In-vitro experiments characterizing the cerebrospinal fluid flow in the central nervous system

Obed A Campos; Francisco Moral-Pulido; Stephanie Sincomb; Carlos Martinez-Bazan; Antonio L Sanchez

In-vitro experiments characterizing the cerebrospinal fluid flow in the central nervous system

ORAL

Abstract

The characterization of cerebrospinal fluid (CSF) pulsatile-flow dynamics in the central nervous system (CNS) is fundamental for the study of CSF-related disorders. Recently developed theoretical descriptions for the CSF flow in the spinal canal and in the cerebral aqueduct can be used in combination with MRI flow-rate measurements to determine intracranial pressure temporal fluctuations and interventricular pressure differences. These descriptions have been validated via in-vitro experiments involving anatomically correct models. For the spinal canal, an elastic silicone model with relevant material properties reflective of the spinal-canal wave dynamics have been developed. Preliminary results indicate good agreement with the models.

Nov. 21, 2022, 2:04 PM – Nov. 21, 2022, 2:17 PM

Publication: Sincomb, Stephanie, et al (2022). "A one-dimensional model for the pulsating flow of cerebrospinal fluid in the spinal canal" <br><br>Sincomb, Stephanie & Coenen, Wilfried & Gutiérrez-Montes, Cándido & Martínez-Bazán, C. & Haughton, Victor & Sánchez, A.L.. (2022). A one-dimensional model for the pulsating flow of cerebrospinal fluid in the spinal canal. Journal of Fluid Mechanics. 939. 10.1017/jfm.2022.215.

Presenters

Obed A Campos

University of California, San Diego

Authors

Obed A Campos

University of California, San Diego
Francisco Moral-Pulido

University of Jaen
Stephanie Sincomb

University of California, San Diego
Carlos Martinez-Bazan

University of Granada, Universidad de Granada
Antonio L Sanchez

UCSD, University of California, San Diego