Effects of buoyancy on the dispersion of drugs released intrathecally in the spinal canal
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Publication:6496943
DOI10.1017/JFM.2024.297MaRDI QIDQ6496943
C. Gutiérrez-Montes, J. Alaminos-Quesada, A. L. Sánchez, W. Coenen
Publication date: 6 May 2024
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Cites Work
- Modelling and direct numerical simulation of flow and solute dispersion in the spinal subarachnoid space
- Cerebrospinal Fluid Mechanics and Its Coupling to Cerebrovascular Dynamics
- Steady streaming confined between three-dimensional wavy surfaces
- Shape curvature effects in viscous streaming
- Diffusion in oscillatory pipe flow
- On the dispersion of a drug delivered intrathecally in the spinal canal
- Buoyancy-modulated Lagrangian drift in wavy-walled vertical channels as a model problem to understand drug dispersion in the spinal canal
- A one-dimensional model for the pulsating flow of cerebrospinal fluid in the spinal canal
- Soft streaming – flow rectification via elastic boundaries
- On the bulk motion of the cerebrospinal fluid in the spinal canal
- Oscillating viscous flow past a streamwise linear array of circular cylinders
- Pre-asymptotic dispersion of active particles through a vertical pipe: the origin of hydrodynamic focusing
- Stationary flow driven by non-sinusoidal time-periodic pressure gradients in wavy-walled channels
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