Metabolic Crisis After Traumatic Brain Injury is Associated with a Novel Microdialysis Proteome

Lakshmanan, Rajeswari; Loo, Joseph A.; Drake, Thomas A.; LeBlanc, James F.; Ytterberg, A. Jimmy; McArthur, David L.; Etchepare, Maria; Vespa, Paul

doi:10.1007/s12028-010-9342-5

Cited by 60 publications

(37 citation statements)

References 22 publications

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“…It is well understood that TBI reduces the capacity of brain cells to metabolize energy. 7,8 Our current data show that TBI affects the BDNF system while fructose interferes with signaling of both insulin receptor and BDNF receptor (dashed lines). Therefore, fructose may present an additional challenge to cellular energy metabolism and TBI outcome.…”

Section: Declaration Of Conflicting Interestsmentioning

confidence: 72%

Dietary fructose aggravates the pathobiology of traumatic brain injury by influencing energy homeostasis and plasticity

Agrawal

Noble

Vergnes

et al. 2015

J Cereb Blood Flow Metab

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Fructose consumption has been on the rise for the last two decades and is starting to be recognized as being responsible for metabolic diseases. Metabolic disorders pose a particular threat for brain conditions characterized by energy dysfunction, such as traumatic brain injury. Traumatic brain injury patients experience sudden abnormalities in the control of brain metabolism and cognitive function, which may worsen the prospect of brain plasticity and function. The mechanisms involved are poorly understood. Here we report that fructose consumption disrupts hippocampal energy homeostasis as evidenced by a decline in functional mitochondria bioenergetics (oxygen consumption rate and cytochrome C oxidase activity) and an aggravation of the effects of traumatic brain injury on molecular systems engaged in cell energy homeostasis (sirtuin 1, peroxisome proliferator-activated receptor gamma coactivator-1alpha) and synaptic plasticity (brainderived neurotrophic factor, tropomyosin receptor kinase B, cyclic adenosine monophosphate response element binding, synaptophysin signaling). Fructose also worsened the effects of traumatic brain injury on spatial memory, which disruption was associated with a decrease in hippocampal insulin receptor signaling. Additionally, fructose consumption and traumatic brain injury promoted plasma membrane lipid peroxidation, measured by elevated protein and phenotypic expression of 4-hydroxynonenal. These data imply that high fructose consumption exacerbates the pathology of brain trauma by further disrupting energy metabolism and brain plasticity, highlighting the impact of diet on the resilience to neurological disorders.

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Section: Declaration Of Conflicting Interestsmentioning

confidence: 72%

Dietary fructose aggravates the pathobiology of traumatic brain injury by influencing energy homeostasis and plasticity

Agrawal

Noble

Vergnes

et al. 2015

J Cereb Blood Flow Metab

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“…The term ''progressive hemorrhagic injury'' has been used to refer to progression of an epidural hematoma, subdural hematoma, intraparenchymal contusion or hematoma, or subarachnoid hemorrhage (Oertel et al, 2002). Such broad usages are Lenzlinger et al, 2002;Morganti-Kossmann et al, 2002;Otto et al, 2002;Yatsiv et al, 2002;Lu et al, 2011;Hong et al, 2010 Excitotoxicity Yi andMetabolic derangements De et al, 2011Lakshmanan et al, 2010;Scafidi et al, 2009;Marcoux et al, 2008;Vespa et al, 2005 Apoptosis/necrosis/ autophagy Shojo et al, 2010;Nakajima et al, 2010;Hoh et al, 2010;Yamashima and Oikawa, 2009;Itoh et al, 2010;Robertson et al, 2009;Luo et al, 2010;Luo et al, 2011;Liao et al, 2009Ischemia Aoyama et al, 2008Stiefel et al, 2005;Engel et al, 2005;Mendez et al, 2004;Buczek et al, 2002;Oertel et al, 2005 imprecise, and the molecular mechanisms responsible for progression in each case is likely to be different. To avoid ambiguity, here we adopt the term ''hemorrhagic progression of a contusion'' (HPC).…”

Section: Hemorrhagic Progression Of a Contusionmentioning

confidence: 99%

Hemorrhagic Progression of a Contusion after Traumatic Brain Injury: A Review

Kurland

Hong

Aarabi

et al. 2012

Journal of Neurotrauma

294

220

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Кафедра нейрохірургії, Національна медична академія післядипломної освіти імені П.Л. Шупика МОЗ України, Київ, Україна 2 Нейрохірургічне відділення №1, Київська міська клінічна лікарня швидкої медичної допомоги, Київ, Україна Вторинна геморагічна прогресія вогнищ забою головного мозку у пацієнтів при черепно-мозковій травмі Вступ. Вторинні післятравматичні зміни головного мозку (ГМ) часто є визначальними в клінічному перебігу черепно-мозкової травми (ЧМТ). Попередження, виявлення та визначення лікувальної тактики при вторинній геморагічній прогресії забою (ВГПЗ) ГМ актуальні для нейротравматології. Матеріали і методи. Проаналізовані результати лікування потерпілих з ЧМТ, у яких діагностований забій ГМ. Результати. Встановлено, що ВГПЗ виникає у 50% пацієнтів при ЧМТ, як у місцях первинного ушкодження ГМ, так і у віддалених зонах за принципом протиудару протягом 12 год, хоча може виникати і через 3-4 доби після травми. ВГПЗ часто виявляють у пацієнтів з субдуральною гематомою (СДГ). Чим більше вогнище забою, тим більша ймовірність його прогресії та необхідності хірургічної декомпресії. Висновки. ВГПЗ є одним з найважливіших ускладнень після ЧМТ, пов'язана з значним підвищенням ризику клінічного погіршення. Лікувальна тактика залежить від вираженості впливу на навколишні структури та проявів компресійно-дислокаційного синдрому. Ключові слова: тяжка черепно-мозкова травма, забій головного мозку, вторинна геморагічна прогресія вогнищ забою, внутрішньочерепний тиск, ішемічні розлади. Introduction. Secondary posttraumatic changes of the brain often are determining in the clinical flow of traumatic brain injury (TBI). Prevention, detection and determination of treatment strategy at secondary hemorrhagic progression of contusion (SHPC) are very actual for neurotraumatology. Materials and methods. The results of 110 injured persons with TBI were analyzed. Results. It was found that SHPC occurs in 50% patients with TBI, as in areas of primary brain damage as in remote areas on the other side of the brain during 12 h ad also after 3-4 days. SHPC often is revealed in patients with subdural hematoma. The bigger contusion foci, the higher the probability of their progression and the need of surgical decompression. Conclusions. SHPC is one of most important TBI complications associated with considerable risk of clinical deterioration and serious cause of morbidity and lethality. Treatment tactics depends on severity of volumetric effect on surrounding brain structures and manifestations of compression-dislocation syndrome.

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“…TBI is associated with a complex metabolic disruption that results in energy crisis and energy failure, which is the consequence of multiple mechanisms, including classical ischaemia (Coles et al, 2004), diffusion hypoxia (Menon et al, 2004), mitochondrial dysfunction (Lakshmanan et al, 2010) and increased energy needs (from excitotoxicity, seizure activity and spreading depolarization) (Timofeev et al, 2011). Thus far, the only approaches to examine this metabolic dysregulation have involved the use of cerebrospinal fluid (CSF), brain microdialysis, arteriojugular venous differences, or advanced metabolic imaging with positron emission tomography (PET) or magnetic resonance imaging and spectroscopy (MRIS), none of which are universally available, and are particularly problematic in less severe TBI.…”

Section: Introductionmentioning

confidence: 99%

Human Serum Metabolites Associate With Severity and Patient Outcomes in Traumatic Brain Injury

et al. 2016

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Traumatic brain injury (TBI) is a major cause of death and disability worldwide, especially in children and young adults. TBI is an example of a medical condition where there are still major lacks in diagnostics and outcome prediction. Here we apply comprehensive metabolic profiling of serum samples from TBI patients and controls in two independent cohorts. The discovery study included 144 TBI patients, with the samples taken at the time of hospitalization. The patients were diagnosed as severe (sTBI; n = 22), moderate (moTBI; n = 14) or mild TBI (mTBI; n = 108) according to Glasgow Coma Scale. The control group (n = 28) comprised of acute orthopedic non-brain injuries. The validation study included sTBI (n = 23), moTBI (n = 7), mTBI (n = 37) patients and controls (n = 27). We show that two medium-chain fatty acids (decanoic and octanoic acids) and sugar derivatives including 2,3-bisphosphoglyceric acid are strongly associated with severity of TBI, and most of them are also detected at high concentrations in brain microdialysates of TBI patients. Based on metabolite concentrations from TBI patients at the time of hospitalization, an algorithm was developed that accurately predicted the patient outcomes (AUC = 0.84 in validation cohort). Addition of the metabolites to the established clinical model (CRASH), comprising clinical and computed tomography data, significantly improved prediction of patient outcomes. The identified ‘TBI metabotype’ in serum, that may be indicative of disrupted blood-brain barrier, of protective physiological response and altered metabolism due to head trauma, offers a new avenue for the development of diagnostic and prognostic markers of broad spectrum of TBIs.

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Metabolic Crisis After Traumatic Brain Injury is Associated with a Novel Microdialysis Proteome

Cited by 60 publications

References 22 publications

Dietary fructose aggravates the pathobiology of traumatic brain injury by influencing energy homeostasis and plasticity

Dietary fructose aggravates the pathobiology of traumatic brain injury by influencing energy homeostasis and plasticity

Hemorrhagic Progression of a Contusion after Traumatic Brain Injury: A Review

Human Serum Metabolites Associate With Severity and Patient Outcomes in Traumatic Brain Injury

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