Search

Your search keyword '"Nile Delso"' showing total 21 results
Start Over Author "Nile Delso"
21 results on '"Nile Delso"'

1. Effect of dimethyl fumarate on mitochondrial metabolism in a pediatric porcine model of asphyxia-induced in-hospital cardiac arrest

Author

Sarah Piel, Meagan J. McManus, Kristina N. Heye, Forrest Beaulieu, Hossein Fazelinia, Joanna I. Janowska, Bryce MacTurk, Jonathan Starr, Hunter Gaudio, Nisha Patel, Marco M. Hefti, Martin E. Smalley, Jordan N. Hook, Neha V. Kohli, James Bruton, Thomas Hallowell, Nile Delso, Anna Roberts, Yuxi Lin, Johannes K. Ehinger, Michael Karlsson, Robert A. Berg, Ryan W. Morgan, and Todd J. Kilbaugh

Subjects
Cardiac arrest, Asphyxia, Dimethyl fumarate, Heart, Brain, Metabolism, Medicine, Science
Abstract

Abstract Neurological and cardiac injuries are significant contributors to morbidity and mortality following pediatric in-hospital cardiac arrest (IHCA). Preservation of mitochondrial function may be critical for reducing these injuries. Dimethyl fumarate (DMF) has shown potential to enhance mitochondrial content and reduce oxidative damage. To investigate the efficacy of DMF in mitigating mitochondrial injury in a pediatric porcine model of IHCA, toddler-aged piglets were subjected to asphyxia-induced CA, followed by ventricular fibrillation, high-quality cardiopulmonary resuscitation, and random assignment to receive either DMF (30 mg/kg) or placebo for four days. Sham animals underwent similar anesthesia protocols without CA. After four days, tissues were analyzed for mitochondrial markers. In the brain, untreated CA animals exhibited a reduced expression of proteins of the oxidative phosphorylation system (CI, CIV, CV) and decreased mitochondrial respiration (p

Published
2024
Full Text
View/download PDF

2. Pediatric Extracorporeal Cardiopulmonary Resuscitation: Development of a Porcine Model and the Influence of Cardiopulmonary Resuscitation Duration on Brain Injury

Author

Julia C. Slovis, Lindsay Volk, Constantine Mavroudis, Marco Hefti, William P. Landis, Anna L. Roberts, Nile Delso, Thomas Hallowell, Kathryn Graham, Jonathan Starr, Yuxi Lin, Richard Melchior, Vinay Nadkarni, Robert M. Sutton, Robert A. Berg, Sarah Piel, Ryan W. Morgan, and Todd J. Kilbaugh

Subjects
cardiac arrest, cardiopulmonary resuscitation, extracorporeal membrane oxygenation, mitochondria, pediatric, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Background The primary objective was to develop a porcine model of prolonged (30 or 60 minutes) pediatric cardiopulmonary resuscitation (CPR) followed by 22‐ to 24‐hour survival with extracorporeal life support, and secondarily to evaluate differences in neurologic injury. Methods and Results Ten‐kilogram, 4‐week‐old female piglets were used. First, model development established the technique (n=8). Then, a pilot study was conducted (n=15). After 80% survival was achieved in the final 5 pilot animals, a proof‐of‐concept randomized study was completed (n=11). Shams (n=6) underwent anesthesia only. Severe neurological injury was determined by a composite score of mitochondrial function, neuropathology, and cerebral metabolism: scale of 0–6 (severe: >3). Among 15 piglets in the pilot study, overall survival was 10 (67%); of the final 5, overall survival was 4 (80%). Eleven piglets were then randomized to 60 (CPR60, n=5) or 30 minutes of CPR (CPR30, n=5); 1 animal was excluded from prerandomization for intra‐abdominal hemorrhage (10/11, 91% survival). Three of 5 animals in the CPR60 group had severe neurological injury scores versus 1 of 5 in the CPR30 group (P=0.52). During ECMO, CPR60 animals had lower pH (CPR60: 7.4 [IQR 7.4–7.4] versus CPR30: 7.5 [IQR 7.4–7.5], P=0.022), higher lactate (CPR60: 6.8 [IQR 6.8–11] versus CPR30: 4.2 [IQR 4.1–4.3] mmol/L; P=0.012), and higher ICP (CPR60: 19.3 [IQR 11.7–29.3] versus CPR30: 7.9 [IQR 6.7–9.3] mm Hg; P=0.037). Both groups had greater mitochondrial injury than shams (CPR60: P

Published
2023
Full Text
View/download PDF

3. Low frequency power in cerebral blood flow is a biomarker of neurologic injury in the acute period after cardiac arrest

Author

Brian R. White, Tiffany S. Ko, Ryan W. Morgan, Wesley B. Baker, Emilie J. Benson, Alec Lafontant, Jonathan P. Starr, William P. Landis, Kristen Andersen, Jharna Jahnavi, Jake Breimann, Nile Delso, Sarah Morton, Anna L. Roberts, Yuxi Lin, Kathryn Graham, Robert A. Berg, Arjun G. Yodh, Daniel J. Licht, and Todd J. Kilbaugh

Subjects
Glycerol, Male, Cerebrovascular Circulation, Resuscitation, Emergency Medicine, Humans, Female, Emergency Nursing, Cardiology and Cardiovascular Medicine, Biomarkers, Heart Arrest
Abstract

Cardiac arrest often results in severe neurologic injury. Improving care for these patients is difficult as few noninvasive biomarkers exist that allow physicians to monitor neurologic health. The amount of low-frequency power (LFP, 0.01-0.1 Hz) in cerebral haemodynamics has been used in functional magnetic resonance imaging as a marker of neuronal activity. Our hypothesis was that increased LFP in cerebral blood flow (CBF) would be correlated with improvements in invasive measures of neurologic health.We adapted the use of LFP for to monitoring of CBF with diffuse correlation spectroscopy. We asked whether LFP (or other optical biomarkers) correlated with invasive microdialysis biomarkers (lactate-pyruvate ratio - LPR - and glycerol concentration) of neuronal injury in the 4 h after return of spontaneous circulation in a swine model of paediatric cardiac arrest (Sus scrofa domestica, 8-11 kg, 51% female). Associations were tested using a mixed linear effects model.We found that higher LFP was associated with higher LPR and higher glycerol concentration. No other biomarkers were associated with LPR; cerebral haemoglobin concentration, oxygen extraction fraction, and one EEG metric were associated with glycerol concentration.Contrary to expectations, higher LFP in CBF was correlated with worse invasive biomarkers. Higher LFP may represent higher neurologic activity, or disruptions in neurovascular coupling. Either effect may be harmful in the acute period after cardiac arrest. Thus, these results suggest our methodology holds promise for development of new, clinically relevant biomarkers than can guide resuscitation and post-resuscitation care. Institutional protocol number: 19-001327.

Published
2022

4. A randomized and blinded trial of inhaled nitric oxide in a piglet model of pediatric cardiopulmonary resuscitation

Author

Alexandra M. Marquez, Marco M. Hefti, Julia C. Slovis, Abhay Ranganathan, Jonathan Starr, Constantine D. Mavroudis, Robert A. Berg, Anna L. Roberts, Robert M. Sutton, Nile Delso, Vinay M. Nadkarni, Yuxi Lin, William P. Landis, Ryan W. Morgan, Todd J. Kilbaugh, Lindsay E. Volk, and Adam S. Himebauch

Subjects
Swine, medicine.medical_treatment, Diastole, Hemodynamics, 030204 cardiovascular system & hematology, Emergency Nursing, Nitric Oxide, Article, Random Allocation, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, Cardiopulmonary resuscitation, Cerebral perfusion pressure, Child, business.industry, 030208 emergency & critical care medicine, medicine.disease, Pulmonary hypertension, Cardiopulmonary Resuscitation, Heart Arrest, Disease Models, Animal, Cerebral blood flow, Cerebrovascular Circulation, Anesthesia, Shock (circulatory), Ventricular fibrillation, Emergency Medicine, medicine.symptom, Cardiology and Cardiovascular Medicine, business
Abstract

Aim Inhaled nitric oxide (iNO) during cardiopulmonary resuscitation (CPR) improved systemic hemodynamics and outcomes in a preclinical model of adult in-hospital cardiac arrest (IHCA) and may also have a neuroprotective role following cardiac arrest. The primary objectives of this study were to determine if iNO during CPR would improve cerebral hemodynamics and mitochondrial function in a pediatric model of lipopolysaccharide-induced shock-associated IHCA. Methods After lipopolysaccharide infusion and ventricular fibrillation induction, 20 1-month-old piglets received hemodynamic-directed CPR and were randomized to blinded treatment with or without iNO (80 ppm) during and after CPR. Defibrillation attempts began at 10 min with a 20-min maximum CPR duration. Cerebral tissue from animals surviving 1-h post-arrest underwent high-resolution respirometry to evaluate the mitochondrial electron transport system and immunohistochemical analyses to assess neuropathology. Results During CPR, the iNO group had higher mean aortic pressure (41.6 ± 2.0 vs. 36.0 ± 1.4 mmHg; p = 0.005); diastolic BP (32.4 ± 2.4 vs. 27.1 ± 1.7 mmHg; p = 0.03); cerebral perfusion pressure (25.0 ± 2.6 vs. 19.1 ± 1.8 mmHg; p = 0.02); and cerebral blood flow relative to baseline (rCBF: 243.2 ± 54.1 vs. 115.5 ± 37.2%; p = 0.02). Among the 8/10 survivors in each group, the iNO group had higher mitochondrial Complex I oxidative phosphorylation in the cerebral cortex (3.60 [3.56, 3.99] vs. 3.23 [2.44, 3.46] pmol O2/s mg; p = 0.01) and hippocampus (4.79 [4.35, 5.18] vs. 3.17 [2.75, 4.58] pmol O2/s mg; p = 0.02). There were no other differences in mitochondrial respiration or brain injury between groups. Conclusions Treatment with iNO during CPR resulted in superior systemic hemodynamics, rCBF, and cerebral mitochondrial Complex I respiration in this pediatric cardiac arrest model.

Published
2021

5. Increased cerebral mitochondrial dysfunction and reactive oxygen species with cardiopulmonary bypass

Author

Ryan W. Morgan, Richard W Melchior, Alexander Chappell, J. William Gaynor, Anna L. Roberts, Yuxi Lin, Daniel J. Licht, Tiffany Ko, Molly Dreher, William P. Landis, Jonathan Starr, Marco M. Hefti, Lindsay E. Volk, Todd J. Kilbaugh, Jonathan M. Chen, Nile Delso, Douglas Fisher, Tami Rosenthal, Constantine D. Mavroudis, Christopher E. Mascio, and Thomas Hallowell

Subjects
Pulmonary and Respiratory Medicine, Mitochondrial ROS, medicine.medical_specialty, Microdialysis, Bioenergetics, Swine, Cell Respiration, Ischemia, Oxidative phosphorylation, 030204 cardiovascular system & hematology, Mitochondrion, law.invention, Experimental, 03 medical and health sciences, 0302 clinical medicine, law, Internal medicine, Respiration, Cardiopulmonary bypass, medicine, Animals, Cardiopulmonary Bypass, business.industry, General Medicine, medicine.disease, Mitochondria, Oxygen, surgical procedures, operative, Endocrinology, 030228 respiratory system, Surgery, Energy Metabolism, Reactive Oxygen Species, Cardiology and Cardiovascular Medicine, business
Abstract

OBJECTIVES Neurodevelopmental injury after cardiac surgery using cardiopulmonary bypass (CPB) for congenital heart defects is common, but the mechanism behind this injury is unclear. This study examines the impact of CPB on cerebral mitochondrial reactive oxygen species (ROS) generation and mitochondrial bioenergetics. METHODS Twenty-three piglets (mean weight 4.2 ± 0.5 kg) were placed on CPB for either 1, 2, 3 or 4 h (n = 5 per group) or underwent anaesthesia without CPB (sham, n = 3). Microdialysis was used to measure metabolic markers of ischaemia. At the conclusion of CPB or 4 h of sham, brain tissue was harvested. Utilizing high-resolution respirometry, with simultaneous fluorometric analysis, mitochondrial respiration and ROS were measured. RESULTS There were no significant differences in markers of ischaemia between sham and experimental groups. Sham animals had significantly higher mitochondrial respiration than experimental animals, including maximal oxidative phosphorylation capacity of complex I (OXPHOSCI) (3.25 ± 0.18 vs 4-h CPB: 1.68 ± 0.10, P CONCLUSIONS Even in the absence of local markers of ischaemia, CPB is associated with decreased mitochondrial respiration relative to shams irrespective of duration. Exposure to 4 h of CPB resulted in a significant increase in cerebral mitochondrial ROS formation compared to shorter durations. Further study is needed to improve the understanding of cerebral mitochondrial health and its effects on the pathophysiology of neurological injury following exposure to CPB.

Published
2020

6. Brain Contrast-Enhanced Ultrasound Evaluation of a Pediatric Swine Model

Author

Laura Poznick, Todd J. Kilbaugh, Misun Hwang, Nile Delso, Anna L. Roberts, Kristina Khaw, Thomas Hallowell, and Anush Sridharan

Subjects
Swine, business.industry, Ultrasound, Brain, Contrast Media, Perfusion scanning, Catheter, Text mining, Coronal plane, Animals, Humans, Medicine, Bolus (digestion), Cerebral perfusion pressure, business, Nuclear medicine, Ultrasonography, Contrast-enhanced ultrasound
Abstract

Brain injury remains a leading cause of morbidity and mortality in children. We evaluated the feasibility of using a pediatric swine model to develop contrast-enhanced ultrasound (CEUS)-based measures of brain perfusion for clinical application in various types of brain injury monitoring. Six-week-old, 10-kg swine (N = 10) were anesthetized, and an acoustic window was created in the right frontal cranium to provide visualization of an oblique coronal plane and bilateral thalami. Ultrasound contrast agent was administered via a femoral venous catheter as a weight-based (0.03 mL/kg) bolus. After localization of the imaging plane, CEUS cine clips were acquired for 90 seconds. Bolus injection of contrast agent provided global visualization of cerebral perfusion and highlighted microvasculature in the brain. Preliminary evaluation of bolus kinetics in piglets showed a central gray nuclei-to-cortex ratio similar to human infants with a steep wash-in that crossed and remained above the 1.0 threshold for most of the enhancement period. We demonstrated the similarity in brain perfusion between piglets and human infants, specifically central gray nuclei-to-cortex ratio, showing preliminary feasibility of its use as a pediatric model of brain perfusion. Contrast-enhanced ultrasound can be performed at the bedside as a minimally invasive procedure, and quantitative CEUS may provide critical information regarding changes in brain perfusion as a result of injury or as a response to therapy.

Published
2020

7. Low frequency power in cerebral blood flow through cardiac arrest and recovery in a swine model

Author

Jake Breimann, Ryan W. Morgan, Giselle Matlis, Daniel J. Licht, Kristen N. Andersen, Tiffany Ko, William P. Landis, Timothy Benson, Todd J. Kilbaugh, Arjun G. Yodh, Anna L. Roberts, Robert A. Berg, Nile Delso, Yuxi Lin, Jonah A. Padawer-Curry, Jharna Jahnavi, Brian R. White, Thomas Hallowell, Emilie J. Benson, and Kathryn Graham

Subjects
medicine.medical_specialty, Cerebral blood flow, business.industry, Internal medicine, medicine, Cardiology, Low frequency, business, Power (physics)
Published
2021

8. Impact of cerebral edema on diffuse optical spectroscopy quantification during extracorporeal membrane oxygenation (ECMO)

Author

Marco M. Hefti, Brian R. White, Jake Breimann, Ryan W. Morgan, Anna L. Roberts, Lindsay E. Volk, Richard W Melchior, Julia C. Slovis, Tiffany Ko, Wesley B. Baker, Giselle Matlis, Arjun G. Yodh, Jharna Jahnavi, Daniel J. Licht, Jonathan Starr, William P. Landis, Kathryn Graham, Tim Benson, Thomas Hallowell, Jonah A. Padawer-Curry, Kristen N. Andersen, Emilie J. Benson, Nile Delso, Alec Lafontant, Yuxi Lin, and Todd J. Kilbaugh

Subjects
medicine.medical_specialty, Critically ill, business.industry, Brain edema, medicine.medical_treatment, Inflammatory response, Brain tissue, medicine.disease, Quantitative accuracy, Cerebral edema, surgical procedures, operative, Cerebral hemodynamics, Internal medicine, Extracorporeal membrane oxygenation, medicine, Cardiology, business
Abstract

Extracorporeal membrane oxygenation (ECMO) is an important therapy for critically ill children but survivors have neurodevelopmental impairments. Cerebral inflammatory response resulting in brain edema is observed on ECMO. This pathologic response may adversely impact the quantitative accuracy of diffuse optical spectroscopy (DOS) neuromonitoring (including commercial NIRS) which commonly assumes a 75% water fraction. Using fresh brain tissue desiccation, we directly quantified the severity of cerebral edema in pediatric swine following cardiac arrest, CPR and 22-24 hours of ECMO therapy. The fractional error in DOS quantification of cerebral hemodynamics from assuming 75% water fraction was determined to be

Published
2021

9. Correlation of non-invasive diffuse optical measurements of cerebral hemodynamics and cerebral microdialysis during extracorporeal membrane oxygenation

Author

Yuxi Lin, Wesley B. Baker, Ryan W. Morgan, Robert A. Berg, Lindsay E. Volk, Kathryn Graham, Jonathan Starr, Jake Breimann, Anna L. Roberts, Constantine D. Mavroudis, Arjun G. Yodh, Nile Delso, Tiffany Ko, Jharna Jahnavi, William P. Landis, Kristen N. Andersen, Todd J. Kilbaugh, Richard W Melchior, Thomas Hallowell, Julia C. Slovis, Jonah A. Padawer-Curry, Daniel J. Licht, and Emilie J. Benson

Subjects
medicine.medical_specialty, business.industry, medicine.medical_treatment, Optical measurements, Non invasive, Diffuse correlation spectroscopy, surgical procedures, operative, Cerebral microdialysis, Cerebral blood flow, Cerebral hemodynamics, Internal medicine, Cardiology, Extracorporeal membrane oxygenation, Medicine, Cardiopulmonary resuscitation, business
Abstract

We examine the correlation of non-invasive, frequency-domain diffuse optical spectroscopy (FD-DOS) and diffuse correlation spectroscopy (DCS) measurements of cerebral tissue oxygen extraction fraction (OEF) and relative cerebral blood flow (rCBF) with invasive cerebral microdialysis measurement of the cerebral lactate-pyruvate ratio (LPR), a biomarker of metabolic stress, during extracorporeal membrane oxygenation (ECMO) in a pediatric swine model of ECMO assisted cardiopulmonary resuscitation (n=15). During 22-24 hours of ECMO, non-invasive FD-DOS/DCS neuromonitoring of OEF and rCBF demonstrated significant correlations with cerebral LPR. Non-invasive detection of critical neurometabolic stress at the bedside may facilitate brain-targeted ECMO management after cardiac arrest.

Published
2021

10. Effects of mild hypothermic cardiopulmonary bypass on cerebral hemodynamics: comparison of diffuse optical and cerebral microdialysis metrics in neonatal swine

Author

Thomas Hallowell, Nile Delso, Emilie J. Benson, Anna L. Roberts, Lindsay E. Volk, Wesley B. Baker, Yuxi Lin, Jonah A. Padawer-Curry, Arjun G. Yodh, Jonathan Starr, Alexander L. Schmidt, Samy Belbegra, Daniel J. Licht, Todd J. Kilbaugh, Kristen N. Andersen, Tiffany Ko, and William P. Landis

Subjects
medicine.medical_specialty, Microdialysis, Potential risk, business.industry, Metabolite, Diffuse correlation spectroscopy, Cardiac surgery, law.invention, chemistry.chemical_compound, surgical procedures, operative, Cerebral microdialysis, chemistry, Cerebral hemodynamics, law, Internal medicine, medicine, Cardiology, Cardiopulmonary bypass, business, circulatory and respiratory physiology
Abstract

Mild hypothermic cardiopulmonary bypass (CPB) is used during neonatal cardiac surgery. To elucidate potential risk factors for brain injury, diffuse optical spectroscopy, diffuse correlation spectroscopy, and cerebral microdialysis techniques were employed to monitor cerebral hemodynamics during mild hypothermic CPB in a swine model. Optical metrics were further compared with microdialysis metrics. Stable microdialysis metabolite levels, a significant decrease in CMRO2, and trending (but not significant) decreases in CBF and increases in OEF were observed. This suggests that the optical metrics may be more sensitive to neurologic injury during CPB than microdialysis.

Published
2021

11. Abstract 153: Non-invasive Measurement of Cerebral Tissue Oxygen Extraction Fraction is Correlated with Microdialysis Brain Injury Biomarkers During Extracorporeal Cardiopulmonary Resuscitation

Author

Jake Breimann, Anna L. Roberts, Ryan W. Morgan, Nile Delso, Emilie J. Benson, Todd J. Kilbaugh, Constantine D. Mavroudis, Jonah Padawer Curry, Daniel J. Licht, Jonathan Starr, Tiffany Ko, Lindsay E. Volk, William P. Landis, Kathryn Graham, Robert A. Berg, Thomas Hallowell, Kristen N. Andersen, Jharna Jahnavi, Wesley B. Baker, Yuxi Lin, and Julia C. Slovis

Subjects
Microdialysis, business.industry, medicine.medical_treatment, Non invasive, Extracorporeal circulation, Physiology (medical), Anesthesia, medicine, Extracorporeal membrane oxygenation, Extracorporeal cardiopulmonary resuscitation, Cardiopulmonary resuscitation, Cerebral tissue, Cardiology and Cardiovascular Medicine, business, Oxygen extraction
Abstract

Introduction: Extracorporeal membrane oxygenation (ECMO) assisted CPR (ECPR) can improve outcomes after prolonged or unsuccessful resuscitative efforts, but neurological injury remains common in survivors. The lack of routine neuromonitoring during ECPR and ECMO prohibits brain-targeted management to help improve neurological outcomes. In this study, we examine the association of non-invasive, frequency-domain diffuse optical spectroscopy (FD-DOS) measurements of cerebral tissue oxygen extraction fraction (OEF), an indicator of metabolic stress, with invasively collected brain injury biomarkers to explore the utility of this monitoring modality during ECPR. Hypothesis: FD-DOS measurement of cerebral OEF is positively correlated with biomarkers of brain injury (lactate-pyruvate ratio, LPR; glycerol). Methods: Cerebral OEF was continuously monitored by FD-DOS in nine pediatric swine (8-11 kg) who underwent 30-60 minutes of manual CPR, were cannulated for ECMO, and remained on ECMO for 22-24 hours. Cerebral pyruvate, lactate, glycerol and glucose content were measured from cerebral microdialysate samples collected hourly. The correlation between OEF and microdialysis parameters were assessed using a linear mixed-effects model incorporating subject-specific random slope and intercept effects. Significance was determined at p Results: Microdialysis parameters from 192 samples were compared against non-invasive OEF values. OEF was significantly correlated with LPR (p=0.001), and relative change in glycerol (p=0.005) and glucose (p=0.020) concentrations from baseline. Conclusions: Non-invasive FD-DOS neuromonitoring of OEF demonstrated significant correlations with invasive brain injury biomarkers; increasing OEF was associated with elevated LPR and glycerol, and diminished glucose. FD-DOS detection of critical neurometabolic stress at the bedside may facilitate brain-targeted ECMO management after cardiac arrest.

Published
2020

12. Evaluation of Diffusion Tensor Imaging and Fluid Based Biomarkers in a Large Animal Trial of Cyclosporine in Focal Traumatic Brain Injury

Author

Kevin K.W. Wang, Michael Karlsson, Susan S. Margulies, Zhihui Yang, Johannes K. Ehinger, Bryan Pukenas, Magnus Hansson, Todd J. Kilbaugh, Eskil Elmér, Sanjeev Chawla, Nile Delso, and Matilda Hugerth

Subjects
030506 rehabilitation, medicine.medical_specialty, Phase iii trials, Neurology, Traumatic brain injury, Swine, 03 medical and health sciences, 0302 clinical medicine, Brain Injuries, Traumatic, medicine, Animals, business.industry, food and beverages, medicine.disease, Diffusion Tensor Imaging, Animals, Newborn, Cyclosporine, Female, Neurology (clinical), Radiology, 0305 other medical science, business, 030217 neurology & neurosurgery, Biomarkers, Immunosuppressive Agents, Focal traumatic brain injury, Diffusion MRI, Large animal
Abstract

All phase III trials evaluating medical treatments for traumatic brain injury (TBI), performed to date, have failed. To facilitate future success there is a need for novel outcome metrics that can bridge pre-clinical studies to clinical proof of concept trials. Our objective was to assess diffusion tensor imaging (DTI) and biofluid-based biomarkers as efficacy outcome metrics in a large animal study evaluating the efficacy of cyclosporine in TBI. This work builds on our previously published study that demonstrated a reduced volume of injury by 35% with cyclosporine treatment based on magnetic resonance imaging (MRI) results. A focal contusion injury was induced in piglets using a controlled cortical impact (CCI) device. Cyclosporine in a novel Cremophor/Kolliphor EL-free lipid emulsion, NeuroSTAT, was administered by continuous intravenous infusion for 5 days. The animals underwent DTI on day 5. Glial fibrillary acidic protein (GFAP), as a measure of astroglia injury, and neurofilament light (NF-L), as a measure of axonal injury, were measured in blood on days 1, 2, and 5, and in cerebrospinal fluid (CSF) on day 5 post-injury. Normalized fractional anisotropy (FA) was significantly (

Published
2020

13. Axonal transport dysfunction of mitochondria in traumatic brain injury: A novel therapeutic target

Author

Michael Karlsson, Todd J. Kilbaugh, Nile Delso, Samuel S. Shin, Abhay Ranganathan, Thomas Hallowell, and Vanessa Mazandi

Subjects
Oncogene Proteins, Oncogene Proteins, Fusion, Traumatic brain injury, business.industry, Extramural, Metabolic Clearance Rate, Signal transducing adaptor protein, Mitochondrion, medicine.disease, Axonal Transport, Axons, Mitochondria, Developmental Neuroscience, Neurology, Brain Injuries, Traumatic, Axoplasmic transport, medicine, Animals, Humans, business, Neuroscience, Adaptor Proteins, Signal Transducing
Published
2020

14. Diffuse Optical Biomarkers of Elevated Intracranial Pressure in Hydrocephalus

Author

Tiffany Ko, Anna L. Roberts, Pascal Heye, Daniel J. Licht, Kristina Heye, Todd J. Kilbaugh, Arjun G. Yodh, Thomas Hallowell, Brian R. White, Yuxi Lin, Jonah A. Padawer-Curry, Wesley B. Baker, Nile Delso, Kristen N. Andersen, and Norah G. Taraska

Subjects
0301 basic medicine, Materials science, integumentary system, musculoskeletal, neural, and ocular physiology, Laser Doppler velocimetry, medicine.disease, Critical closing pressure, Pressure sensor, humanities, nervous system diseases, Hydrocephalus, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Optical sensing, medicine, Elevated Intracranial Pressure, 030217 neurology & neurosurgery, Intracranial pressure, Biomedical engineering
Abstract

We performed diffuse optical neuromonitoring concurrently with invasive neuromonitoring across a wide range of increasing intracranial pressure (ICP) levels in a piglet model of hydrocephalus. Pilot comparisons of critical closing pressure to ICP are presented.

Published
2020

15. Oxygen Saturation and Blood Flow Measured as a Function of Time During Cardiopulmonary Bypass

Author

Anna L. Roberts, Wesley B. Baker, Thomas Hallowell, Jonah A. Padawer-Curry, Nile Delso, Todd J. Kilbaugh, Lindsay E. Volk, Yuxi Lin, Emilie J. Benson, Alexander L. Schmidt, Arjun G. Yodh, Samy Belbegra, Tiffany Ko, William P. Landis, Daniel J. Licht, and Kristen N. Andersen

Subjects
Materials science, Nuclear magnetic resonance, law, Near-infrared spectroscopy, Cardiopulmonary bypass, Measure (physics), sense organs, Diffuse correlation spectroscopy, Blood flow, Spectroscopy, law.invention, Oxygen saturation (medicine)
Abstract

Near-infrared spectroscopy and diffuse correlation spectroscopy were applied to measure oxygen saturation and blood flow changes in the brain at four timepoints in swine models during cardiopulmonary bypass.

Published
2020

19. 1164: Neurologic Injury After Prolonged Cardiac Arrest With ECMO Rescue: A Porcine Model

Author

Vinay M. Nadkarni, Nile Delso, William P. Landis, Jonathan Starr, Yuxi Lin, Anna L. Roberts, Constantine Mavroudis, Marco M. Hefti, Kathryn Graham, Ryan W. Morgan, Richard W Melchior, Todd J. Kilbaugh, Julia C. Slovis, Robert A. Berg, Thomas Hallowell, Sarah Piel, and Lindsay E. Volk

Subjects
Neurologic injury, business.industry, Anesthesia, Medicine, Critical Care and Intensive Care Medicine, business
Published
2020

20. 1743: OPA1 EXPRESSION AS A MARKER OF MITOCHONDRIAL FUSION IN FOCAL TRAUMATIC BRAIN INJURY

Author

David H. Jang, Todd J. Kilbaugh, Abhay Ranganathan, Sanjeev Chawla, Vanessa Mazandi, Nile Delso, Thomas Hallowell, Meagan J. McManus, and William P. Landis

Subjects
Pathology, medicine.medical_specialty, mitochondrial fusion, Expression (architecture), business.industry, medicine, Critical Care and Intensive Care Medicine, business, Focal traumatic brain injury
Published
2020

21. [Untitled]

Author

Ryan W. Morgan, Julia C. Slovis, Tiffany Ko, Anna L. Roberts, Robert Sutton, William P. Landis, Constantine Mavroudis, Nile Delso, Robert A. Berg, Vinay M. Nadkarni, Alexandria Marquez, Yuxi Lin, and Todd J. Kilbaugh

Subjects
Vasopressin, Epinephrine, Cerebral blood flow, business.industry, Anesthesia, Medicine, Critical Care and Intensive Care Medicine, business, medicine.drug
Published
2019

Catalog

Books, media, physical & digital resources
See catalog results