ProfessorsProfessors of University of RochesterJohn H. Thomas

John H. Thomas

University of Rochester

H-index: 48

North America-United States

About John H. Thomas

John H. Thomas, With an exceptional h-index of 48 and a recent h-index of 17 (since 2020), a distinguished researcher at University of Rochester, specializes in the field of Solar physics, astrophysical fluid dynamics, magnetohydrodynamics, geophysical fluid dynamics, cerebrospinal fluid dynamics.

His recent articles reflect a diverse array of research interests and contributions to the field:

Hydraulic resistance of three-dimensional pial perivascular spaces in the brain

Perivascular pumping of cerebrospinal fluid in the brain with a valve mechanism

Artificial intelligence velocimetry reveals in vivo flow rates, pressure gradients, and shear stresses in murine perivascular flows

Cerebrospinal fluid flow

A network model of glymphatic flow under different experimentally-motivated parametric scenarios

Theoretical analysis of wake/sleep changes in brain solute transport suggests a flow of interstitial fluid

Cerebrospinal fluid is a significant fluid source for anoxic cerebral oedema

The glymphatic system: Current understanding and modeling

John H. Thomas Information

University	University of Rochester
Position	Professor Emeritus of Mechanical and Aerospace Sciences and of Astronomy
Citations(all)	6502
Citations(since 2020)	2172
Cited By	4741
hIndex(all)	48
hIndex(since 2020)	17
i10Index(all)	83
i10Index(since 2020)	24
Email	Access Email
University Profile Page	University of Rochester
Google Scholar	View Google Scholar Profile

John H. Thomas Skills & Research Interests

Solar physics

astrophysical fluid dynamics

magnetohydrodynamics

geophysical fluid dynamics

cerebrospinal fluid dynamics

Top articles of John H. Thomas

Title	Journal	Author(s)	Publication Date
Hydraulic resistance of three-dimensional pial perivascular spaces in the brain	Fluids and Barriers of the CNS	Kimberly AS Boster Jiatong Sun Jessica K Shang Douglas H Kelley John H Thomas	2024/1/11
Perivascular pumping of cerebrospinal fluid in the brain with a valve mechanism	Journal of the Royal Society Interface	Yiming Gan Stephanie Holstein-Rønsbo Maiken Nedergaard Kimberly AS Boster John H Thomas ...	2023/9/20
Artificial intelligence velocimetry reveals in vivo flow rates, pressure gradients, and shear stresses in murine perivascular flows	Proceedings of the National Academy of Sciences	Kimberly AS Boster Shengze Cai Antonio Ladrón-de-Guevara Jiatong Sun Xiaoning Zheng ...	2023/4/4
Cerebrospinal fluid flow		Douglas H Kelley John H Thomas	2023/1/19
A network model of glymphatic flow under different experimentally-motivated parametric scenarios	IScience	Jeffrey Tithof Kimberly AS Boster Peter AR Bork Maiken Nedergaard John H Thomas ...	2022/5/20
Theoretical analysis of wake/sleep changes in brain solute transport suggests a flow of interstitial fluid	Fluids and Barriers of the CNS	John H Thomas	2022/4/13
Cerebrospinal fluid is a significant fluid source for anoxic cerebral oedema	Brain	Ting Du Humberto Mestre Benjamin T Kress Guojun Liu Amanda M Sweeney ...	2022/2/1
The glymphatic system: Current understanding and modeling		Tomas Bohr Poul G Hjorth Sebastian C Holst Sabina Hrabětová Vesa Kiviniemi ...	2022/9/16
A hydraulic resistance model for interstitial fluid flow in the brain	Journal of the Royal Society Interface	Helena E Schreder Jia Liu Douglas H Kelley John H Thomas Kimberly AS Boster	2022/1/26
Sensitivity analysis on a network model of glymphatic flow	Journal of the Royal Society Interface	Kimberly AS Boster Jeffrey Tithof Douglas D Cook John H Thomas Douglas H Kelley	2022/6/1
Sensitivity Analysis of a Hydraulic Network Model of Glymphatic Flow	APS Division of Fluid Dynamics Meeting Abstracts	Kimberly Boster Jeffrey Tithof Douglas Cook John Thomas Douglas Kelley	2021
Peristaltic pumping in thin non-axisymmetric annular tubes	Journal of fluid mechanics	J Brennen Carr John H Thomas Jia Liu Jessica K Shang	2021/6
Nigel Oscar Weiss	Physics Today	Michael Proctor John H Thomas	2021/1/1
Bulk flow of cerebrospinal fluid observed in periarterial spaces is not an artifact of injection	Elife	Aditya Raghunandan Antonio Ladron-de-Guevara Jeffrey Tithof Humberto Mestre Ting Du ...	2021/3/9
Dispersion as a waste-clearance mechanism in flow through penetrating perivascular spaces in the brain	Scientific reports	Daniel E Troyetsky Jeffrey Tithof John H Thomas Douglas H Kelley	2021/2/25
Author Correction: Dispersion as a waste-clearance mechanism in flow through penetrating perivascular spaces in the brain	Scientific reports	Daniel E Troyetsky Jeffrey Tithof John H Thomas Douglas H Kelley	2021
An idealized hydraulic network model for predicting cerebrospinal fluid transport throughout perivascular spaces in the brain	APS Division of Fluid Dynamics Meeting Abstracts	Jeffrey Tithof Peter Bork Maiken Nedergaard John Thomas Douglas Kelley	2020
Does injection in the cisterna magna drive fluid flow into the brain?	APS Division of Fluid Dynamics Meeting Abstracts	Aditya Raghunandan Antonio Ladron de Guevara Ruiz Jefferey Tithof John Thomas Maiken Nedergaard ...	2020
Cerebrospinal fluid influx drives acute ischemic tissue swelling	Science	Humberto Mestre Ting Du Amanda M Sweeney Guojun Liu Andrew J Samson ...	2020/3/13
Dispersion as a waste clearance mechanism in pressure-driven flow through open penetrating perivascular spaces	APS Division of Fluid Dynamics Meeting Abstracts	Daniel E Troyetsky Jeffrey Tithof John H Thomas Douglas H Kelley	2020