Compromised microvascular oxygen delivery increases brain tissue vulnerability with age

Despite the possible role of impaired cerebral tissue oxygenation in age-related cognition decline, much is still unknown about the changes in brain tissue pO2 with age. Using a detailed investigation of the age-related changes in cerebral tissue oxygenation in the barrel cortex of healthy, awake aged mice, we demonstrate decreased arteriolar and tissue pO2 with age. These changes are exacerbated after middle-age. We further uncovered evidence of the presence of hypoxic micro-pockets in the cortex of awake old mice. Our data suggests that from young to middle-age, a well-regulated capillary oxygen supply maintains the oxygen availability in cerebral tissue, despite decreased tissue pO2 next to arterioles. After middle-age, due to decreased hematocrit, reduced capillary density and higher capillary transit time heterogeneity, the capillary network fails to compensate for larger decreases in arterial pO2. The substantial decrease in brain tissue pO2, and the presence of hypoxic micro-pockets after middle-age are of significant importance, as these factors may be related to cognitive decline in elderly people.

[1]  P. Luiten,et al.  Cerebral microvascular pathology in aging and Alzheimer's disease , 2001, Progress in Neurobiology.

[2]  M. Herrmann,et al.  Cerebral oxygenation changes in the prefrontal cortex: Effects of age and gender , 2006, Neurobiology of Aging.

[3]  B. T. Engel,et al.  Effect of sympathetic blockade on diurnal variation of hemodynamic patterns. , 1989, The American journal of physiology.

[4]  Rong Zhang,et al.  Age-related increase of resting metabolic rate in the human brain , 2014, NeuroImage.

[5]  Michèle Desjardins,et al.  Aging-related differences in cerebral capillary blood flow in anesthetized rats , 2014, Neurobiology of Aging.

[6]  Sergei A. Vinogradov,et al.  Phosphorescent Pd Porphyrin−Dendrimers: Tuning Core Accessibility by Varying the Hydrophobicity of the Dendritic Matrix , 2002 .

[7]  L. A. Ivanov,et al.  The respiratory function of blood in elderly and old age and the factors that determine it , 2009, Human Physiology.

[8]  David Kleinfeld,et al.  Penetrating arterioles are a bottleneck in the perfusion of neocortex , 2007, Proceedings of the National Academy of Sciences.

[9]  J. Hopewell,et al.  Age related changes in cardiac output, cephalic and cerebral blood flow in the rat. , 1981, The International journal of applied radiation and isotopes.

[10]  S. Vinogradov Arylamide dendrimers with flexible linkers via haloacyl halide method. , 2005, Organic letters.

[11]  M. Chakravarty,et al.  Brain Energy Metabolism and Blood Flow Differences in Healthy Aging , 2012, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[12]  Anna Devor,et al.  Two-photon microscopy measurement of cerebral metabolic rate of oxygen using periarteriolar oxygen concentration gradients , 2016, Neurophotonics.

[13]  F Wingert,et al.  Brain growth in man. , 1986, Bibliotheca anatomica.

[14]  Leif Østergaard,et al.  The roles of cerebral blood flow, capillary transit time heterogeneity, and oxygen tension in brain oxygenation and metabolism , 2011, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[15]  C. Peers,et al.  Hypoxia and Alzheimer's disease. , 2007, Essays in biochemistry.

[16]  E. Tongiorgi,et al.  Pharmacological treatment with mirtazapine rescues cortical atrophy and respiratory deficits in MeCP2 null mice , 2016, Scientific Reports.

[17]  G. Cosnard,et al.  Comparison of regional cerebral blood flow and glucose metabolism in the normal brain: effect of aging , 2000, Journal of the Neurological Sciences.

[18]  Shau Poh Chong,et al.  Cerebral metabolic rate of oxygen (CMRO2) assessed by combined Doppler and spectroscopic OCT. , 2015, Biomedical optics express.

[19]  J. Hendrikse,et al.  Age‐related changes in brain hemodynamics; A calibrated MRI study , 2015, Human brain mapping.

[20]  H. Goldman,et al.  Age-related changes in regional cerebral blood flow and behavior in Sprague-Dawley rats , 1988, Neurobiology of Aging.

[21]  Leif Østergaard,et al.  The Effects of Capillary Transit Time Heterogeneity (CTH) on Brain Oxygenation , 2015, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[22]  T. Hornbein Long Term Effects of High Altitude on Brain Function , 1992, International journal of sports medicine.

[23]  D. Salmaso,et al.  Regional cerebral blood flow as assessed by principal component analysis and 99mTc-HMPAO SPET in healthy subjects at rest: normal distribution and effect of age and gender , 2001, European Journal of Nuclear Medicine and Molecular Imaging.

[24]  J. Atkinson,et al.  In vivo cerebrovascular reactivity in Wistar and Fischer 344 rat strains during aging. , 1993, The American journal of physiology.

[25]  M N Cantwell,et al.  Does cerebral blood flow decline in healthy aging? A PET study with partial-volume correction. , 2000, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[26]  L. Sokoloff,et al.  Effects of anesthesia on functional activation of cerebral blood flow and metabolism , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[27]  V. Srinivasan,et al.  Measurement of cerebral microvascular compliance in a model of atherosclerosis with optical coherence tomography , 2011, Biomedical optics express.

[28]  M. Cacchio,et al.  HIF‐1α cytoplasmic accumulation is associated with cell death in old rat cerebral cortex exposed to intermittent hypoxia , 2005, Aging cell.

[29]  D. Salmaso,et al.  Regional cerebral blood flow as assessed by principal component analysis and 99 mTc-HMPAO SPET in healthy subjects at rest : normal distribution and effect of age and gender , 2001 .

[30]  Karl J. Friston,et al.  Decreases in Regional Cerebral Blood Flow with Normal Aging , 1991, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[31]  M. Delp,et al.  Effects of aging on cardiac output, regional blood flow, and body composition in Fischer-344 rats. , 1998, Journal of applied physiology.

[32]  Xingde Li,et al.  Real-time in vivo blood-flow imaging by moving-scatterer-sensitive spectral-domain optical Doppler tomography. , 2006, Optics letters.

[33]  K. Pyśniak,et al.  Selected peripheral blood cell parameters in twelve inbred strains of laboratory mice. , 2009 .

[34]  David H. Salat,et al.  Age-associated reductions in cerebral blood flow are independent from regional atrophy , 2011, NeuroImage.

[35]  Ulrich Dirnagl,et al.  Age Dependency of Changes in Cerebral Hemoglobin Oxygenation during Brain Activation: A Near-Infrared Spectroscopy Study , 1995, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[36]  J. Barberà,et al.  Increase in pulmonary ventilation-perfusion inequality with age in healthy individuals. , 1997, American journal of respiratory and critical care medicine.

[37]  D Comar,et al.  Regional Cerebral Blood Flow and Oxygen Consumption in Human Aging , 1984, Stroke.

[38]  E. London,et al.  Regional cerebral blood flow during development and ageing of the rat brain. , 1981, Brain : a journal of neurology.

[39]  P. Brugger,et al.  Persistent cognitive impairment in climbers after repeated exposure to extreme altitude , 1989, Neurology.

[40]  S. Charpak,et al.  Mapping oxygen concentration in the awake mouse brain , 2016, eLife.

[41]  A Burns,et al.  Association of age with regional cerebral oxygen utilization: a positron emission tomography study. , 1992, Age and ageing.

[42]  M. A. Bell,et al.  Morphometric comparison of hippocampal microvasculature in ageing and demented people: Diameters and densities , 1981, Acta Neuropathologica.

[43]  Anna Devor,et al.  Quantifying the Microvascular Origin of BOLD-fMRI from First Principles with Two-Photon Microscopy and an Oxygen-Sensitive Nanoprobe , 2015, The Journal of Neuroscience.

[44]  C. Kasai,et al.  Real-Time Two-Dimensional Blood Flow Imaging Using an Autocorrelation Technique , 1985, IEEE Transactions on Sonics and Ultrasonics.

[45]  L. Hedges,et al.  Book Review: Meta Analysis: A Review and A New View , 1986 .

[46]  A. Pries,et al.  Blood viscosity in tube flow: dependence on diameter and hematocrit. , 1992, The American journal of physiology.

[47]  S. Chattarji,et al.  Hypobaric hypoxia-induced dendritic atrophy of hippocampal neurons is associated with cognitive impairment in adult rats , 2007, Neuroscience.

[48]  M. Pletcher,et al.  Early Adult to Midlife Cardiovascular Risk Factors and Cognitive Function , 2014, Circulation.

[49]  W. Hoffman,et al.  Age effects on brain oxygenation during hypercapnia. , 2007, Journal of biomedical optics.

[50]  R. Winslow,et al.  Microvascular and tissue oxygen distribution. , 1996, Cardiovascular research.

[51]  A. Gjedde,et al.  Double-Tracer Study of the Fine Regional Blood—Brain Glucose Transfer in the Rat by Computer-Assisted Autoradiography , 1985, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[52]  Patrick R Hof,et al.  Role of vascular risk factors and vascular dysfunction in Alzheimer's disease. , 2010, The Mount Sinai journal of medicine, New York.

[53]  D. Rigas,et al.  Electrolyte-labile increase of oxygen affinity during in vivo aging of hemoglobin. , 1967, The Journal of clinical investigation.

[54]  M. Nedergaard,et al.  Cognitive Deficits and Delayed Neuronal Loss in a Mouse Model of Multiple Microinfarcts , 2012, The Journal of Neuroscience.

[55]  Maiken Nedergaard,et al.  Two-photon NADH imaging exposes boundaries of oxygen diffusion in cortical vascular supply regions , 2010, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[56]  T. O. Nelson,et al.  Cognition and metacognition at extreme altitudes on Mount Everest. , 1990, Journal of experimental psychology. General.

[57]  Denise C. Park,et al.  Alterations in cerebral metabolic rate and blood supply across the adult lifespan. , 2011, Cerebral cortex.

[58]  S. Singh,et al.  Neurodegeneration in Hypoxia: Implications in Aging , 2012 .

[59]  David Kleinfeld,et al.  A polished and reinforced thinned-skull window for long-term imaging of the mouse brain. , 2012, Journal of visualized experiments : JoVE.

[60]  H. Reinhold,et al.  A QUANTITATIVE STUDY OF AGE‐RELATED CHANGES IN THE VASCULAR ARCHITECTURE OF THE RAT CEREBRAL CORTEX , 1981, Neuropathology and applied neurobiology.

[61]  Aleksander S Popel,et al.  Experimental and Theoretical Studies of Oxygen Gradients in Rat Pial Microvessels , 2008, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[62]  David R. Riddle,et al.  Microvascular plasticity in aging , 2003, Ageing Research Reviews.

[63]  K H Wesseling,et al.  Circadian profile of systemic hemodynamics. , 1995, Hypertension.

[64]  W. Meier-Ruge,et al.  Stereological changes in the capillary network and nerve cells of the aging human brain , 1980, Mechanisms of Ageing and Development.

[65]  A. Hofman,et al.  Atherosclerosis, apolipoprotein E, and prevalence of dementia and Alzheimer's disease in the Rotterdam Study , 1997, The Lancet.

[66]  J. Hinds,et al.  Capillaries in aging rat olfactory bulb: A quantitative light and electron microscopic analysis , 1982, Neurobiology of Aging.

[67]  Lynn Hasher,et al.  Working Memory, Comprehension, and Aging: A Review and a New View , 1988 .

[68]  Suthiluk Patumraj,et al.  Exercise Training Could Improve Age-Related Changes in Cerebral Blood Flow and Capillary Vascularity through the Upregulation of VEGF and eNOS , 2014, BioMed research international.

[69]  W. Hoefnagels,et al.  Simultaneous measurements of cerebral oxygenation changes during brain activation by near‐infrared spectroscopy and functional magnetic resonance imaging in healthy young and elderly subjects , 2002, Human brain mapping.

[70]  R N Kalaria,et al.  Cerebral vessels in ageing and Alzheimer's disease. , 1996, Pharmacology & therapeutics.

[71]  Michael Hermes,et al.  Resting cerebral blood flow, attention, and aging , 2009, Brain Research.

[72]  M. Dallas,et al.  Hypoxia and Neurodegeneration , 2009, Annals of the New York Academy of Sciences.

[73]  O. Hunziker,et al.  The aging human cerebral cortex: a stereological characterization of changes in the capillary net. , 1979, Journal of gerontology.

[74]  K. Meguro,et al.  Stability of cerebral blood flow and oxygen metabolism during normal aging. , 1990, Gerontology.

[75]  Emiri T. Mandeville,et al.  Two-photon high-resolution measurement of partial pressure of oxygen in cerebral vasculature and tissue , 2010, Nature Methods.

[76]  Sava Sakadžić,et al.  Multiparametric, Longitudinal Optical Coherence Tomography Imaging Reveals Acute Injury and Chronic Recovery in Experimental Ischemic Stroke , 2013, PloS one.

[77]  Eric E. Smith,et al.  Cerebral microinfarcts: the invisible lesions , 2012, The Lancet Neurology.

[78]  W. Kohrt,et al.  Effect of aging. , 2000, Nutrition reviews.

[79]  R. Motterlini,et al.  Human red cell age, oxygen affinity and oxygen transport. , 1990, Respiration physiology.

[80]  Feng Gao,et al.  Oxygen microscopy by two-photon-excited phosphorescence. , 2008, Chemphyschem : a European journal of chemical physics and physical chemistry.

[81]  T. Salthouse The processing-speed theory of adult age differences in cognition. , 1996, Psychological review.

[82]  David A. Boas,et al.  Quantitative cerebral blood flow with Optical Coherence Tomography , 2010, Optics express.

[83]  S. DiCarlo,et al.  The 24 h pattern of arterial pressure in mice is determined mainly by heart rate‐driven variation in cardiac output , 2014, Physiological reports.

[84]  R. Motterlini,et al.  The relationship between the blood oxygen transport and the human red cell aging process. , 1991, Advances in experimental medicine and biology.

[85]  J. Krejza,et al.  Transcranial color Doppler sonography of basal cerebral arteries in 182 healthy subjects: age and sex variability and normal reference values for blood flow parameters. , 1999, AJR. American journal of roentgenology.

[86]  Philippe Pouliot,et al.  Effects of anesthesia on the cerebral capillary blood flow in young and old mice , 2015, Photonics West - Biomedical Optics.

[87]  W. Young,et al.  Attenuation of Brain Response to Vascular Endothelial Growth Factor-Mediated Angiogenesis and Neurogenesisin Aged Mice , 2009, Stroke.

[88]  A. Beitz,et al.  A quantitative light and electron microscopic analysis of taurine‐like immunoreactivity in the dorsal horn of the rat spinal cord , 1992, The Journal of comparative neurology.

[89]  S. Kristensen,et al.  Reference intervals and age and gender dependency for arterial blood gases and electrolytes in adults , 2011, Clinical chemistry and laboratory medicine.

[90]  Frithjof Kruggel,et al.  Age dependency of the hemodynamic response as measured by functional near-infrared spectroscopy , 2003, NeuroImage.

[91]  T. Asakura,et al.  Molecular Stability and Function of Mouse Hemoglobins , 1998 .

[92]  A Krogh,et al.  The number and distribution of capillaries in muscles with calculations of the oxygen pressure head necessary for supplying the tissue , 1919, The Journal of physiology.

[93]  Yoshua Bengio,et al.  The One Hundred Layers Tiramisu: Fully Convolutional DenseNets for Semantic Segmentation , 2016, 2017 IEEE Conference on Computer Vision and Pattern Recognition Workshops (CVPRW).

[94]  Patrick Jenny,et al.  The impact of capillary dilation on the distribution of red blood cells in artificial networks. , 2015, American journal of physiology. Heart and circulatory physiology.

[95]  K. Denton,et al.  Sex- and age-related differences in arterial pressure and albuminuria in mice , 2016, Biology of Sex Differences.

[96]  J. Duker,et al.  Ultrahigh-resolution, high-speed, Fourier domain optical coherence tomography and methods for dispersion compensation. , 2004, Optics express.

[97]  L. Vidal,et al.  Stereological changes in the capillary network of the aging dorsal lateral geniculate nucleus. , 2003, The anatomical record. Part A, Discoveries in molecular, cellular, and evolutionary biology.

[98]  J. Baron,et al.  Healthy aging, memory subsystems and regional cerebral oxygen consumption , 1995, Neuropsychologia.

[99]  F. Lesage,et al.  Cerebrovascular hemodynamic correlates of aging in the Lou/c rat: A model of healthy aging , 2011, NeuroImage.