αII-Spectrin Breakdown Products (SBDPs): Diagnosis and Outcome in Severe Traumatic Brain Injury Patients

Mondello, Stefania; Robicsek, Steven A.; Gabrielli, A.; Brophy, Gretchen M.; Papa, Linda; Tepas, Joseph J.; Robertson, Claudia S.; Büki, András; Scharf, Dancia; Mo, Jixiang; Akinyi, Linnet; Müller, Uwe; Wang, Kevin; Hayes, Ronald L.

doi:10.1089/neu.2010.1278

Cited by 187 publications

(147 citation statements)

References 81 publications

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“…Among these, recent studies have suggested that aII-spectrin breakdown products SBDP150 and 145, produced by calpain cleavage, have been linked to acute neuronal necrosis, while SBDP120, produced by caspase 3, has been linked to apoptotic cell death cascades. 41,122,[125][126][127][128][129][130][131] While these aII-spectrin breakdown products have been discussed within the context of neuronal damage, it is important to note that they have been associated with both TAI/DAI and its downstream target deafferentation and synaptic loss. 38,51,[132][133][134] In addition to spectrin breakdown products, other potential markers of axonal injury include various phosphoforms of the neurofilament-H subunit as well as cleaved tau suggesting damage to the axon cytoskeleton.…”

Section: Biomarkersmentioning

confidence: 99%

Therapy Development for Diffuse Axonal Injury

Smith

Hicks

Povlishock

2013

Journal of Neurotrauma

169

146

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Diffuse axonal injury (DAI) remains a prominent feature of human traumatic brain injury (TBI) and a major player in its subsequent morbidity. The importance of this widespread axonal damage has been confirmed by multiple approaches including routine postmortem neuropathology as well as advanced imaging, which is now capable of detecting the signatures of traumatically induced axonal injury across a spectrum of traumatically brain-injured persons. Despite the increased interest in DAI and its overall implications for brain-injured patients, many questions remain about this component of TBI and its potential therapeutic targeting. To address these deficiencies and to identify future directions needed to fill critical gaps in our understanding of this component of TBI, the National Institute of Neurological Disorders and Stroke hosted a workshop in May 2011. This workshop sought to determine what is known regarding the pathogenesis of DAI in animal models of injury as well as in the human clinical setting. The workshop also addressed new tools to aid in the identification of this axonal injury while also identifying more rational therapeutic targets linked to DAI for continued preclinical investigation and, ultimately, clinical translation. This report encapsulates the oral and written components of this workshop addressing key features regarding the pathobiology of DAI, the biomechanics implicated in its initiating pathology, and those experimental animal modeling considerations that bear relevance to the biomechanical features of human TBI. Parallel considerations of alternate forms of DAI detection including, but not limited to, advanced neuroimaging, electrophysiological, biomarker, and neurobehavioral evaluations are included, together with recommendations for how these technologies can be better used and integrated for a more comprehensive appreciation of the pathobiology of DAI and its overall structural and functional implications. Lastly, the document closes with a thorough review of the targets linked to the pathogenesis of DAI, while also presenting a detailed report of those target-based therapies that have been used, to date, with a consideration of their overall implications for future preclinical discovery and subsequent translation to the clinic. Although all participants realize that various research gaps remained in our understanding and treatment of this complex component of TBI, this workshop refines these issues providing, for the first time, a comprehensive appreciation of what has been done and what critical needs remain unfulfilled.

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Section: Biomarkersmentioning

confidence: 99%

Therapy Development for Diffuse Axonal Injury

Smith

Hicks

Povlishock

2013

Journal of Neurotrauma

169

146

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“…Numerous approaches have been used in the prognosis of TBI patients such as imaging examinations with computerized tomography (CT) and magnetic resonance imaging (MRI), neurological scales including Glasgow coma scale and Barthal index, as well as the monitoring of intracerebral pressure/cerebral perfusion pressure as indirect strategies (24); however, the prognostic efficacy of these tools for the prediction of TBI patient outcome is still relatively poor (18). In addition to these prognostic tools, numerous biochemical markers have been used to predict the prognosis of patients with cerebral injury, including alpha-II spectrin (14,17), tissue type plasminogen activator (1), Bcl-2 and cytochrome C (32), as well as S100B in the serum (23) and CSF…”

Section: Discussionmentioning

confidence: 99%

Matrix metalloproteinase-9 in the ventricular cerebrospinal ﬂuid correlated with the prognosis of traumatic brain injury

Liu¹,

Chen²,

Lee³

et al. 2013

Turkish Neurosurgery

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AIm: Matrix metalloproteinase 9 (MMP-9) has been shown to be a potential biomarker for outcome prediction after neuron damage. This study investigated whether MMP-9 could be used for outcome prediction after traumatic brain injury (TBI). mATERIAL and mETHods: For the TBI group, cerebrospinal fluid (CSF) was collected at different days after surgery from 6 head injury patients who had received surgical intervention with external ventricular drainage insertion. CSF collected from non-TBI patients (N=85) diagnosed with isolated hydrocephalus by a ventricular puncture during a ventriculo-peritoneal shunt surgery was used as control. REsuLTs:The mean concentration of MMP-9 in the CSF of 85 non-TBI patients was determined to be 1.172±0.859 ng/mL. We found that the CSF MMP-9 concentration from TBI patients was elevated immediately after head injury with a median of 1.926 ng/mL (range, 0.673 to 24.990). Despite an early increase in the concentration of MMP-9, levels decreased within 72 hrs and nearly reached the normal range. Nevertheless, the concentration of MMP-9 was negatively correlated with the Glasgow Coma Scale (γ = -0.337, p = 0.013).CoNCLusIoN: MMP-9 concentration in the CSF of TBI patients correlated with neurological outcome and may represent an early indicator for the prognosis of this condition. KEywoRds:Cerebrospinal fluid, Biomarker, Matrix metalloproteinase-9, Traumatic brain injury, Glasgow Coma Scale ÖZ AmAÇ: Matriks metalloproteinaz 9'un (MMP-9) nöron hasarından sonra sonuçların tahmin edilmesinde olası bir biyobelirteç olduğu gösterilmiştir. Bu çalışma, MMP-9'un travmatik beyin hasarından sonra sonucu öngörmek için kullanılıp, kullanılamayacağını incelemiştir. yÖNTEm ve GEREÇLER: Travmatik beyin hasarı grubunda eksternal ventriküler drenaj yerleştirilmesiyle cerrahi girişim yapılmış 6 kafa travması hastasında cerrahi sonrasında farklı günlerde beyin omurilik sıvısı (BOS) toplanmıştır. Kontrol olarak bir ventriküloperitoneal şant cerrahisi sırasında ventriküler ponksiyon ile izole hidrosefali tanısı konmuş, travmatik beyin hasarı olmayan hastalardan BOS toplanmıştır (N=85).BuLGuLAR: Travmatik beyin hasarı olmayan 85 hastanın BOS'unda ortalama MMP-9 konsantrasyonunun 1,172±0,859 ng/mL olduğu bulunmuştur. Travmatik beyin hasarı hastalarında BOS MMP-9 konsantrasyonunun kafa travmasından hemen sonra medyan 1,926 ng/mL (aralık, 0,673 -24,990) değeriyle yükseldiğini bulduk. MMP-9 konsantrasyonunda erken bir artışa rağmen seviyeler 72 saat içinde azaldı ve hemen hemen normal aralığa döndü. Yine de MMP-9 konsantrasyonu Glasgow Koma Skalası ile negatif korelasyon gösterdi (γ = -0,337, p = 0,013).soNuÇ: MMP-9 konsantrasyonu travmatik beyin hasarlı hastaların BOS'unda nörolojik sonuçla korelasyon gösterdi ve böylece prognoz için erken bir gösterge olabileceği düşünüldü.ANAHTAR sÖZCÜKLER: Beyin omurilik sıvısı, Biyobelirteç, Matriks metalloproteinaz-9, Travmatik beyin hasarı, Glasgow Koma Skalası

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“…The protein is processed to breakdown products (SBDPs) of molecular weights 150 kDa (SBDP150) and 145 kDa (SBDP145) by calpain and is also cleaved to a 120-kDa product (SBDP120) by caspase-3. Calpain and caspase-3 are major executioners of necrotic and apoptotic cell death, respectively, during ischemia or TBI (Ringger et al 2004, Pineda et al 2007, Mondello et al 2010). Thus, a unique feature of this technique is the ability to concurrently detect calpain and caspase-3 proteolysis of aIIspectrin, providing crucial information on the underlying cell death mechanisms.…”

Section: Spectrin Breakdown Products (Sbdps)mentioning

confidence: 99%

“…Thus, a unique feature of this technique is the ability to concurrently detect calpain and caspase-3 proteolysis of aIIspectrin, providing crucial information on the underlying cell death mechanisms. In addition, distinct temporal release patterns of CSF SBDP145 and SBDP120 were reported to reflect different temporal characteristics of protease activation (Mondello et al 2010 (Pineda et al 2007). Increased CSF SBDP levels were found to be significantly associated with mortality in patients with severe TBI.…”

Section: Spectrin Breakdown Products (Sbdps)mentioning

confidence: 99%

Novel Strategies for Discovery, Validation and FDA Approval of Biomarkers for Acute and Chronic Brain Injury

Mondello¹,

Kobeissy²,

Jeromin³

et al. 2012

Brain Injury - Pathogenesis, Monitoring, Recovery and Management

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αII-Spectrin Breakdown Products (SBDPs): Diagnosis and Outcome in Severe Traumatic Brain Injury Patients

Cited by 187 publications

References 81 publications

Therapy Development for Diffuse Axonal Injury

Therapy Development for Diffuse Axonal Injury

Matrix metalloproteinase-9 in the ventricular cerebrospinal ﬂuid correlated with the prognosis of traumatic brain injury

Novel Strategies for Discovery, Validation and FDA Approval of Biomarkers for Acute and Chronic Brain Injury

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αII-Spectrin Breakdown Products (SBDPs): Diagnosis and Outcome in Severe Traumatic Brain Injury Patients

Cited by 187 publications

References 81 publications

Therapy Development for Diffuse Axonal Injury

Therapy Development for Diffuse Axonal Injury

Matrix metalloproteinase-9 in the ventricular cerebrospinal &#64258;uid correlated with the prognosis of traumatic brain injury

Novel Strategies for Discovery, Validation and FDA Approval of Biomarkers for Acute and Chronic Brain Injury

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Matrix metalloproteinase-9 in the ventricular cerebrospinal ﬂuid correlated with the prognosis of traumatic brain injury