Your search keyword '"Nelson, David W."' showing total 7 results

1. The leap to ordinal: Detailed functional prognosis after traumatic brain injury with a flexible modelling approach

Author

Bhattacharyay, Shubhayu, Milosevic, Ioan, Wilson, Lindsay, Menon, David, Stevens, Robert D, Steyerberg, Ewout W, Nelson, David W, Ercole, Ari, CENTER-TBI Investigators Participants, Bhattacharyay, Shubhayu [0000-0001-7428-5588], Wilson, Lindsay [0000-0003-4113-2328], Menon, David K [0000-0002-3228-9692], Apollo - University of Cambridge Repository, Ercole, Ari [0000-0001-8350-8093], and Menon, David [0000-0002-3228-9692]

Subjects

Medicine and health sciences, FOS: Computer and information sciences, Computer Science - Machine Learning, Multidisciplinary, Brain Injuries, Traumatic/diagnosis, J.3, I.5.1, Computer and information sciences, Biology and life sciences, Glasgow Outcome Scale, FOS: Physical sciences, Prognosis, I.2.0, Machine Learning (cs.LG), Cohort Studies, Research and analysis methods, Physical sciences, Brain Injuries, Brain Injuries, Traumatic, Humans, Prospective Studies, People and places, Traumatic/diagnosis, Research Article

Abstract

Funder: Integra LifeSciences, Funder: One Mind, Funder: ZNS - Hannelore Kohl Stiftung, When a patient is admitted to the intensive care unit (ICU) after a traumatic brain injury (TBI), an early prognosis is essential for baseline risk adjustment and shared decision making. TBI outcomes are commonly categorised by the Glasgow Outcome Scale-Extended (GOSE) into eight, ordered levels of functional recovery at 6 months after injury. Existing ICU prognostic models predict binary outcomes at a certain threshold of GOSE (e.g., prediction of survival [GOSE > 1]). We aimed to develop ordinal prediction models that concurrently predict probabilities of each GOSE score. From a prospective cohort (n = 1,550, 65 centres) in the ICU stratum of the Collaborative European NeuroTrauma Effectiveness Research in TBI (CENTER-TBI) patient dataset, we extracted all clinical information within 24 hours of ICU admission (1,151 predictors) and 6-month GOSE scores. We analysed the effect of two design elements on ordinal model performance: (1) the baseline predictor set, ranging from a concise set of ten validated predictors to a token-embedded representation of all possible predictors, and (2) the modelling strategy, from ordinal logistic regression to multinomial deep learning. With repeated k-fold cross-validation, we found that expanding the baseline predictor set significantly improved ordinal prediction performance while increasing analytical complexity did not. Half of these gains could be achieved with the addition of eight high-impact predictors to the concise set. At best, ordinal models achieved 0.76 (95% CI: 0.74-0.77) ordinal discrimination ability (ordinal c-index) and 57% (95% CI: 54%- 60%) explanation of ordinal variation in 6-month GOSE (Somers' Dxy). Model performance and the effect of expanding the predictor set decreased at higher GOSE thresholds, indicating the difficulty of predicting better functional outcomes shortly after ICU admission. Our results motivate the search for informative predictors that improve confidence in prognosis of higher GOSE and the development of ordinal dynamic prediction models.

Published

2022

2. Impact of duration and magnitude of raised intracranial pressure on outcome after severe traumatic brain injury: A CENTER-TBI high-resolution group study

Author

Åkerlund, Cecilia Ai, Donnelly, Joseph, Zeiler, Frederick A, Helbok, Raimund, Holst, Anders, Cabeleira, Manuel, Güiza, Fabian, Meyfroidt, Geert, Czosnyka, Marek, Smielewski, Peter, Stocchetti, Nino, Ercole, Ari, Nelson, David W, CENTER-TBI High Resolution ICU Sub-Study Participants And Investigators, Åkerlund, Cecilia AI [0000-0003-4918-1482], Smielewski, Peter [0000-0001-5096-3938], Ercole, Ari [0000-0001-8350-8093], Apollo - University of Cambridge Repository, and Åkerlund, Cecilia Ai [0000-0003-4918-1482]

Subjects

Adult, Intracranial Pressure, Science, Blood Pressure, Hemorrhage, Motor Activity, Social sciences, Brain Injuries, Traumatic, Humans, Monitoring, Physiologic, Medicine and health sciences, integumentary system, Biology and life sciences, musculoskeletal, neural, and ocular physiology, FOS: Social sciences, Middle Aged, humanities, nervous system diseases, Research and analysis methods, Intensive Care Units, Cerebrovascular Circulation, Medicine, Female, Intracranial Hypertension, Research Article

Abstract

Magnitude of intracranial pressure (ICP) elevations and their duration have been associated with worse outcomes in patients with traumatic brain injuries (TBI), however published thresholds for injury vary and uncertainty about these levels has received relatively little attention. In this study, we have analyzed high-resolution ICP monitoring data in 227 adult patients in the CENTER-TBI dataset. Our aim was to identify thresholds of ICP intensity and duration associated with worse outcome, and to evaluate the uncertainty in any such thresholds. We present ICP intensity and duration plots to visualize the relationship between ICP events and outcome. We also introduced a novel bootstrap technique to evaluate uncertainty of the equipoise line. We found that an intensity threshold of 18 ± 4 mmHg (2 standard deviations) was associated with worse outcomes in this cohort. In contrast, the uncertainty in what duration is associated with harm was larger, and safe durations were found to be population dependent. The pressure and time dose (PTD) was also calculated as area under the curve above thresholds of ICP. A relationship between PTD and mortality could be established, as well as for unfavourable outcome. This relationship remained valid for mortality but not unfavourable outcome after adjusting for IMPACT core variables and maximum therapy intensity level. Importantly, during periods of impaired autoregulation (defined as pressure reactivity index (PRx)>0.3) ICP events were associated with worse outcomes for nearly all durations and ICP levels in this cohort and there was a stronger relationship between outcome and PTD. Whilst caution should be exercised in ascribing causation in observational analyses, these results suggest intracranial hypertension is poorly tolerated in the presence of impaired autoregulation. ICP level guidelines may need to be revised in the future taking into account cerebrovascular autoregulation status considered jointly with ICP levels.

Published

2020

3. Does prenatal alcohol exposure cause a metabolic syndrome? (Non-)evidence from a mouse model of fetal alcohol spectrum disorder.

Author

Amos-Kroohs, Robyn M., Nelson, David W., Hacker, Timothy A., Yen, Chi-Liang Eric, and Smith, Susan M.

Subjects

*FETAL alcohol syndrome, *METABOLIC syndrome, *ANIMAL models in research, *TRIGLYCERIDES, COMPLICATIONS of alcoholism in pregnancy

Abstract

Although prenatal alcohol exposure (PAE) reduces offspring growth, it may increase obesity risk at adolescence. Animal models of PAE display glucose intolerance and increased adiposity, suggesting that PAE causes metabolic reprogramming. We tested this hypothesis in a mouse model of binge PAE, wherein pregnant C57Bl/6J females received 3 g/kg alcohol (ETOH) daily from gestational day 12.5 to 17.5; maltodextrin (MD) and medium chain triglycerides (MCT) served as isocaloric nutritional controls, and sham (H2O) treatment controlled for gavage stress. Our comprehensive assessment quantified body composition, energy expenditure, glucose tolerance, and cardiovascular function in offspring at age 17 weeks. Although ETOH pups were initially lighter than all other groups, they did not have a unique obesogenic phenotype. Instead, a similar obesogenic phenotype emerged in all three caloric groups (MCT, MD, ETOH), such that caloric groups had greater post-weaning weight gain (both sexes), reduced gonadal fat weight (males), and reduced glucose clearance (males) compared against H2O offspring. PAE did not affect body composition, respiratory exchange ratio, metabolic adaption to high-fat or low-fat diet, eating behavior, and blood pressure, and ETOH values did not differ from those obtained from isocaloric controls. Exposure to a higher alcohol dose (4.5 g/kg) or a high-fat (60%) diet did not exacerbate differences in body composition or glucose tolerance. “PAE-specific” effects on postnatal growth, glucose tolerance, adiposity, or hypertension only emerged when PAE offspring were compared just against H2O controls, or against MD controls. We conclude that prior reports of obesity and glucose intolerance in adult PAE offspring reflect the contribution of added gestational calories, and not alcohol’s pharmacologic action. Results suggest that the increased adiposity risk in FASD is not caused by metabolic reprogramming, and instead originates from behavioral, medication, and/or dietary practices. This study highlights the importance of appropriate dietary controls in nutritional studies of PAE. [ABSTRACT FROM AUTHOR]

Published

2018

4. Evaluation of novel computerized tomography scoring systems in human traumatic brain injury: An observational, multicenter study.

Author

Thelin, Eric Peter, Nelson, David W., Vehviläinen, Juho, Nyström, Harriet, Kivisaari, Riku, Siironen, Jari, Svensson, Mikael, Skrifvars, Markus B., Bellander, Bo-Michael, and Raj, Rahul

Subjects

*BRAIN injuries, *PATIENTS, *BRAIN injury treatment, *COMPUTED tomography, *NEUROSURGERY, *CLINICAL trials, *SUBARACHNOID hemorrhage, *PATHOLOGICAL physiology, *COMPARATIVE studies, *RESEARCH methodology, *MEDICAL cooperation, *PROGNOSIS, *RESEARCH, *EVALUATION research, *DISEASE incidence, *DISEASE prevalence, *RETROSPECTIVE studies

Abstract

Background: Traumatic brain injury (TBI) is a major contributor to morbidity and mortality. Computerized tomography (CT) scanning of the brain is essential for diagnostic screening of intracranial injuries in need of neurosurgical intervention, but may also provide information concerning patient prognosis and enable baseline risk stratification in clinical trials. Novel CT scoring systems have been developed to improve current prognostic models, including the Stockholm and Helsinki CT scores, but so far have not been extensively validated. The primary aim of this study was to evaluate the Stockholm and Helsinki CT scores for predicting functional outcome, in comparison with the Rotterdam CT score and Marshall CT classification. The secondary aims were to assess which individual components of the CT scores best predict outcome and what additional prognostic value the CT scoring systems contribute to a clinical prognostic model.Methods and Findings: TBI patients requiring neuro-intensive care and not included in the initial creation of the Stockholm and Helsinki CT scoring systems were retrospectively included from prospectively collected data at the Karolinska University Hospital (n = 720 from 1 January 2005 to 31 December 2014) and Helsinki University Hospital (n = 395 from 1 January 2013 to 31 December 2014), totaling 1,115 patients. The Marshall CT classification and the Rotterdam, Stockholm, and Helsinki CT scores were assessed using the admission CT scans. Known outcome predictors at admission were acquired (age, pupil responsiveness, admission Glasgow Coma Scale, glucose level, and hemoglobin level) and used in univariate, and multivariable, regression models to predict long-term functional outcome (dichotomizations of the Glasgow Outcome Scale [GOS]). In total, 478 patients (43%) had an unfavorable outcome (GOS 1-3). In the combined cohort, overall prognostic performance was more accurate for the Stockholm CT score (Nagelkerke's pseudo-R2 range 0.24-0.28) and the Helsinki CT score (0.18-0.22) than for the Rotterdam CT score (0.13-0.15) and Marshall CT classification (0.03-0.05). Moreover, the Stockholm and Helsinki CT scores added the most independent prognostic value in the presence of other known clinical outcome predictors in TBI (6% and 4%, respectively). The aggregate traumatic subarachnoid hemorrhage (tSAH) component of the Stockholm CT score was the strongest predictor of unfavorable outcome. The main limitations were the retrospective nature of the study, missing patient information, and the varying follow-up time between the centers.Conclusions: The Stockholm and Helsinki CT scores provide more information on the damage sustained, and give a more accurate outcome prediction, than earlier classification systems. The strong independent predictive value of tSAH may reflect an underrated component of TBI pathophysiology. A change to these newer CT scoring systems may be warranted. [ABSTRACT FROM AUTHOR]

Published

2017

5. Comparative Assessment of the Prognostic Value of Biomarkers in Traumatic Brain Injury Reveals an Independent Role for Serum Levels of Neurofilament Light.

Author

Al Nimer, Faiez, Thelin, Eric, Nyström, Harriet, Dring, Ann M., Svenningsson, Anders, Piehl, Fredrik, Nelson, David W., and Bellander, Bo-Michael

Subjects

BRAIN injuries, BIOMARKERS, BLOOD serum analysis, CYTOPLASMIC filaments, CEREBROSPINAL fluid, GLASGOW Coma Scale

Abstract

Traumatic brain injury (TBI) is a common cause of death and disability, worldwide. Early determination of injury severity is essential to improve care. Neurofilament light (NF-L) has been introduced as a marker of neuroaxonal injury in neuroinflammatory/-degenerative diseases. In this study we determined the predictive power of serum (s-) and cerebrospinal fluid (CSF-) NF-L levels towards outcome, and explored their potential correlation to diffuse axonal injury (DAI). A total of 182 patients suffering from TBI admitted to the neurointensive care unit at a level 1 trauma center were included. S-NF-L levels were acquired, together with S100B and neuron-specific enolase (NSE). CSF-NF-L was measured in a subcohort (n = 84) with ventriculostomies. Clinical and neuro-radiological parameters, including computerized tomography (CT) and magnetic resonance imaging, were included in the analyses. Outcome was assessed 6 to 12 months after injury using the Glasgow Outcome Score (1-5). In univariate proportional odds analyses mean s-NF-L, -S100B and -NSE levels presented a pseudo-R2 Nagelkerke of 0.062, 0.214 and 0.074 in correlation to outcome, respectively. In a multivariate analysis, in addition to a model including core parameters (pseudo-R2 0.33 towards outcome; Age, Glasgow Coma Scale, pupil response, Stockholm CT score, abbreviated injury severity score, S100B), S-NF-L yielded an extra 0.023 pseudo-R2 and a significantly better model (p = 0.006) No correlation between DAI or CT assessed-intracranial damage and NF-L was found. Our study thus demonstrates that S-NF-L correlates to TBI outcome, even if used in models with S100B, indicating an independent contribution to the prediction, perhaps by reflecting different pathophysiological processes, not possible to monitor using conventional neuroradiology. Although we did not find a predictive value of NF-L for DAI, this cannot be completely excluded. We suggest further studies, with volume quantification of axonal injury, and a prolonged sampling time, in order to better determine the connection between NF-L and DAI. [ABSTRACT FROM AUTHOR]

Published

2015

6. Syndecan-1 Is Required to Maintain Intradermal Fat and Prevent Cold Stress.

Author

Kasza, Ildiko, Suh, Yewseok, Wollny, Damian, Clark, Rod J., Roopra, Avtar, Colman, Ricki J., MacDougald, Ormond A., Shedd, Timothy A., Nelson, David W., Yen, Mei-I, Yen, Chi-Liang Eric, and Alexander, Caroline M.

Subjects

SYNDECANS, HOMEOSTASIS, PROTEOGLYCANS, GLYCOGEN, PHYSIOLOGICAL effects of cold temperatures

Abstract

Homeostatic temperature regulation is fundamental to mammalian physiology and is controlled by acute and chronic responses of local, endocrine and nervous regulators. Here, we report that loss of the heparan sulfate proteoglycan, syndecan-1, causes a profoundly depleted intradermal fat layer, which provides crucial thermogenic insulation for mammals. Mice without syndecan-1 enter torpor upon fasting and show multiple indicators of cold stress, including activation of the stress checkpoint p38α in brown adipose tissue, liver and lung. The metabolic phenotype in mutant mice, including reduced liver glycogen, is rescued by housing at thermoneutrality, suggesting that reduced insulation in cool temperatures underlies the observed phenotypes. We find that syndecan-1, which functions as a facultative lipoprotein uptake receptor, is required for adipocyte differentiation in vitro. Intradermal fat shows highly dynamic differentiation, continuously expanding and involuting in response to hair cycle and ambient temperature. This physiology probably confers a unique role for Sdc1 in this adipocyte sub-type. The PPARγ agonist rosiglitazone rescues Sdc1−/− intradermal adipose tissue, placing PPARγ downstream of Sdc1 in triggering adipocyte differentiation. Our study indicates that disruption of intradermal adipose tissue development results in cold stress and complex metabolic pathology. [ABSTRACT FROM AUTHOR]

Published

2014

7. Evaluation of novel computerized tomography scoring systems in human traumatic brain injury: An observational, multicenter study

Author

Juho Vehviläinen, Riku Kivisaari, Mikael Svensson, Rahul Raj, Harriet Nyström, Markus B. Skrifvars, Bo-Michael Bellander, Jari Siironen, Eric Peter Thelin, David W. Nelson, Thelin, Eric Peter [0000-0002-2338-4364], Nelson, David W [0000-0003-2530-8207], Vehviläinen, Juho [0000-0001-7521-8512], Nyström, Harriet [0000-0002-0705-6440], Siironen, Jari [0000-0001-5252-8999], Bellander, Bo-Michael [0000-0002-0648-2501], Raj, Rahul [0000-0003-4243-9591], Apollo - University of Cambridge Repository, HUS Neurocenter, Clinicum, University of Helsinki, Neurokirurgian yksikkö, Department of Diagnostics and Therapeutics, Anestesiologian yksikkö, and HUS Perioperative, Intensive Care and Pain Medicine

Subjects

Male, Pediatrics, Critical Care and Emergency Medicine, Traumatic Brain Injury, IMPACT, lcsh:Medicine, Pathology and Laboratory Medicine, Vascular Medicine, 3124 Neurology and psychiatry, Diagnostic Radiology, 0302 clinical medicine, Brain Injuries, Traumatic, Prevalence, Medicine and Health Sciences, EPIDEMIOLOGY, 030212 general & internal medicine, Tomography, Finland, Trauma Medicine, Organic Compounds, Glasgow Outcome Scale, Incidence, Radiology and Imaging, Head injury, Monosaccharides, General Medicine, Middle Aged, Prognosis, 3. Good health, Chemistry, Cohort, Physical Sciences, population characteristics, Female, Traumatic Injury, GLASGOW COMA SCALE, geographic locations, INACCURATE, Research Article, Adult, medicine.medical_specialty, Subarachnoid hemorrhage, Traumatic brain injury, Imaging Techniques, Trauma Surgery, Carbohydrates, Neuroimaging, Surgical and Invasive Medical Procedures, Hemorrhage, Research and Analysis Methods, CLASSIFICATION, PRACTICAL SCALE, 03 medical and health sciences, Signs and Symptoms, Diagnostic Medicine, medicine, Humans, SUBARACHNOID HEMORRHAGE, Aged, Retrospective Studies, Sweden, business.industry, lcsh:R, Organic Chemistry, Glasgow Coma Scale, HEAD-INJURY, 3112 Neurosciences, Chemical Compounds, Biology and Life Sciences, Retrospective cohort study, medicine.disease, PREDICTIVE-VALUE, 3126 Surgery, anesthesiology, intensive care, radiology, Computed Axial Tomography, Clinical trial, Glucose, CLINICAL-PRACTICE, Emergency medicine, Lesions, business, Tomography, X-Ray Computed, Neurotrauma, 030217 neurology & neurosurgery, Neuroscience

Abstract

Background Traumatic brain injury (TBI) is a major contributor to morbidity and mortality. Computerized tomography (CT) scanning of the brain is essential for diagnostic screening of intracranial injuries in need of neurosurgical intervention, but may also provide information concerning patient prognosis and enable baseline risk stratification in clinical trials. Novel CT scoring systems have been developed to improve current prognostic models, including the Stockholm and Helsinki CT scores, but so far have not been extensively validated. The primary aim of this study was to evaluate the Stockholm and Helsinki CT scores for predicting functional outcome, in comparison with the Rotterdam CT score and Marshall CT classification. The secondary aims were to assess which individual components of the CT scores best predict outcome and what additional prognostic value the CT scoring systems contribute to a clinical prognostic model. Methods and findings TBI patients requiring neuro-intensive care and not included in the initial creation of the Stockholm and Helsinki CT scoring systems were retrospectively included from prospectively collected data at the Karolinska University Hospital (n = 720 from 1 January 2005 to 31 December 2014) and Helsinki University Hospital (n = 395 from 1 January 2013 to 31 December 2014), totaling 1,115 patients. The Marshall CT classification and the Rotterdam, Stockholm, and Helsinki CT scores were assessed using the admission CT scans. Known outcome predictors at admission were acquired (age, pupil responsiveness, admission Glasgow Coma Scale, glucose level, and hemoglobin level) and used in univariate, and multivariable, regression models to predict long-term functional outcome (dichotomizations of the Glasgow Outcome Scale [GOS]). In total, 478 patients (43%) had an unfavorable outcome (GOS 1–3). In the combined cohort, overall prognostic performance was more accurate for the Stockholm CT score (Nagelkerke’s pseudo-R2 range 0.24–0.28) and the Helsinki CT score (0.18–0.22) than for the Rotterdam CT score (0.13–0.15) and Marshall CT classification (0.03–0.05). Moreover, the Stockholm and Helsinki CT scores added the most independent prognostic value in the presence of other known clinical outcome predictors in TBI (6% and 4%, respectively). The aggregate traumatic subarachnoid hemorrhage (tSAH) component of the Stockholm CT score was the strongest predictor of unfavorable outcome. The main limitations were the retrospective nature of the study, missing patient information, and the varying follow-up time between the centers. Conclusions The Stockholm and Helsinki CT scores provide more information on the damage sustained, and give a more accurate outcome prediction, than earlier classification systems. The strong independent predictive value of tSAH may reflect an underrated component of TBI pathophysiology. A change to these newer CT scoring systems may be warranted., Using data from two cohorts, Eric Thelin and colleagues compare the prognostic performance of computerized tomography scoring systems in patients with severe traumatic brain injury., Author summary Why was this study done? Most patients who suffer from a significant traumatic brain injury (TBI) undergo head computerized tomography (CT) scanning to visualize injuries. The generated image contains information, incorporated into specific “scoring systems,” that can be used to predict patient outcomes and for better stratification of patients in clinical trials. Preliminary data have shown that novel CT scoring systems may outperform previous CT scoring systems, but these novel CT scoring systems have not previously been extensively evaluated. What did the researchers do and find? We evaluated 2 novel CT scoring systems (the Stockholm CT score and the Helsinki CT score) in a combined cohort of 1,115 TBI patients from 2 of the larger trauma centers in Europe. We found that the 2 novel CT scoring systems systematically outperformed the previous CT scoring systems (the Marshall CT classification and the Rotterdam CT score). In addition to other factors known to predict outcome in TBI patients, such as high age and low level of consciousness, the Stockholm and Helsinki CT scoring systems added significant discriminatory performance to outcome prediction systems. A more detailed analysis revealed that traumatic subarachnoid hemorrhage was the most important individual component of the CT scores for outcome prediction, presumably due to the lack of effective treatment strategies. What do these findings mean? Our findings suggest that a change to the Stockholm and Helsinki CT scoring systems may be warranted, as they seem to better incorporate clinically relevant injuries. Implementation of the novel CT scoring systems could help improve stratification of TBI patients for future clinical trials and also help healthcare providers prioritize resource use. We do however acknowledge the need for further validation of these observational findings, preferably through prospective multicenter trials.

Published

2017