blood biomarkers for brain injury - goeata.org · concussion without radiological correlates most...
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Blood Biomarkers for Brain Injury
Dianne Langford Associate Professor
Department of Neuroscience Lewis Katz School of Medicine at Temple University
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TOPICS COVERED What are we measuring? How do markers get in the blood? Examples of commonly used markers Data from repetitive subconcussive impacts Future of Blood Biomarkers
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Concussion
Without radiological correlates Most common form closed head injury Proposed critical velocity at 25 feet/second
1.7 million TBIs per year in U.S. 1.4 million are classified as mild. (Concussion/Subconcussion)
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Headache Depression Loss of memory Poor concentration Change in personality Cognitive Impairment
Effects of Concussion are cumulative. Consequences of Mild Repetitive Trauma
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Acceleration/Deceleration Rotation /Torque
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Interneuron
Arteriole
Pyramidal neuron
Capillary
Pericyte Astrocyte
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To better understand potential implications for
increased Expression OR Detection,
need to consider the normal function of protein marker
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Why? Increased/expressed in response to damage?
What? Normal Function?
How? Blood brain barrier damage or other?
Where? Origin of the protein: CNS or other?
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Blood Brain Barrier
Kawata et al., 2015
10 nm pores 1st extracellular loop Electrical barrier Controls flow resistance Charge discrimination of small solutes
Detected in blood post TBI and Orthopaedic injuries
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BBB proteins in blood
Shan, R., Szmydynger-Chodobska, J., Warren, O.U., Zink, B.J., Mohammad, F. and Chodobski, A. (2015). A New Panel of Blood Biomarkers for the Diagnosis of Mild Traumatic Brain Injury/Concussion in Adults. J Neurotrauma.
4.5 fold increase in OCCLUDIN post-TBI
NO difference from concussed participants
Increased in Ortho injury
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Glymphatic System
Kawata et al., 2015
Iliff, Nedergaard et al
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Zetterberg, H. et al. (2013) Biomarkers of mild traumatic brain injury in cerebrospinal fluid and blood Nat. Rev. Neurol. doi:10.1038/nrneurol.2013.9
Total Tau Axon Peak 4-10 dpi up in hypoxia (mTBI n/a) 1h
NF light Axon Peak 4-10 dpi N/A
gamma Enolase Neurons in RBC and confounded by lysis of RBC 12h tumors, neuroendocrine cells
MARKER Process/Structure CSF BLOOD peak in TBI
S-100-B Astrocytes less sensitive than Tau Originates from outside brain 1-3h increased after exercise
GFAP Astrocytes < sensitive than Tau & NF correlates with changes in imaging 24h
SPECTRIN Neurons (axonal damage) not detected in mild TBI
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Table 1 Potential fluid biomarkers of mild TBI
Zetterberg, H. et al. (2013) Biomarkers of mild traumatic brain injury in cerebrospinal fluid and blood Nat. Rev. Neurol. doi:10.1038/nrneurol.2013.9
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Why? Increased/expressed in response to damage?
What? Normal Function?
How? Blood brain barrier damage or other?
Where? Origin of the protein: CNS or other?
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S100-β
What is the Normal Function?
Calcium, copper, zinc binding protein to regulate intracellular calcium levels
Protective at low levels, toxic at high Glial activation, neuroinflammation
Rothermundt, M., Peters, M., Prehn, J.H. and Arolt, V. (2003). S100B in brain damage and neurodegeneration. Microsc Res Tech 60, 614-632. Unden, J., Bellner, J., Eneroth, M., Alling, C., Ingebrigtsen, T. and Romner, B. (2005). Raised serum S100B levels after acute bone fractures without cerebral injury. J Trauma 58, 59-61.
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S100-β
Normal concentrations S100B engages RAGE And exerts trophic effects on neurons and decreases microglial activation.
Normal blood levels: 0.05 ng/ml
After Injury blood levels: up to 5 ng/ml
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S100-β
Where? Enriched in brain: astrocytes
pulmonary alveolar cells, cardiomyocytes, chondrocytes, adipocytes
Rothermundt, M., Peters, M., Prehn, J.H. and Arolt, V. (2003). S100B in brain damage and neurodegeneration. Microsc Res Tech 60, 614-632. Unden, J., Bellner, J., Eneroth, M., Alling, C., Ingebrigtsen, T. and Romner, B. (2005). Raised serum S100B levels after acute bone fractures without cerebral injury. J Trauma 58, 59-61.
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S100-β in neuropathology
Most extensively used biomarkers for TBI
Astrocytes and Oligodendrocytes
Originates outside the brain
Peaks in blood 1-3h after TBI
Increases after exercise
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Kawata et al., 2015
• S100-β binds Zn+
• Tau mediated neurite outgrowth
• Increased intracellular Ca+ binds S100-β
• Induces aberrant Tau phosphorylation
NORMAL
Pathological
S100-β
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S-100-B
Why are levels increased?
Traumatic Brain Injury
Fluctuates after musculoskeletal injury
Cardiac arrest
Obesity
Bone fracture
Increases after exercise
Rothermundt, M., Peters, M., Prehn, J.H. and Arolt, V. (2003). S100B in brain damage and neurodegeneration. Microsc Res Tech 60, 614-632. Unden, J., Bellner, J., Eneroth, M., Alling, C., Ingebrigtsen, T. and Romner, B. (2005). Raised serum S100B levels after acute bone fractures without cerebral injury. J Trauma 58, 59-61.
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GFAP
What is the Normal Function?
Intermediate filament protein in astrocytic cytoskeleton
Maintain resistance to mechanical stress to stress
Where?
GFAP α is most abundant type and in Astrocytes
GFAP-β in non-myelinating Schwann cells
GFAP-γ bone marrow and spleen
Yang, Z. and Wang, K.K. (2015). Glial fibrillary acidic protein: from intermediate filament assembly and gliosis to neurobiomarker. Trends Neurosci 38, 364-374.x
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GFAP
Intracellular GFAP can translocate to extracellular space and correlates with severity of injury Release from brain into blood requires loss of astrocytic integrity and increased BBB permeability
Brunkhorst, R., et al (2010). Transl Stroke Res 246-251. Pietro, V.et al (2015).. Neurochem Res 40, 991-999.
When and How is it released?
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GFAP
Diffuse Injury: 0.75 ng/ml Focal Injury: 2.95 ng/ml
Normal blood levels: 0.03-0.07 ng/ml
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*
*
Diffuse brain injury
GFAP
Normal levels of GFAP
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GFAP
Metting, Z., et al (2012). Neurology 78, 1428-1433. Papa, L., et al. (2014). J Neurotrauma 31, 1815-1822. Papa, L., L., et al., (2012). Ann Emerg Med 59, 471-483. Nylen, K. (2006) Neurol Sci 240, 85-91.
No significant differences in serum GFAP in patients with multiple traumas and TBI versus TBI alone. GFAP levels in blood remain normal in patients with multiple traumas with out brain injury. Levels in TBI correlate with CT abnormalities.
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Kawata et al., 2015
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C-Tau caspase 3: higher post concussion than pre season A-Tau ADAM10: correlates with post-concussion symptom duration
Shahim et al., 2014 JAMA 71:684-692.
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Figure 1 Possible biomarkers of traumatic brain injury
Zetterberg, H. et al. (2013) Biomarkers of mild traumatic brain injury in cerebrospinal fluid and blood Nat. Rev. Neurol. doi:10.1038/nrneurol.2013.9
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Epilepsy Alzheimer’s Disease HIV-associated ageing Frontotemporal dementia Chronic traumatic encephalopathy
Tauopathies
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Tauopathy in CTE
McKee et al (J Neuropathol Exp Neurol, V 68, July 2009, Fig. 2)
A-C) Coronal sections through superior frontal cortex
F E D
A B C
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Tauopathy (abnormal hyperphosphorylation)
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Dendrites
Axons
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Dendrites
Tau
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Enrolled Temple University Football Players
Conducted a series of measures before and after summer football practices
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Assessments
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Head impact kinematic measurements using mouth guard and sideline monitoring system
A, triaxial accelerometer senses linear acceleration and triaxial gyroscope senses angular acceleration (i1 Biometrics. Inc., Kirkland, WA, USA). In-mouth sensor deactivates signal transmission when not placed in the mouth. B, sideline antenna receives impact data by radio transmission. Impact kinematics can be monitored real-time with the sideline laptop.
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Example of Head Impact Kinematics
Front/back
Side/Side
Top/Bottom
Peak Linear
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Measures taken before and after practice
Scat3 (Sport Concussion Assessment Tool)
Near Point of Convergence
Blood Draw
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J. Neurotrauma under review
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Amount of Change in blood levels of S100β per hit
J. Neurotrauma under review
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TOPICS COVERED Described some common biomarkers How markers get in the blood Example of data from repetitive subconcussive impacts
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Future of the Blood Biomarkers for Head Injury
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TEMPLE Kinesiology Ryan Tierney Neuroscience Keisuke Kawata Leroy Wesley Jong Lee Tommy Sim Kim Ferrero Athletics Masahiro Takahagi Victor Szwanki Al Bellamy Engineering Kurosh Darvish Suroush Assari Ophthalmology Jeff Henderer