Journal ArticleDOI
Cerebrospinal Fluid Flow Dynamics in the Central Nervous System
TLDR
The mathematical model presented in this article is a prerequisite for developing a mechanistic understanding of the relationships among vasculature pulsations, CSF flow, and CSF pressure waves in the CNS.Abstract:
Cine-phase-contrast-MRI was used to measure the three-dimensional cerebrospinal fluid (CSF) flow field inside the central nervous system (CNS) of a healthy subject. Image reconstruction and grid generation tools were then used to develop a three-dimensional fluid–structure interaction model of the CSF flow inside the CNS. The CSF spaces were discretized using the finite-element method and the constitutive equations for fluid and solid motion solved in ADINA-FSI 8.6. Model predictions of CSF velocity magnitude and stroke volume were found to be in excellent agreement with the experimental data. CSF pressure gradients and amplitudes were computed in all regions of the CNS. The computed pressure gradients and amplitudes closely match values obtained clinically. The highest pressure amplitude of 77 Pa was predicted to occur in the lateral ventricles. The pressure gradient between the lateral ventricles and the lumbar region of the spinal canal did not exceed 132 Pa (~1 mmHg) at any time during the cardiac cycle. The pressure wave speed in the spinal canal was predicted and found to agree closely with values previously reported in the literature. Finally, the forward and backward motion of the CSF in the ventricles was visualized, revealing the complex mixing patterns in the CSF spaces. The mathematical model presented in this article is a prerequisite for developing a mechanistic understanding of the relationships among vasculature pulsations, CSF flow, and CSF pressure waves in the CNS.read more
Citations
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Journal ArticleDOI
The role of brain barriers in fluid movement in the CNS: is there a ‘glymphatic’ system?
TL;DR: It is proposed that new work and key historical studies both support the concept of a perivascular fluid system, whereby CSF enters the brain via PVS convective flow or dispersion along larger caliber arteries/arterioles, and diffusion predominantly regulates CSF/ISF exchange at the level of the neurovascular unit associated with CNS microvessels.
Journal ArticleDOI
Structure and function of the ependymal barrier and diseases associated with ependyma disruption
Antonio J. Jiménez,María-Dolores Domínguez-Pinos,Maria Montserrat Guerra,Pedro Fernández-Llebrez,J. M. Pérez-Fígares +4 more
TL;DR: The neuroepithelium is a germinal epithelium containing progenitor cells that produce almost all of the central nervous system cells, including the ependyma; therefore, they separate the cerebrospinal fluid that fills cavities from the developing or mature brain parenchyma.
Journal ArticleDOI
Cerebrospinal Fluid Mechanics and Its Coupling to Cerebrovascular Dynamics
TL;DR: An overview of the current knowledge of pulsatile CSF motion is provided and open questions regarding CSF dynamics as they relate to the understanding and management of diseases are addressed.
Journal ArticleDOI
Physiology of the Intrathecal Bolus: The Leptomeningeal Route for Macromolecule and Particle Delivery to CNS
TL;DR: The available data suggest that the layer of pia mater lining the CNS surface is not continuous, and the continuity of the leptomeningeal space (LMS) with the perivascular spaces penetrating into the parenchyma provides an unexplored avenue for drug transport deep into the brain via CSF.
Journal ArticleDOI
CNS wide simulation of flow resistance and drug transport due to spinal microanatomy
TL;DR: CNS-wide simulations of intrathecal drugs administration can become a practical tool for in silico design, interspecies scaling and optimization of experimental drug trials, and the feasibility of computational drug transport studies was demonstrated.
References
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Book
Finite Element Procedures
TL;DR: The Finite Element Method as mentioned in this paper is a method for linear analysis in solid and structural mechanics, and it has been used in many applications, such as heat transfer, field problems, and Incompressible Fluid Flows.
Book
Biomechanics: Mechanical Properties of Living Tissues
Yuan-Cheng Fung,Richard Skalak +1 more
TL;DR: This chapter discusses the mechanics of Erythrocytes, Leukocytes, and Other Cells, and their role in Bone and Cartilage, and the properties of Bioviscoelastic Fluids, which are a by-product of these cells.
Book
Nonlinear Finite Elements for Continua and Structures
TL;DR: In this paper, the authors present a list of boxes for Lagrangian and Eulerian Finite Elements in One Dimension (LDF) in one dimension, including Beams and Shells.
Journal ArticleDOI
Biomechanics: Mechanical Properties of Living Tissues
Yuan-Cheng Fung,Richard Skalak +1 more
TL;DR: In this article, the authors present a sketch of the history and scope of the field of bio-physiology and discuss the meaning of the Constitutive Equation and the flow properties of blood.
Journal ArticleDOI
Small-scale systems for in vivo drug delivery.
TL;DR: Micro- and nanotechnologies are enabling the design of novel methods such as radio-frequency addressing of individual molecules or the suppression of immune response to a release device, but current challenges include the need to balance the small scale of the devices with the quantities of drugs that are clinically necessary.