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1. Noninvasive Monitoring of Changes in Cerebral Hemodynamics During Prolonged Field Care for Hemorrhagic Shock and Hypoxia-Induced Injuries With Portable Diffuse Optical Sensors.

Author

Izzetoglu, Kurtulus, Malaeb, Shadi N, Polat, Mert Deniz, Sinahon, Randolph, Shoshany, Danielle S, Gomero, Luis M, Shewokis, Patricia A, and Izzetoglu, Meltem

Subjects
*CEREBRAL circulation, *MEDICAL equipment design, *HEMORRHAGIC shock, *ERYTHROCYTES, *BLOOD volume
Abstract

Introduction Achieving simultaneous cerebral blood flow (CBF) and oxygenation measures, specifically for point-of-care injury monitoring in prolonged field care, requires the implementation of appropriate methodologies and advanced medical device design, development, and evaluation. The near-infrared spectroscopy (NIRS) method measures the absorbance of light whose attenuation is related to cerebral blood volume and oxygenation. By contrast, diffuse correlation spectroscopy (DCS) allows continuous noninvasive monitoring of microvascular blood flow by directly measuring the degree of light scattering because of red blood cell (RBC) movement in tissue capillaries. Hence, this study utilizes these two optical approaches (DCS–NIRS) to obtain a more complete hemodynamic monitoring by providing cerebral microvascular blood flow, hemoglobin oxygenation and deoxygenation in hemorrhage, and hypoxia-induced injuries. Materials and Methods Piglet models of hemorrhage and hypoxia-induced brain injury were used with DCS and NIRS sensors placed over the preorbital to temporal skull regions. To induce hemorrhagic shock, up to 70% of the animal's total blood volume was withdrawn through graded hemorrhage serially via a syringe from a femoral artery cannula in 10 mL/kg aliquots over 1 minute every 10 minutes. A second group of animals was subjected to hypoxia for ∼1 hour through graded hypoxia by serial titration from normoxic fraction inspired oxygen of 21% to hypoxic fraction inspired oxygen of 6%. A subset of animals served as sham-controls undergoing anesthesia, instrumentation, and ventilation as the injury groups, yet experiencing no blood loss or hypoxia. Results We first investigated the relationship between hemorrhagic shock and no shock by using measured biomarkers, including blood flow index from DCS associated with CBF and oxygenated (HbO) and de-oxygenated hemoglobin from NIRS. The statistical analysis revealed a significant difference between no shock and hemorrhagic shock (P  < .01). The HbO decreased with each blood loss as expected, yet the de-oxygenated hemoglobin was slightly changed. During hypoxia-induced global hypoxic–ischemic injury tests, the CBF results from graded hypoxia were consistent with the response previously measured during hemorrhagic shock. Moreover, HbO decreased when the animal was hypoxic, as expected. A statistical analysis was also conducted to compare the results with those of the sham controls. Conclusions There is a consistency in blood flow measures in both injury mechanisms (hemorrhagic shock and hypoxia), which is significant as the new prototype system provides similar measures and trends for each brain injury type, suggesting that the optical system can be used in response to different injury mechanisms. Notably, the results support the idea that this optical system can probe the hemodynamic status of local cerebral cortical tissue and provide insight into the underlying changes of cerebral tissue perfusion at the microvascular level. These measurement capabilities can improve shock identification and monitoring of medical management of injuries, particularly hemorrhagic shock, in prolonged field care. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Maternal glucocorticoid exposure alters tight junction protein expression in the brain of fetal sheep

Author

Sadowska, Grazyna B., Malaeb, Shadi N., and Stonestreet, Barbara S.

Subjects
Blood-brain barrier -- Physiological aspects, Blood-brain barrier -- Genetic aspects, Blood-brain barrier -- Research, Cerebral cortex -- Physiological aspects, Cerebral cortex -- Research, Gene expression -- Research, Corticosteroids -- Usage, Corticosteroids -- Health aspects, Biological sciences
Abstract

Am J Physiol Heart Circ Physiol 298: H179-H188, 2010. First published October 23, 2009; doi: 10.1152/ajpheart.00828.2009.--We examined the expression of tight junction (TJ) proteins in the cerebral cortex, cerebellum, and spinal cord of fetuses after maternal treatment with single and multiple courses of dexamethasone. Ewes received either single courses of four 6-mg dexamethasone or placebo injections every 12 h for 48 h between 104 and 107 days or the same treatment once a week between 76-78 and 104-107 days of gestation. TJ protein expression was determined by Western immunoblot analysis on tissue harvested at 105-108 days of gestation. Blood-brain barrier permeability has been previously quantified with the blood-to-brain transfer constant ([K.sub.i]) with [alpha]-aminoisobutyric acid (39). After a single course of dexamethasone, claudin-5 increased (P < 0.05) in the cerebral cortex, occludin and claudin-1 increased in the cerebellum, and occludin increased in the spinal cord. After multiple dexamethasone courses, occludin and zonula occludens (ZO)-1 increased in the cerebral cortex, and occludin and claudin-1 increased in the cerebellum. Junctional adhesion molecule-A and ZO-2 expressions did not change. Linear regression comparing [K.sub.i] to TJ proteins showed inverse correlations with claudin-1 and claudin-5 in the cerebral cortex after a single course and ZO-2 in the spinal cord after multiple courses and direct correlations with ZO-1 in the cerebellum and spinal cord after multiple courses. We conclude that maternal glucocorticoid treatment increases the expression of specific TJ proteins in vivo, patterns of TJ protein expression vary after exposure to single and multiple glucocorticoid courses, and decreases in blood-brain barrier permeability are associated with increases in claudin-l, claudin-5, and ZO-2 expression and decreases in ZO-1 expression. In utero glucocorticoid exposure alters the molecular composition of the barrier and affects fetal blood-brain barrier function. blood-brain barrier; dexamethasone; steroids

Published
2010

10. Editor’s Focus

Author

Malaeb, Shadi N., primary, Davis, Jonathan M., additional, Pinz, Ilka M., additional, Newman, Jennifer L., additional, Dammann, Olaf, additional, and Rios, Maribel, additional

Published
2014
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13. Noninvasive monitoring of brain edema after hypoxia in newborn piglets

Author

Malaeb, Shadi N, Izzetoglu, Meltem, McGowan, Jane, and Delivoria-Papadopoulos, Maria

Abstract

BackgroundDevelopment of cerebral edema after brain injury carries a high risk for brain damage and death. The present study tests the ability of a noninvasive cerebral edema monitoring system that uses near-infrared spectroscopy (NIRS) with water as the chromophore of interest to detect brain edema following hypoxia.MethodsVentilated piglets were exposed to hypoxia for 1 h, and then returned to normal oxygen levels for 4 h. An NIRS sensor was placed on the animal’s head at baseline, and changes in light attenuation were converted to changes in H2O. Cerebral water content and aquaporin-4 protein (AQP4) expression were measured.ResultsThe system detected changes in NIRS–derived water signal as early as 2 h after hypoxia, and provided fivefold signal amplification, representing a 10% increase in brain water content and a sixfold increase in AQP4, 4 h after hypoxia. Changes in water signal correlated well with changes in cerebral water content (R=0.74) and AQP4 expression (R=0.97) in the piglet brain.ConclusionThe data show that NIRS can detect cerebral edema early in the injury process, thus providing an opportunity to initiate therapy at an earlier and more effective time-point after an insult than is available with current technology.

Published
2018
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14. Core Concepts

Author

Malaeb, Shadi N., primary, Cohen, Susan S., additional, Virgintino, Daniela, additional, and Stonestreet, Barbara S., additional

Published
2012
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19. Na+, K+ -ATPase Activity and Subunit Isoform Protein Abundance: Effects of Antenatal Glucocorticoids in the Frontal Cerebral Cortex and Renal Cortex of Ovine Fetuses.

Author

Mehter, Najma S., Sadowska, Grazyna B., Malaeb, Shadi N., and Stonestreet, Barbara S.

Subjects
GLUCOCORTICOIDS, SODIUM ions, ADENOSINE triphosphatase, CEREBRAL cortex, KIDNEY cortex, PROTEINS, FETUS, SHEEP
Abstract

We examined the effects of single and multiple maternal glucocorticoid courses on cerebral cortical (CC) and renal cortical (RC) Na+,K+-ATPase activity and protein isoform abundance in fetal sheep. Ewes received four dexamethasone or placebo injections in the single course (SC) groups, and the same treatment once a week for five-weeks in the multiple course (MC) groups. CCNa+,K+-ATPase α2-abundance was higher (P<0.05) and β2-abundance lower in the SC dexamethasone than placebo group, but Na+,K+-ATPase activity did not change. CC Na+,K+-ATPase activity, α1-, β1-, and β2-abundance were lower in the MC dexamethasone than placebo group, but α2- and α3-abundance did not change. Both dexamethasone courses did not affect CC cell number. RC Na+,K+-ATPase activity, α1- and β1-abundance were higher in the MC dexamethasone than placebo group, but did not change in the SC dexamethasone group. We conclude MC, but not a SC of dexamethasone, affect fetal cerebral and renal Na+,K+-ATPase, and MC result in differential effects on Na+,K+-ATPase in these organs. [ABSTRACT FROM AUTHOR]

Published
2009
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20. Effects of maternal antenatal glucocorticoid treatment on apoptosis in the ovine fetal cerebral cortex.

Author

Malaeb SN, Hovanesian V, Sarasin MD, Hartmann SM, Sadowska GB, and Stonestreet BS

Subjects
Age Factors, Analysis of Variance, Animals, Anthropometry methods, Caspase 3 metabolism, Cell Count methods, DNA Fragmentation drug effects, Embryo, Mammalian, Female, In Situ Nick-End Labeling methods, Male, Phosphopyruvate Hydratase metabolism, Pregnancy, Random Allocation, Sheep, Apoptosis drug effects, Cerebral Cortex pathology, Dexamethasone, Glucocorticoids, Neurons drug effects, Prenatal Exposure Delayed Effects chemically induced, Prenatal Exposure Delayed Effects pathology, Prenatal Exposure Delayed Effects physiopathology
Abstract

We examined the effects of single and multiple maternal glucocorticoid courses on apoptosis in the cerebral cortices of ovine fetuses (CC). Ewes received single dexamethasone or placebo courses at 104-106 or 133-135 days or multiple courses between 76-78 and 104-106 days gestation. In the single-course groups, ewes received four 6 mg dexamethasone or placebo injections every 12 hr for 48 hr. Multiple-course groups received the same treatment once per week for 5 weeks. Neuronal and nonneuronal apoptotic cell numbers per square millimeter were determined with TUNEL and NeuN staining and with caspase-3 enzyme activity on CC tissues harvested at 106-108 (70%) or 135-137 (90%) days of gestation. Apoptotic cell numbers and caspase-3 activity were 50% lower (P < 0.02) after single placebo courses at 90% than 70% gestation; 90% of apoptotic cells were (P < 0.01) nonneuronal at both ages. Nonneuronal apoptotic cells and caspase-3 activity were 40% and 20% lower (P < 0.02) after single dexamethasone than placebo courses at 70%, but not 90%, gestation. Caspase-3 activity was 20% lower (P < 0.01) after multiple dexamethasone than placebo courses, but apoptotic cell number did not differ. We conclude that nonneuronal apoptosis represents the major form of apoptosis in the CC at both 70% and 90% of gestation. Apoptosis in nonneuronal cells decreases with maturity and after a single course of dexamethasone at 70%, but not at 90%, gestation and not after multiple courses at 70% gestation. We speculate that a single course of glucocorticoids exerts maturational changes on the rate of apoptosis in the cerebral cortex of preterm ovine fetuses., (2008 Wiley-Liss, Inc.)

Published
2009
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