cats following section of crossed optic fibers. , 1955, Journal of comparative and physiological psychology.

[33]  R. Schmidt-Kastner,et al.  DNA microarray analysis of cortical gene expression during early recirculation after focal brain ischemia in rat. , 2002, Brain research. Molecular brain research.

[34]  T. H. Ham,et al.  OBSERVATIONS ON THE ETIOLOGIC RELATIONSHIP OF ACHYLIA GASTRICA TO PERNICIOUS ANEMIA: V. FURTHER EVIDENCE FOR THE ESSENTIAL PARTICIPATION OF EXTRINSIC FACTOR IN HEMATOPOIETIC RESPONSES TO MIXTURES OF BEEF MUSCLE AND GASTRIC JUICE AND TO HOG STOMACH MUCOSA , 1936 .

[35]  M D Ginsberg,et al.  Effect of mild hypothermia on ischemia-induced release of neurotransmitters and free fatty acids in rat brain. , 1989, Stroke.

[36]  B. Lin,et al.  Detection of Free Radical Activity During Transient Global Ischemia and Recirculation: Effects of Intraischemic Brain Temperature Modulation , 1995, Journal of neurochemistry.

[37]  F. Sharp,et al.  Multiple Molecular Penumbras after Focal Cerebral Ischemia , 2000, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[38]  C. Dickman,et al.  Comparative neuroprotective efficacy of prolonged moderate intraischemic and postischemic hypothermia in focal cerebral ischemia. , 1999, Journal of neurosurgery.

[39]  R. Myers,et al.  Brain swelling in the newborn rhesus monkey following prolonged partial asphyxia , 1969, Neurology.

[40]  E. FRANTZEN,et al.  PROTEIN STUDIES ON CEREBROSPINAL FLUID AND NEUROLOGICAL SYMPTOMS IN MYELOMATOSIS , 1969, Acta neurologica Scandinavica.

[41]  W M STRAIGHT,et al.  Occlusion of the Internal Carotid Artery , 1961, Southern medical journal.

[42]  P. Pattany,et al.  Diffusion-weighted magnetic resonance imaging confirms marked neuroprotective efficacy of albumin therapy in focal cerebral ischemia. , 1998, Stroke.

[43]  F. Moyardum THOMAS WILLIS (1621-1675). , 1963, JAMA.

[44]  Weizhao Zhao,et al.  Albumin Therapy of Transient Focal Cerebral Ischemia: In Vivo Analysis of Dynamic Microvascular Responses , 2002, Stroke.

[45]  V. Aalberg,et al.  PSYCHOSES FOLLOWING WAR BRAIN INJURIES , 1969, Acta psychiatrica Scandinavica.

[46]  R. Willemze,et al.  Problems and possible solutions in finding an unrelated bone marrow donor. Results of consecutive searches for 240 Dutch patients , 1997, Bone Marrow Transplantation.

[47]  K. Hossmann,et al.  Cortical Negative DC Deflections following Middle Cerebral Artery Occlusion and KCl-Induced Spreading Depression: Effect on Blood Flow, Tissue Oxygenation, and Electroencephalogram , 1994, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[48]  P. Scheinberg The biologic basis for the treatment of acute stroke , 1991, Neurology.

[49]  M. Reivich,et al.  ARTERIAL PCO2 AND CEREBRAL HEMODYNAMICS. , 1965, The American journal of physiology.

[50]  M D Ginsberg,et al.  Transient Middle Cerebral Artery Occlusion by Intraluminal Suture: II. Neurological Deficits, and Pixel-Based Correlation of Histopathology with Local Blood Flow and Glucose Utilization , 1997, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[51]  M D Ginsberg,et al.  Middle cerebral artery occlusion in the rat by intraluminal suture. Neurological and pathological evaluation of an improved model. , 1996, Stroke.

[52]  M. Reivich,et al.  Measurement of regional cerebral blood flow with antipyrine-14C in awake cats. , 1969, Journal of applied physiology.

[53]  Anne E Kwitek,et al.  Multifactorial genetics: Rat genetics: attachign physiology and pharmacology to the genome , 2002, Nature Reviews Genetics.

[54]  M. Reivich,et al.  THE [14C]DEOXYGLUCOSE METHOD FOR THE MEASUREMENT OF LOCAL CEREBRAL GLUCOSE UTILIZATION: THEORY, PROCEDURE, AND NORMAL VALUES IN THE CONSCIOUS AND ANESTHETIZED ALBINO RAT 1 , 1977, Journal of neurochemistry.

[55]  M D Ginsberg,et al.  The Significance of Brain Temperature in Focal Cerebral Ischemia: Histopathological Consequences of Middle Cerebral Artery Occlusion in the Rat , 1992, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[56]  M D Ginsberg,et al.  Effect of delayed albumin hemodilution on infarction volume and brain edema after transient middle cerebral artery occlusion in rats. , 1997, Journal of neurosurgery.