Biomechanical Analysis of Blast-induced Traumatic Brain Injury Using Multiscale Brain Modeling - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Biomechanical Analysis of Blast-induced Traumatic Brain Injury Using Multiscale Brain Modeling write by Mahdi Sotudeh Chafi. This book was released on 2009. Biomechanical Analysis of Blast-induced Traumatic Brain Injury Using Multiscale Brain Modeling available in PDF, EPUB and Kindle.
Biomechanical Analysis of Traumatic Brain Injury by MRI-based Finite Element Modeling
Biomechanical Analysis of Traumatic Brain Injury by MRI-based Finite Element Modeling - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Biomechanical Analysis of Traumatic Brain Injury by MRI-based Finite Element Modeling write by . This book was released on 2012. Biomechanical Analysis of Traumatic Brain Injury by MRI-based Finite Element Modeling available in PDF, EPUB and Kindle.
BLAST-INDUCED CEREBROVASCULAR AND BRAIN INJURY
BLAST-INDUCED CEREBROVASCULAR AND BRAIN INJURY - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook BLAST-INDUCED CEREBROVASCULAR AND BRAIN INJURY write by Soroush Assari. This book was released on 2017. BLAST-INDUCED CEREBROVASCULAR AND BRAIN INJURY available in PDF, EPUB and Kindle. The focus of this dissertation was the biomechanics of blast-induced traumatic brain injury (bTBI). This study had three specific aims. One of the specific aims was to investigate the thoracic mechanism of bTBI by characterizing the cerebral blood pressure change during local blast exposure to head or chest in a rat model. This model utilized a shock tube to simulate the blast wave. The results showed that there is a blood pressure rise with high amplitude and short duration during both Head-Only and Chest-Only exposure conditions. It was shown that cerebral blood pressure rise was significantly higher in Chest-Only exposure, and resulted in astrocyte reactivation, and infiltration of blood-borne macrophages into the brain. It was concluded that due to chest exposure to a blast wave, high amplitude pressure waves that transfer from thoracic large vessels to cerebrovasculature can lead to blood-brain barrier disruption or perivascular injury and consequently trigger secondary neuronal damage. The second and third aims were related to the viscoelasticity and heterogeneity of brain tissue respectively for blast rate loading conditions. For the second specific aim, a novel test method was developed to apply shear deformation to samples of brain tissue with strain rates in the range of 300 to 1000 s-1. The results of shear tests on cylindrical samples of bovine brain showed that the instantaneous shear modulus (about 6 kPa) increased about 3 times compared to the values reported in the literature. For the third specific aim, local viscoelastic behavior of rat brain was characterized using a micro-indentation setup with the spatial resolution of 350 mm. The results of micro-indentation tests showed that the heterogeneity of brain tissue was more pronounced in long-term shear moduli. Moreover, the inner anatomical regions were generally more compliant than the outer regions and the gray matter generally exhibited a stiffer response than the white matter. The results of this study can enhance the prediction of brain injury in finite element models of TBI in general and models of bTBI in particular. These results contribute to development of more biofidelic models that can determine the extent and severity of injury in blast loadings. Such predictions are essential for designing better injury mitigation devices for soldiers and also for improving neurosurgical procedures among other applications.
Brain Tissue Biomechanics and Pathobiology of Blast-Induced Traumatic Brain Injury
Brain Tissue Biomechanics and Pathobiology of Blast-Induced Traumatic Brain Injury - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Brain Tissue Biomechanics and Pathobiology of Blast-Induced Traumatic Brain Injury write by Sowmya N. Sundaresh. This book was released on 2022. Brain Tissue Biomechanics and Pathobiology of Blast-Induced Traumatic Brain Injury available in PDF, EPUB and Kindle. Together, this illustrated the ability of these two enzymes to regulate the response to exposure of bTBI-induced pathogenic forms of tau. This study indicates the potential of targeting PP2A activity as a viable strategy for therapeutic intervention. In conclusion, this research expands our understanding of the complexity of brain tissue injury mechanics to inform computational models of TBI, illustrates the deleterious effect of pathogenic forms of tau induced by blast injury on cognitive function, and presents a potential target mechanism for the investigation of therapeutic strategies.
Multiscale Biomechanical Modeling of the Brain
Multiscale Biomechanical Modeling of the Brain - read free eBook in online reader or directly download on the web page. Select files or add your book in reader. Download and read online ebook Multiscale Biomechanical Modeling of the Brain write by Mark F. Horstemeyer. This book was released on 2021-10-27. Multiscale Biomechanical Modeling of the Brain available in PDF, EPUB and Kindle. Multiscale Biomechanical Modeling of the Brain discusses the constitutive modeling of the brain at various length scales (nanoscale, microscale, mesoscale, macroscale and structural scale). In each scale, the book describes the state-of-the- experimental and computational tools used to quantify critical deformational information at each length scale. Then, at the structural scale, several user-based constitutive material models are presented, along with real-world boundary value problems. Lastly, design and optimization concepts are presented for use in occupant-centric design frameworks. This book is useful for both academia and industry applications that cover basic science aspects or applied research in head and brain protection.The multiscale approach to this topic is unique, and not found in other books. It includes meticulously selected materials that aim to connect the mechanistic analysis of the brain tissue at size scales ranging from subcellular to organ levels. Presents concepts in a theoretical and thermodynamic framework for each length scale Teaches readers not only how to use an existing multiscale model for each brain but also how to develop a new multiscale model Takes an integrated experimental-computational approach and gives structured multiscale coverage of the problems
