Your search keyword '"Chesnut R"' showing total 20 results

1. Cerebrovascular Autoregulation Monitoring in the Management of Adult Severe Traumatic Brain Injury: A Delphi Consensus of Clinicians

Author

Depreitere, B., Citerio, G., Smith, M., Adelson, P. David, Aries, M. J., Bleck, T. P., Bouzat, P., Chesnut, R., De Sloovere, V., Diringer, M., Dureanteau, J., Ercole, A., Hawryluk, G., Hawthorne, C., Helbok, R., Klein, S. P., Neumann, J. O., Robba, C., Steiner, L., Stocchetti, N., Taccone, F. S., Valadka, A., Wolf, S., Zeiler, F. A., and Meyfroidt, G.

Published

2021

2. Monitoring Inflammation (Including Fever) in Acute Brain Injury

Author

Provencio J. J., Badjatia N., Le Roux P., Menon D. K., Vespa P., Citerio G., Bader M. K., Brophy G. M., Diringer M. N., Stocchetti N., Videtta W., Armonda R., Boesel J., Chesnut R., Chou S., Claassen J., Czosnyka M., De Georgia M., Figaji A., Fugate J., Helbok R., Horowitz D., Hutchinson P., Kumar M., McNett M., Miller C., Naidech A., Oddo M., Olson D., O'Phelan K., Puppo C., Riker R., Robertson C., Schmidt J. M., Taccone F., Provencio, J, Badjatia, N, Le Roux, P, Menon, D, Vespa, P, Citerio, G, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Boesel, J, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O'Phelan, K, Puppo, C, Riker, R, Robertson, C, Schmidt, J, and Taccone, F

Subjects

medicine.medical_specialty, Neurology, Critical Care, Fever, Monitoring, medicine.medical_treatment, Inflammation, Targeted temperature management, Critical Care and Intensive Care Medicine, C-reactive protein, Predictive Value of Tests, White blood cell, Neurocritical care, medicine, Humans, Brain injury, Intensive care medicine, Immunity, Cellular, biology, business.industry, Shivering, Neurointensive care, Prognosis, medicine.anatomical_structure, Brain Injuries, Inflammatory cascade, biology.protein, Neurology (clinical), Inflammation Mediators, medicine.symptom, business, Biomarkers

Abstract

Inflammation is an important part of the normal physiologic response to acute brain injury (ABI). How inflammation is manifest determines if it augments or hinders the resolution of ABI. Monitoring body temperature, the cellular arm of the inflammatory cascade, and inflammatory proteins may help guide therapy. This summary will address the utility of inflammation monitoring in brain-injured adults. An electronic literature search was conducted for English language articles describing the testing, utility, and optimal methods to measure inflammation in ABI. Ninety-four articles were included in this review. Current evidence suggests that control of inflammation after ABI may hold promise for advances in good outcomes. However, our understanding of how much inflammation is good and how much is deleterious is not yet clear. Several important concepts emerge form our review. First, while continuous temperature monitoring of core body temperature is recommended, temperature pattern alone is not useful in distinguishing infectious from noninfectious fever. Second, when targeted temperature management is used, shivering should be monitored at least hourly. Finally, white blood cell levels and protein markers of inflammation may have a limited role in distinguishing infectious from noninfectious fever. Our understanding of optimal use of inflammation monitoring after ABI is limited currently but is an area of active investigation.

Published

2014

3. Intracranial Pressure and Cerebral Perfusion Pressure Monitoring in Non-TBI Patients: Special Considerations

Author

Helbok R., Olson D. W. M., Le Roux P. D., Vespa P., Menon D. K., Citerio G., Bader M. K., Brophy G. M., Diringer M. N., Stocchetti N., Videtta W., Armonda R., Badjatia N., Boesel J., Chesnut R., Chou S., Claassen J., Czosnyka M., De Georgia M., Figaji A., Fugate J., Horowitz D., Hutchinson P., Kumar M., McNett M., Miller C., Naidech A., Oddo M., O'Phelan K., Provencio J., Puppo C., Riker R., Robertson C., Schmidt J. M., Taccone F., Helbok, R, Olson, D, Le Roux, P, Vespa, P, Menon, D, Citerio, G, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Badjatia, N, Boesel, J, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, O'Phelan, K, Provencio, J, Puppo, C, Riker, R, Robertson, C, Schmidt, J, and Taccone, F

Subjects

Ventriculostomy, medicine.medical_specialty, Neurology, Subarachnoid hemorrhage, Critical Care, Intracranial Pressure, Traumatic brain injury, medicine.medical_treatment, Critical Care and Intensive Care Medicine, medicine, Humans, Cerebral perfusion pressure, Intracranial pressure, Coma, Intracerebral hemorrhage, Brain Diseases, integumentary system, business.industry, Patient Selection, musculoskeletal, neural, and ocular physiology, Prognosis, medicine.disease, Neurophysiological Monitoring, humanities, nervous system diseases, Brain edema, Coma, CPP, ICP, Intracerebral hemorrhage, Subarachnoid hemorrhage, Ventriculostomy, Cerebrovascular Circulation, Anesthesia, Neurology (clinical), medicine.symptom, business

Abstract

The effect of intracranial pressure (ICP) and the role of ICP monitoring are best studied in traumatic brain injury (TBI). However, a variety of acute neurologic illnesses e.g., subarachnoid hemorrhage, intracerebral hemorrhage, ischemic stroke, meningitis/encephalitis, and select metabolic disorders, e.g., liver failure and malignant, brain tumors can affect ICP. The purpose of this paper is to review the literature about ICP monitoring in conditions other than TBI and to provide recommendations how the technique may be used in patient management. A PubMed search between 1980 and September 2013 identified 989 articles; 225 of which were reviewed in detail. The technique used to monitor ICP in non-TBI conditions is similar to that used in TBI; however, indications for ICP monitoring often are intertwined with the presence of obstructive hydrocephalus and hence the use of ventricular catheters is more frequent. Increased ICP can adversely affect outcome, particularly when it fails to respond to treatment. However, patients with elevated ICP can still have favorable outcomes. Although the influence of ICP-based care on outcome in non-TBI conditions appears less robust than in TBI, monitoring ICP and cerebral perfusion pressure can play a role in guiding therapy in select patients.

Published

2014

4. International Multidisciplinary Consensus Conference on Multimodality Monitoring: ICU Processes of Care

Author

McNett M. M., Horowitz D. A., Le Roux P., Menon D. K., Vespa P., Citerio G., Bader M. K., Brophy G. M., Diringer M. N., Stocchetti N., Videtta W., Armonda R., Badjatia N., Boesel J., Chesnut R., Chou S., Claassen J., Czosnyka M., De Georgia M., Figaji A., Fugate J., Helbok R., Hutchinson P., Kumar M., Miller C., Naidech A., Oddo M., Olson D., O'Phelan K., Provencio J., Puppo C., Riker R., Robertson C., Schmidt J. M., Taccone F., Mcnett, M, Horowitz, D, Le Roux, P, Menon, D, Vespa, P, Citerio, G, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Badjatia, N, Boesel, J, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Helbok, R, Hutchinson, P, Kumar, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O'Phelan, K, Provencio, J, Puppo, C, Riker, R, Robertson, C, Schmidt, J, and Taccone, F

Subjects

medicine.medical_specialty, Consensus, Internationality, Critical Care, Population, MEDLINE, Benchmark, Critical Care and Intensive Care Medicine, law.invention, Clinical Protocols, Ambulatory care, law, Intensive care, Critical care nursing, Health care, Neurocritical care, Humans, Medicine, Mortality, Intensive care medicine, education, Outcome, education.field_of_study, business.industry, Process Assessment, Health Care, Neurointensive care, medicine.disease, Quality, Neurophysiological Monitoring, Intensive care unit, Brain Injuries, Neurology (clinical), Medical emergency, business

Abstract

There is an increased focus on evaluating processes of care, particularly in the high acuity and cost environment of intensive care. Evaluation of neurocritical-specific care and evidence-based protocol implementation are needed to effectively determine optimal processes of care and effect on patient outcomes. General quality measures to evaluate intensive care unit (ICU) processes of care have been proposed; however, applicability of these measures in neurocritical care populations has not been established. A comprehensive literature search was conducted for English language articles from 1990 to August 2013. A total of 1,061 articles were reviewed, with 145 meeting criteria for inclusion in this review. Care in specialized neurocritical care units or by neurocritical teams can have a positive impact on mortality, length of stay, and in some cases, functional outcome. Similarly, implementation of evidence-based protocol-directed care can enhance outcome in the neurocritical care population. There is significant evidence to support suggested quality indicators for the general ICU population, but limited research regarding specific use in neurocritical care. Quality indices for neurocritical care have been proposed; however, additional research is needed to further validate measures.

Published

2014

5. Monitoring Nutrition and Glucose in Acute Brain Injury

Author

Badjatia N., Vespa P., Le Roux P., Menon D. K., Citerio G., Bader M. K., Brophy G. M., Diringer M. N., Stocchetti N., Videtta W., Armonda R., Boesel J., Chesnut R., Chou S., Claassen J., Czosnyka M., De Georgia M., Figaji A., Fugate J., Helbok R., Horowitz D., Hutchinson P., Kumar M., McNett M., Miller C., Naidech A., Oddo M., Olson D., O'Phelan K., Provencio J., Puppo C., Riker R., Robertson C., Schmidt J. M., Taccone F., Badjatia, N, Vespa, P, Le Roux, P, Menon, D, Citerio, G, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Boesel, J, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O'Phelan, K, Provencio, J, Puppo, C, Riker, R, Robertson, C, Schmidt, J, and Taccone, F

Subjects

Blood Glucose, medicine.medical_specialty, Neurology, Critical Care, Population, Critical Care and Intensive Care Medicine, Enteral Nutrition, medicine, Humans, education, Adverse effect, Intensive care medicine, Neurophysiological Monitoring, Blood glucose monitoring, education.field_of_study, medicine.diagnostic_test, business.industry, Neurointensive care, Calorimetry, Indirect, Anthropometry, Nutrition Assessment, Parenteral nutrition, Brain Injuries, Neurology (clinical), Energy Metabolism, Brain injury, Energy expenditure, Glucose, Monitoring, Nitrogen balance, Nutritional assessment, business

Abstract

The metabolic response to injury is well described; however, very little is understood about optimal markers to measure this response. This summary will address the current evidence about monitoring nutritional status including blood glucose after acute brain injury (ABI). An electronic literature search was conducted for English language articles describing the testing, utility, and optimal methods to measure nutritional status and blood glucose levels in the neurocritical care population. A total of 45 articles were included in this review. Providing adequate and timely nutritional support can help improve outcome after ABI. However, the optimal content and total nutrition requirements remain unclear. In addition, how best to monitor the nutritional status in ABI is still being elucidated, and at present, there is no validated optimal method to monitor the global response to nutritional support on a day-to-day basis in ABI patients. Nitrogen balance may be monitored to assess the adequacy of caloric intake as it relates to protein energy metabolism, but indirect calorimetry, anthropometric measurement, or serum biomarker requires further validation. The adverse effects of hyperglycemia in ABI are well described, and data indicate that blood glucose should be carefully controlled in critically ill patients. However, the optimal frequency or duration for blood glucose monitoring after ABI remains poorly defined. There are significant knowledge gaps about monitoring nutritional status and response to nutritional interventions in ABI; these need to be addressed and hence few recommendations can be made. The optimal frequency and duration of blood glucose monitoring need further study.

Published

2014

6. Multimodality Monitoring: Informatics, Integration Data Display and Analysis

Author

Schmidt J. M., De Georgia M., Le Roux P., Menon D. K., Vespa P., Citerio G., Bader M. K., Brophy G. M., Diringer M. N., Stocchetti N., Videtta W., Armonda R., Badjatia N., Boesel J., Chesnut R., Chou S., Claassen J., Czosnyka M., Figaji A., Fugate J., Helbok R., Horowitz D., Hutchinson P., Kumar M., McNett M., Miller C., Naidech A., Oddo M., Olson D., O'Phelan K., Provencio J., Puppo C., Riker R., Robertson C., Taccone F., Schmidt, J, De Georgia, M, Le Roux, P, Menon, D, Vespa, P, Citerio, G, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Badjatia, N, Boesel, J, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, Figaji, A, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O'Phelan, K, Provencio, J, Puppo, C, Riker, R, Robertson, C, and Taccone, F

Subjects

Information management, Telemedicine, Decision support system, Critical Care, business.industry, Critical care, Data display, Data integration, Decision support, Informatics, Neuromonitoring, Critical Care and Intensive Care Medicine, computer.software_genre, Neurophysiological Monitoring, Health informatics, Data science, Data warehouse, Systems Integration, Intensive care, Informatics, Data Display, Humans, Medicine, Medical Informatics Applications, Neurology (clinical), business, computer, Data integration

Abstract

The goal of multimodality neuromonitoring is to provide continuous, real-time assessment of brain physiology to prevent, detect, and attenuate secondary brain injury. Clinical informatics deals with biomedical data, information, and knowledge including their acquisition, storage, retrieval, and optimal use for clinical decision-making. An electronic literature search was conducted for English language articles describing the use of informatics in the intensive care unit setting from January 1990 to August 2013. A total of 64 studies were included in this review. Clinical informatics infrastructure should be adopted that enables a wide range of linear and nonlinear analytical methods be applied to patient data. Specific time epochs of clinical interest should be reviewable. Analysis strategies of monitor alarms may help address alarm fatigue. Ergonomic data display that present results from analyses with clinical information in a sensible uncomplicated manner improve clinical decision-making. Collecting and archiving the highest resolution physiologic and phenotypic data in a comprehensive open format data warehouse is a crucial first step toward information management and two-way translational research for multimodality monitoring. The infrastructure required is largely the same as that needed for telemedicine intensive care applications, which under the right circumstances improves care quality while reducing cost.

Published

2014

7. Electrophysiologic monitoring in acute brain injury

Author

Claassen J., Vespa P., Le Roux P., Menon D. K., Citerio G., Bader M. K., Brophy G. M., Diringer M. N., Stocchetti N., Videtta W., Armonda R., Badjatia N., Boesel J., Chesnut R., Chou S., Czosnyka M., De Georgia M., Figaji A., Fugate J., Helbok R., Horowitz D., Hutchinson P., Kumar M., McNett M., Miller C., Naidech A., Oddo M., Olson D., O'Phelan K., Provencio J., Puppo C., Riker R., Robertson C., Schmidt J. M., Taccone F., Claassen, J, Vespa, P, Le Roux, P, Menon, D, Citerio, G, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Badjatia, N, Boesel, J, Chesnut, R, Chou, S, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O'Phelan, K, Provencio, J, Puppo, C, Riker, R, Robertson, C, Schmidt, J, and Taccone, F

Subjects

medicine.medical_specialty, Neurology, Critical Care, Traumatic brain injury, Ischemia, Electroencephalography, Critical Care and Intensive Care Medicine, EEG-fMRI, law.invention, Brain Ischemia, law, Seizures, medicine, Humans, Evoked potential, medicine.diagnostic_test, business.industry, Patient Selection, medicine.disease, Intensive care unit, Heart Arrest, Bispectral index, Electroencephalography, Evoked potential, Ischemia, Prognosis, Quantitative EEG, Seizure, Bispectral index, Anesthesia, Brain Injuries, Emergency medicine, Neurology (clinical), business

Abstract

To determine the optimal use and indications of electroencephalography (EEG) in critical care management of acute brain injury (ABI). An electronic literature search was conducted for articles in English describing electrophysiological monitoring in ABI from January 1990 to August 2013. A total of 165 studies were included. EEG is a useful monitor for seizure and ischemia detection. There is a well-described role for EEG in convulsive status epilepticus and cardiac arrest (CA). Data suggest EEG should be considered in all patients with ABI and unexplained and persistent altered consciousness and in comatose intensive care unit (ICU) patients without an acute primary brain condition who have an unexplained impairment of mental status. There remain uncertainties about certain technical details, e.g., the minimum duration of EEG studies, the montage, and electrodes. Data obtained from both EEG and EP studies may help estimate prognosis in ABI patients, particularly following CA and traumatic brain injury. Data supporting these recommendations is sparse, and high quality studies are needed. EEG is used to monitor and detect seizures and ischemia in ICU patients and indications for EEG are clear for certain disease states, however, uncertainty remains on other applications.

Published

2014

8. Monitoring of brain and systemic oxygenation in neurocritical care patients

Author

Oddo M., Bosel J., Le Roux P., Menon D. K., Vespa P., Citerio G., Bader M. K., Brophy G. M., Diringer M. N., Stocchetti N., Videtta W., Armonda R., Badjatia N., Chesnut R., Chou S., Claassen J., Czosnyka M., De Georgia M., Figaji A., Fugate J., Helbok R., Horowitz D., Hutchinson P., Kumar M., McNett M., Miller C., Naidech A., Olson D., O'Phelan K., Provencio J., Puppo C., Riker R., Robertson C., Schmidt J. M., Taccone F., Oddo, M, Bosel, J, Le Roux, P, Menon, D, Vespa, P, Citerio, G, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Badjatia, N, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Olson, D, O'Phelan, K, Provencio, J, Puppo, C, Riker, R, Robertson, C, Schmidt, J, Taccone, F, and Participants in the International Multidisciplinary Consensus Conference on Multimodality Monitoring

Subjects

medicine.medical_specialty, Neurology, Critical Care, Intracranial Pressure, business.industry, Traumatic brain injury, Neurointensive care, Reproducibility of Results, Brain Hypoxia, Oxygenation, Critical Care and Intensive Care Medicine, medicine.disease, Prognosis, Neurophysiological Monitoring, Brain oxygen, Carbon dioxide, Jugular oxygen saturation, Near-infrared spectroscopy, Neurocritical care, Systemic oxygenation, Oxygen monitoring, Intensive care, Brain Injuries, Medicine, Humans, Neurology (clinical), Oximetry, Cerebral perfusion pressure, business, Intensive care medicine

Abstract

Maintenance of adequate oxygenation is a mainstay of intensive care, however, recommendations on the safety, accuracy, and the potential clinical utility of invasive and non-invasive tools to monitor brain and systemic oxygenation in neurocritical care are lacking. A literature search was conducted for English language articles describing bedside brain and systemic oxygen monitoring in neurocritical care patients from 1980 to August 2013. Imaging techniques e.g., PET are not considered. A total of 281 studies were included, the majority described patients with traumatic brain injury (TBI). All tools for oxygen monitoring are safe. Parenchymal brain oxygen (PbtO2) monitoring is accurate to detect brain hypoxia, and it is recommended to titrate individual targets of cerebral perfusion pressure (CPP), ventilator parameters (PaCO2, PaO2), and transfusion, and to manage intracranial hypertension, in combination with ICP monitoring. SjvO2 is less accurate than PbtO2. Given limited data, NIRS is not recommended at present for adult patients who require neurocritical care. Systemic monitoring of oxygen (PaO2, SaO2, SpO2) and CO2 (PaCO2, end-tidal CO2) is recommended in patients who require neurocritical care.

Published

2014

9. Intracranial pressure monitoring: fundamental considerations and rationale for monitoring

Author

Chesnut R., Videtta W., Vespa P., Le Roux P., Menon D. K., Citerio G., Bader M. K., Brophy G. M., Diringer M. N., Stocchetti N., Armonda R., Badjatia N., Boesel J., Chou S., Claassen J., Czosnyka M., De Georgia M., Figaji A., Fugate J., Helbok R., Horowitz D., Hutchinson P., Kumar M., McNett M., Miller C., Naidech A., Oddo M., Olson D., O'Phelan K., Provencio J., Puppo C., Riker R., Robertson C., Schmidt J. M., Taccone F., Chesnut, R, Videtta, W, Vespa, P, Le Roux, P, Menon, D, Citerio, G, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Armonda, R, Badjatia, N, Boesel, J, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O'Phelan, K, Provencio, J, Puppo, C, Riker, R, Robertson, C, Schmidt, J, and Taccone, F

Subjects

medicine.medical_specialty, Neurology, Critical Care, Intracranial Pressure, Traumatic brain injury, Physical examination, Critical Care and Intensive Care Medicine, medicine, Humans, Brain injury, Cerebral perfusion pressure, Coma, Intracranial pressure, Multimodality monitoring, Cerebral perfusion pressure, Intensive care medicine, Neurophysiological Monitoring, Intracranial pressure, integumentary system, medicine.diagnostic_test, business.industry, musculoskeletal, neural, and ocular physiology, Patient Selection, medicine.disease, Prognosis, nervous system diseases, Brain Injuries, Intracranial pressure monitoring, Observational study, Neurology (clinical), business

Abstract

Traumatic brain injury (TBI) is a major cause of death and disability worldwide. In large part critical care for TBI is focused on the identification and management of secondary brain injury. This requires effective neuromonitoring that traditionally has centered on intracranial pressure (ICP). The purpose of this paper is to review the fundamental literature relative to the clinical application of ICP monitoring in TBI critical care and to provide recommendations on how the technique maybe applied to help patient management and enhance outcome. A PubMed search between 1980 and September 2013 identified 2,253 articles; 244 of which were reviewed in detail to prepare this report and the evidentiary tables. Several important concepts emerge from this review. ICP monitoring is safe and is best performed using a parenchymal monitor or ventricular catheter. While the indications for ICP monitoring are well established, there remains great variability in its use. Increased ICP, particularly the pattern of the increase and ICP refractory to treatment is associated with increased mortality. Class I evidence is lacking on how monitoring and management of ICP influences outcome. However, a large body of observational data suggests that ICP management has the potential to influence outcome, particularly when care is targeted and individualized and supplemented with data from other monitors including the clinical examination and imaging.

Published

2014

10. Multimodality monitoring consensus statement: monitoring in emerging economies

Author

Figaji A., Puppo C., Le Roux P., Menon D. K., Vespa P., Citerio G., Bader M. K., Brophy G. M., Diringer M. N., Stocchetti N., Videtta W., Armonda R., Badjatia N., Boesel J., Chesnut R., Chou S., Claassen J., Czosnyka M., De Georgia M., Fugate J., Helbok R., Horowitz D., Hutchinson P., Kumar M., McNett M., Miller C., Naidech A., Oddo M., Olson D., O'Phelan K., Provencio J., Riker R., Robertson C., Schmidt J. M., Taccone F., Figaji, A, Puppo, C, Le Roux, P, Menon, D, Vespa, P, Citerio, G, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Badjatia, N, Boesel, J, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O'Phelan, K, Provencio, J, Riker, R, Robertson, C, Schmidt, J, and Taccone, F

Subjects

medicine.medical_specialty, Consensus, Critical Care, media_common.quotation_subject, Developing country, Context (language use), Critical Care and Intensive Care Medicine, Multimodality, Resource (project management), Clinical Protocols, Health care, medicine, Developing countries, Low- and middle-income countries, Multimodality monitoring, Neurocritical care, Traumatic brain injury, Humans, Quality (business), Intensive care medicine, Emerging markets, Developing Countries, media_common, business.industry, Patient Selection, Neurointensive care, medicine.disease, Neurophysiological Monitoring, Brain Injuries, Neurology (clinical), Medical emergency, business

Abstract

The burden of disease and so the need for care is often greater at hospitals in emerging economies. This is compounded by frequent restrictions in the delivery of good quality clinical care due to resource limitations. However, there is substantial heterogeneity in this economically defined group, such that advanced brain monitoring is routinely practiced at certain centers that have an interest in neurocritical care. It also must be recognized that significant heterogeneity in the delivery of neurocritical care exists even within individual high-income countries (HICs), determined by costs and level of interest. Direct comparisons of data between HICs and the group of low- and middle-income countries (LAMICs) are made difficult by differences in patient demographics, selection for ICU admission, therapies administered, and outcome assessment. Evidence suggests that potential benefits of multimodality monitoring depend on an appropriate environment and clinical expertise. There is no evidence to suggest that patients in LAMICs where such resources exist should be treated any differently to patients from HICs. The potential for outcome benefits in LAMICs is arguably greater in absolute terms because of the large burden of disease; however, the relative cost/benefit ratio of such monitoring in this setting must be viewed in context of the overall priorities in delivering health care at individual institutions.

Published

2014

11. Hemispheric differences in cerebral autoregulation in children with moderate and severe traumatic brain injury.

Author

Vavilala MS, Tontisirin N, Udomphorn Y, Armstead W, Zimmerman JJ, Chesnut R, Lam AM, Vavilala, Monica S, Tontisirin, Nuj, Udomphorn, Yuthana, Armstead, William, Zimmerman, Jerry J, Chesnut, Randall, and Lam, Arthur M

Abstract

Introduction: To examine hemispheric differences in cerebral autoregulation in children with traumatic brain injury (TBI). After IRB approval and consent, subjects underwent static cerebral autoregulation testing during the first 9 days after PICU admission. Cerebral autoregulation was quantified using the autoregulatory index (ARI).Results: Forty-two (27 M:15 F) children (10 +/- 5 years) with TBI and admission Glasgow coma scale score (5 +/- 2) were enrolled. Seven (54%) of the 13 children with focal TBI and 8 (28%) of 29 children with diffuse TBI had impairment or absence of cerebral autoregulation of at least one hemisphere. In patients with isolated focal TBI, ARI was lower (0.40 +/- 0.40 vs. 0.67 +/- 0.40; P = 0.03) in the side of TBI than in the unaffected hemisphere, but cerebral autoregulation was often impaired on the side without TBI or shift (5/13) on head CT. There was no difference in ARI between hemispheres in children with diffuse TBI, with or without superimposed focal lesions (P = 0.17). Patients with bilateral intact cerebral autoregulation tended to have higher 6 month Glasgow Outcome Score (GOS) than patients with either unilateral or bilateral cerebral autoregulation impairment (GOS 4.0 +/- 0.60 vs. 3.6 +/- 0.80; P = 0.08).Conclusions: Hemispheric differences in cerebral autoregulation were common in children with isolated focal TBI. Absence of TBI on CT was not always associated with intact cerebral autoregulation. Patients with bilaterally intact cerebral autoregulation tended to have better outcomes. [ABSTRACT FROM AUTHOR]

Published

2008

12. Cerebrovascular Autoregulation Monitoring in the Management of Adult Severe Traumatic Brain Injury

Author

Raimund Helbok, FS Taccone, J. Dureanteau, Ari Ercole, Michael N. Diringer, V. De Sloovere, Alex B. Valadka, Geert Meyfroidt, Michael D. Smith, Pierre Bouzat, Thomas P. Bleck, Frederick A. Zeiler, Nino Stocchetti, C. Hawthorne, Bart Depreitere, C. Robba, Luzius A. Steiner, Samuel Klein, Marcel J. H. Aries, Giuseppe Citerio, Jan-Oliver Neumann, Gregory W.J. Hawryluk, P. David Adelson, Stefan Wolf, Randall M. Chesnut, Depreitere, B. [0000-0002-7458-0648], Apollo - University of Cambridge Repository, Depreitere, B [0000-0002-7458-0648], Intensive Care, RS: MHeNs - R1 - Cognitive Neuropsychiatry and Clinical Neuroscience, MUMC+: MA Medische Staf IC (9), Depreitere, B, Citerio, G, Smith, M, Adelson, P, Aries, M, Bleck, T, Bouzat, P, Chesnut, R, De Sloovere, V, Diringer, M, Dureanteau, J, Ercole, A, Hawryluk, G, Hawthorne, C, Helbok, R, Klein, S, Neumann, J, Robba, C, Steiner, L, Stocchetti, N, Taccone, F, Valadka, A, Wolf, S, Zeiler, F, and Meyfroidt, G

Subjects

Adult, DYNAMICS, medicine.medical_specialty, Consensus, Neurology, Delphi Technique, Traumatic brain injury, INTRACRANIAL-PRESSURE, Delphi method, Critical Care and Intensive Care Medicine, OXYGEN, 03 medical and health sciences, 0302 clinical medicine, Homeostasi, Brain Injuries, Traumatic, medicine, Humans, Homeostasis, CRITICAL THRESHOLDS, Autoregulation, Prospective Studies, Cerebral perfusion pressure, Intensive care medicine, Multiple choice, BLOOD-FLOW, HYPERTENSION, business.industry, Gold standard, Reproducibility of Results, 030208 emergency & critical care medicine, Cerebral blood flow, Consensus development, medicine.disease, REACTIVITY, CEREBRAL PERFUSION-PRESSURE, Cerebrovascular Circulation, INSULTS, Neurology (clinical), Neurosurgery, business, Original Work, 030217 neurology & neurosurgery

Abstract

Background Several methods have been proposed to measure cerebrovascular autoregulation (CA) in traumatic brain injury (TBI), but the lack of a gold standard and the absence of prospective clinical data on risks, impact on care and outcomes of implementation of CA-guided management lead to uncertainty. Aim To formulate statements using a Delphi consensus approach employing a group of expert clinicians, that reflect current knowledge of CA, aspects that can be implemented in TBI management and CA research priorities. Methods A group of 25 international academic experts with clinical expertise in the management of adult severe TBI patients participated in this consensus process. Seventy-seven statements and multiple-choice questions were submitted to the group in two online surveys, followed by a face-to-face meeting and a third online survey. Participants received feedback on average scores and the rationale for resubmission or rephrasing of statements. Consensus on a statement was defined as agreement of more than 75% of participants. Results Consensus amongst participants was achieved on the importance of CA status in adult severe TBI pathophysiology, the dynamic non-binary nature of CA impairment, its association with outcome and the inadvisability of employing universal and absolute cerebral perfusion pressure targets. Consensus could not be reached on the accuracy, reliability and validation of any current CA assessment method. There was also no consensus on how to implement CA information in clinical management protocols, reflecting insufficient clinical evidence. Conclusion The Delphi process resulted in 25 consensus statements addressing the pathophysiology of impaired CA, and its impact on cerebral perfusion pressure targets and outcome. A research agenda was proposed emphasizing the need for better validated CA assessment methods as well as the focused investigation of the application of CA-guided management in clinical care using prospective safety, feasibility and efficacy studies.

Published

2021

13. The International Multidisciplinary Consensus Conference on Multimodality Monitoring in Neurocritical Care: Evidentiary Tables

Author

Paul M. Vespa, Gretchen M. Brophy, Michael N. Diringer, J. Javier Provencio, Monisha A. Kumar, Andrew M. Naidech, Corinna Puppo, Peter J. Hutchinson, Randall M. Chesnut, Mauro Oddo, Jennifer E. Fugate, Michael De Georgia, Chad Miller, Peter D. Le Roux, Sherry Chou, Jan Claassen, Mary Kay Bader, Fabio Silvio Taccone, Richard R. Riker, Julian Bösel, David K. Menon, Rocco A. Armonda, Michael Schmidt, Raimund Helbok, Marek Czosnyka, Nino Stocchetti, Molly McNett, DaiWai W. Olson, Kristine O’Phelan, Giuseppe Citerio, Neeraj Badjatia, Anthony Figaji, Walter Videtta, David A. Horowitz, Claudia Roberson, Le Roux, P, Menon, D, Citerio, G, Vespa, P, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Badjatia, N, Bösel, J, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O'Phelan, K, Javier Provencio, J, Puppo, C, Riker, R, Roberson, C, Schmidt, M, and Taccone, F

Subjects

Research design, medicine.medical_specialty, Consensus, Evidence-Based Medicine, Internationality, Critical Care, business.industry, Data Collection, MEDLINE, Neurointensive care, Evidence-based medicine, Neuromonitoring, Critical Care and Intensive Care Medicine, Neurophysiological Monitoring, Clinical trial, Research Design, Multidisciplinary approach, Intensive care, medicine, Humans, Neurology (clinical), Intensive care medicine, business, Societies, Medical

Abstract

A variety of technologies have been developed to assist decision-making during the management of patients with acute brain injury who require intensive care. A large body of research has been generated describing these various technologies. The Neurocritical Care Society (NCS) in collaboration with the European Society of Intensive Care Medicine (ESICM), the Society for Critical Care Medicine (SCCM), and the Latin America Brain Injury Consortium (LABIC) organized an international, multidisciplinary consensus conference to perform a systematic review of the published literature to help develop evidence-based practice recommendations on bedside physiologic monitoring. This supplement contains a Consensus Summary Statement with recommendations and individual topic reviews on physiologic processes important in the care of acute brain injury. In this article we provide the evidentiary tables for select topics including systemic hemodynamics, intracranial pressure, brain and systemic oxygenation, EEG, brain metabolism, biomarkers, processes of care and monitoring in emerging economies to provide the clinician ready access to evidence that supports recommendations about neuromonitoring.

Published

2014

14. Consensus Summary Statement of the International Multidisciplinary Consensus Conference on Multimodality Monitoring in Neurocritical Care

Author

Peter Hutchinson, Julian J. Böesel, Gretchen M. Brophy, Michael N. Diringer, Nino Stocchetti, Kristine O’Phelan, Anthony A. Figaji, Walter Videtta, Monisha A. Kumar, Peter D. Le Roux, Neeraj Badjatia, David A. Horowitz, Michael Schmidt, Chad Miller, Paul M. Vespa, J. Javier Provencio, Sherry Chou, Giuseppe Citerio, Raimund Helbok, Marek Czosnyka, Michael De Georgia, Mauro Oddo, DaiWai M. Olson, Mary Kay Bader, Molly McNett, Randall M. Chesnut, Corinna Puppo, Fabio Silvio Taccone, Jan Claassen, Richard R. Riker, Rocco Armonda, David K. Menon, Claudia S. Robertson, Andrew M. Naidech, Jennifer E. Fugate, Le Roux, P, Menon, D, Citerio, G, Vespa, P, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Badjatia, N, Böesel, J, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O'Phelan, K, Provencio, J, Puppo, C, Riker, R, Robertson, C, Schmidt, M, and Taccone, F

Subjects

medicine.medical_specialty, Consensus, Intracranial Pressure, Critical Care, Standardization, Health Personnel, MEDLINE, Pharmacy, Critical Care and Intensive Care Medicine, Severity of Illness Index, Electrocardiography, Multidisciplinary approach, medicine, Humans, Oximetry, Intensive care medicine, Societies, Medical, Monitoring, Physiologic, Brain Diseases, Trauma Severity Indices, business.industry, Consensus Conference on Multimodality Monitoring in Neurocritical Care, Neurointensive care, Electroencephalography, Neurophysiological Monitoring, Systematic review, Informatics, Data quality, Neurology (clinical), Nervous System Diseases, business, Biomarkers

Abstract

Neurocritical care depends, in part, on careful patient monitoring but as yet there are little data on what processes are the most important to monitor, how these should be monitored, and whether monitoring these processes is cost-effective and impacts outcome. At the same time, bioinformatics is a rapidly emerging field in critical care but as yet there is little agreement or standardization on what information is important and how it should be displayed and analyzed. The Neurocritical Care Society in collaboration with the European Society of Intensive Care Medicine, the Society for Critical Care Medicine, and the Latin America Brain Injury Consortium organized an international, multidisciplinary consensus conference to begin to address these needs. International experts from neurosurgery, neurocritical care, neurology, critical care, neuroanesthesiology, nursing, pharmacy, and informatics were recruited on the basis of their research, publication record, and expertise. They undertook a systematic literature review to develop recommendations about specific topics on physiologic processes important to the care of patients with disorders that require neurocritical care. This review does not make recommendations about treatment, imaging, and intraoperative monitoring. A multidisciplinary jury, selected for their expertise in clinical investigation and development of practice guidelines, guided this process. The GRADE system was used to develop recommendations based on literature review, discussion, integrating the literature with the participants' collective experience, and critical review by an impartial jury. Emphasis was placed on the principle that recommendations should be based on both data quality and on trade-offs and translation into clinical practice. Strong consideration was given to providing pragmatic guidance and recommendations for bedside neuromonitoring, even in the absence of high quality data.

Published

2014

15. Alternative clinical trial design in neurocritical care

Author

Christos, Lazaridis, Andrew I R, Maas, Michael J, Souter, Renee H, Martin, Randal M, Chesnut, Stacia M, DeSantis, Gene, Sung, Peter D, Leroux, Jose I, Suarez, Zygun, David, Second Neurocritical Care Res Conf, Lazaridis, C, Maas, A, Souter, M, Martin, R, Chesnut, R, Desantis, S, Sung, G, Leroux, P, Suarez, J, and Citerio, G

Subjects

medicine.medical_specialty, Critical Care, media_common.quotation_subject, Comparative effectiveness research, Alternative medicine, Critical Care and Intensive Care Medicine, law.invention, Randomized controlled trial, law, medicine, Humans, Quality (business), Intensive care medicine, Psychiatry, media_common, Clinical Trials as Topic, business.industry, Clinical study design, Neurointensive care, Evidence-based medicine, Comparative effectiveness research, Neurocritical care, Neuromonitoring, Randomized controlled trials, Traumatic brain injury, Neurophysiological Monitoring, Research Design, Data quality, Neurology (clinical), Human medicine, business

Abstract

Neurocritical care involves the care of highly complex patients with combinations of physiologic derangements in the brain and in extracranial organs. The level of evidence underpinning treatment recommendations remains low due to a multitude of reasons including an incomplete understanding of the involved physiology; lack of good quality, prospective, standardized data; and the limited success of conventional randomized controlled trials. Comparative effectiveness research can provide alternative perspectives and methods to enhance knowledge and evidence within the field of neurocritical care; these include large international collaborations for generation and maintenance of high quality data, statistical methods that incorporate heterogeneity and individualize outcome prediction, and finally advanced bioinformatics that integrate large amounts of variable-source data into patient-specific phenotypes and trajectories.

Published

2015

16. The International Multidisciplinary Consensus Conference on Multimodality Monitoring in Neurocritical Care: a list of recommendations and additional conclusions: a statement for healthcare professionals from the Neurocritical Care Society and the European Society of Intensive Care Medicine

Author

Kristine O’Phelan, Neeraj Badjatia, Walter Videtta, Gretchen M. Brophy, Fabio Silvio Taccone, Rocco Armonda, David A. Horowitz, Claudia Roberson, Michael N. Diringer, Monisha A. Kumar, Molly McNett, Anthony Figaji, Jan Claassen, Giuseppe Citerio, Chad Miller, Corinna Puppo, Richard R. Riker, David K. Menon, Mauro Oddo, Paul M. Vespa, Sherry Chou, Jennifer E. Fugate, Randall M. Chesnut, Peter J. Hutchinson, Peter D. Le Roux, J. Javier Provencio, Andrew M. Naidech, Michael De Georgia, Mary Kay Bader, Julian Bösel, Nino Stocchetti, Michael Schmidt, Raimund Helbok, Marek Czosnyka, DaiWai W. Olson, Le Roux, P, Menon, D, Citerio, G, Vespa, P, Bader, M, Brophy, G, Diringer, M, Stocchetti, N, Videtta, W, Armonda, R, Badjatia, N, Bösel, J, Chesnut, R, Chou, S, Claassen, J, Czosnyka, M, De Georgia, M, Figaji, A, Fugate, J, Helbok, R, Horowitz, D, Hutchinson, P, Kumar, M, Mcnett, M, Miller, C, Naidech, A, Oddo, M, Olson, D, O’Phelan, K, Provencio, J, Puppo, C, Riker, R, Roberson, C, Schmidt, M, and Taccone, F

Subjects

medicine.medical_specialty, Consensus, Internationality, Critical Care, Intracranial Pressure, Bio-informatic, Remote patient monitoring, Point-of-Care Systems, MEDLINE, Neuromonitoring, Critical Care and Intensive Care Medicine, Article, Multimodality, Brain metabolism, Brain oxygen, Traumatic brain injury, Clinical Protocols, Multidisciplinary approach, Grading of recommendations assessment development and evaluation (GRADE), Neurocritical care, medicine, Humans, Intensive care medicine, Clinical guideline, Neurophysiological Monitoring, Brain physiology, Societies, Medical, Statement (computer science), business.industry, Patient Selection, Neurointensive care, Electroencephalography, Biomarker, Clinical trial, Multimodal monitoring, Consensus development conference, Microdialysi, Brain Injuries, Cerebrovascular Circulation, Neurology (clinical), Blood Gas Analysis, business

Abstract

Careful patient monitoring using a variety of techniques including clinical and laboratory evaluation, bedside physiological monitoring with continuous or non-continuous techniques and imaging is fundamental to the care of patients who require neurocritical care. How best to perform and use bedside monitoring is still being elucidated. To create a basic platform for care and a foundation for further research the Neurocritical Care Society in collaboration with the European Society of Intensive Care Medicine, the Society for Critical Care Medicine and the Latin America Brain Injury Consortium organized an international, multidisciplinary consensus conference to develop recommendations about physiologic bedside monitoring. This supplement contains a Consensus Summary Statement with recommendations and individual topic reviews as a background to the recommendations. In this article, we highlight the recommendations and provide additional conclusions as an aid to the reader and to facilitate bedside care.

Published

2014

17. The International Multidisciplinary Consensus Conference on Multimodality Monitoring in Neurocritical Care: a list of recommendations and additional conclusions: a statement for healthcare professionals from the Neurocritical Care Society and the European Society of Intensive Care Medicine.

Author

Le Roux P, Menon DK, Citerio G, Vespa P, Bader MK, Brophy G, Diringer MN, Stocchetti N, Videtta W, Armonda R, Badjatia N, Bösel J, Chesnut R, Chou S, Claassen J, Czosnyka M, De Georgia M, Figaji A, Fugate J, Helbok R, Horowitz D, Hutchinson P, Kumar M, McNett M, Miller C, Naidech A, Oddo M, Olson D, O'Phelan K, Provencio JJ, Puppo C, Riker R, Roberson C, Schmidt M, and Taccone F

Subjects

Blood Gas Analysis, Brain Injuries therapy, Cerebrovascular Circulation physiology, Clinical Protocols, Consensus, Electroencephalography, Humans, Internationality, Intracranial Pressure physiology, Patient Selection, Point-of-Care Systems, Societies, Medical, Brain Injuries diagnosis, Brain Injuries physiopathology, Critical Care, Neurophysiological Monitoring

Abstract

Careful patient monitoring using a variety of techniques including clinical and laboratory evaluation, bedside physiological monitoring with continuous or non-continuous techniques and imaging is fundamental to the care of patients who require neurocritical care. How best to perform and use bedside monitoring is still being elucidated. To create a basic platform for care and a foundation for further research the Neurocritical Care Society in collaboration with the European Society of Intensive Care Medicine, the Society for Critical Care Medicine and the Latin America Brain Injury Consortium organized an international, multidisciplinary consensus conference to develop recommendations about physiologic bedside monitoring. This supplement contains a Consensus Summary Statement with recommendations and individual topic reviews as a background to the recommendations. In this article, we highlight the recommendations and provide additional conclusions as an aid to the reader and to facilitate bedside care.

Published

2014

18. Consensus summary statement of the International Multidisciplinary Consensus Conference on Multimodality Monitoring in Neurocritical Care: a statement for healthcare professionals from the Neurocritical Care Society and the European Society of Intensive Care Medicine.

Author

Le Roux P, Menon DK, Citerio G, Vespa P, Bader MK, Brophy GM, Diringer MN, Stocchetti N, Videtta W, Armonda R, Badjatia N, Böesel J, Chesnut R, Chou S, Claassen J, Czosnyka M, De Georgia M, Figaji A, Fugate J, Helbok R, Horowitz D, Hutchinson P, Kumar M, McNett M, Miller C, Naidech A, Oddo M, Olson D, O'Phelan K, Provencio JJ, Puppo C, Riker R, Robertson C, Schmidt M, and Taccone F

Subjects

Biomarkers, Consensus, Electrocardiography, Electroencephalography, Humans, Intracranial Pressure, Nervous System Diseases metabolism, Nervous System Diseases physiopathology, Oximetry, Severity of Illness Index, Societies, Medical, Trauma Severity Indices, Critical Care, Monitoring, Physiologic, Nervous System Diseases therapy

Abstract

Neurocritical care depends, in part, on careful patient monitoring but as yet there are little data on what processes are the most important to monitor, how these should be monitored, and whether monitoring these processes is cost-effective and impacts outcome. At the same time, bioinformatics is a rapidly emerging field in critical care but as yet there is little agreement or standardization on what information is important and how it should be displayed and analyzed. The Neurocritical Care Society in collaboration with the European Society of Intensive Care Medicine, the Society for Critical Care Medicine, and the Latin America Brain Injury Consortium organized an international, multidisciplinary consensus conference to begin to address these needs. International experts from neurosurgery, neurocritical care, neurology, critical care, neuroanesthesiology, nursing, pharmacy, and informatics were recruited on the basis of their research, publication record, and expertise. They undertook a systematic literature review to develop recommendations about specific topics on physiologic processes important to the care of patients with disorders that require neurocritical care. This review does not make recommendations about treatment, imaging, and intraoperative monitoring. A multidisciplinary jury, selected for their expertise in clinical investigation and development of practice guidelines, guided this process. The GRADE system was used to develop recommendations based on literature review, discussion, integrating the literature with the participants' collective experience, and critical review by an impartial jury. Emphasis was placed on the principle that recommendations should be based on both data quality and on trade-offs and translation into clinical practice. Strong consideration was given to providing pragmatic guidance and recommendations for bedside neuromonitoring, even in the absence of high quality data.

Published

2014

19. The International Multidisciplinary Consensus Conference on Multimodality Monitoring in Neurocritical Care: evidentiary tables: a statement for healthcare professionals from the Neurocritical Care Society and the European Society of Intensive Care Medicine.

Author

Le Roux P, Menon DK, Citerio G, Vespa P, Bader MK, Brophy G, Diringer MN, Stocchetti N, Videtta W, Armonda R, Badjatia N, Bösel J, Chesnut R, Chou S, Claassen J, Czosnyka M, De Georgia M, Figaji A, Fugate J, Helbok R, Horowitz D, Hutchinson P, Kumar M, McNett M, Miller C, Naidech A, Oddo M, Olson D, O'Phelan K, Provencio JJ, Puppo C, Riker R, Roberson C, Schmidt M, and Taccone F

Subjects

Consensus, Humans, Internationality, Societies, Medical, Critical Care, Data Collection, Evidence-Based Medicine, Neurophysiological Monitoring, Research Design

Abstract

A variety of technologies have been developed to assist decision-making during the management of patients with acute brain injury who require intensive care. A large body of research has been generated describing these various technologies. The Neurocritical Care Society (NCS) in collaboration with the European Society of Intensive Care Medicine (ESICM), the Society for Critical Care Medicine (SCCM), and the Latin America Brain Injury Consortium (LABIC) organized an international, multidisciplinary consensus conference to perform a systematic review of the published literature to help develop evidence-based practice recommendations on bedside physiologic monitoring. This supplement contains a Consensus Summary Statement with recommendations and individual topic reviews on physiologic processes important in the care of acute brain injury. In this article we provide the evidentiary tables for select topics including systemic hemodynamics, intracranial pressure, brain and systemic oxygenation, EEG, brain metabolism, biomarkers, processes of care and monitoring in emerging economies to provide the clinician ready access to evidence that supports recommendations about neuromonitoring.

Published

2014

20. Open-label randomized trial of the safety and efficacy of a single dose conivaptan to raise serum sodium in patients with traumatic brain injury.

Author

Galton C, Deem S, Yanez ND, Souter M, Chesnut R, Dagal A, and Treggiari M

Subjects

Adult, Aged, Benzazepines adverse effects, Brain Injuries blood, Diuresis drug effects, Female, Humans, Male, Middle Aged, Treatment Outcome, Antidiuretic Hormone Receptor Antagonists, Benzazepines administration & dosage, Brain Injuries drug therapy, Intracranial Pressure drug effects, Sodium blood

Abstract

Background: Conivaptan is an arginine-vasopressin-receptor antagonist approved for the treatment of hyponatremia. We hypothesized that administration of conivaptan to normonatremic patients with traumatic brain injury (TBI) is safe and could reduce intracranial pressure (ICP)., Methods: Open-label, randomized, controlled trial enrolling 10 subjects within 24 h of severe TBI to receive a single 20 mg dose of conivaptan (n = 5) or usual care (n = 5). The primary endpoint was the evaluation of the safety profile defined by serum sodium increases averaging >1 mEq/h when measured every 4 h and any adverse events. Secondary endpoints were 48-h serum sodium, sodium load, change in ICP, and urine output., Results: Ten patients were included in the intention-to-treat analysis. Three patients (2 conivaptan, 1 usual care group) experienced brief sodium increases averaging >1 mEq/h, with no patients achieving Na >160 mEq/l. There were no drug-related serious adverse events. At 48 h, the mean sodium was 142 ± 6 mEq/l (conivaptan) and 144 ± 10 mEq/l (usual care, P = 0.71). 48-h sodium load was 819 ± 724 mEq in the conivaptan and 1,137 ± 1,165 mEq in the usual care group (P = 0.62). At 4 h, serum sodium was higher (P = 0.02) and ICP was lower (P = 0.046) in the conivaptan compared with usual care group. 24-h but not 48-h urine output was different between the two groups (P < 0.01 and P = 0.20, respectively)., Conclusions: These data suggest that a single dose conivaptan is safe in non-hyponatremic patients with severe TBI and may reduce ICP. Further studies are needed to establish the effect of conivaptan on clinically relevant endpoints, and its role in the management of intracranial hypertension.

Published

2011