Jonathan P Whiteley

Overview

Explore the profile of Jonathan P Whiteley including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 34

Citations 264

Followers 0

Related Specialties

Biology

Biomedical Engineering

Public Health

Top 10 Co-Authors

David J Gavaghan

Pras Pathmanathan

Sarah L Waters

Eamonn A Gaffney

Helen M Byrne

Blanca Rodriguez

Miguel O Bernabeu

Cameron P Brown

Jonathan Cooper

Alan Garny

Published In

Math Med Biol

Math Biosci

Ann Biomed Eng

IEEE Trans Biomed Eng

Bull Math Biol

Affiliations

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Recent Articles

11.

Potential for noninvasive assessment of lung inhomogeneity using highly precise, highly time-resolved measurements of gas exchange

Mountain J, Santer P, ONeill D, Smith N, Ciaffoni L, Couper J, et al.

J Appl Physiol (1985) . 2017 Oct; 124(3):615-631. PMID: 29074714

Inhomogeneity in the lung impairs gas exchange and can be an early marker of lung disease. We hypothesized that highly precise measurements of gas exchange contain sufficient information to quantify...

12.

Mathematical modelling of cell layer growth in a hollow fibre bioreactor

Chapman L, Whiteley J, Byrne H, Waters S, Shipley R

J Theor Biol . 2017 Jan; 418:36-56. PMID: 28089874

Generating autologous tissue grafts of a clinically useful volume requires efficient and controlled expansion of cell populations harvested from patients. Hollow fibre bioreactors show promise as cell expansion devices, owing...

13.

Optimising cell aggregate expansion in a perfused hollow fibre bioreactor via mathematical modelling

Chapman L, Shipley R, Whiteley J, Ellis M, Byrne H, Waters S

PLoS One . 2014 Aug; 9(8):e105813. PMID: 25157635

The need for efficient and controlled expansion of cell populations is paramount in tissue engineering. Hollow fibre bioreactors (HFBs) have the potential to meet this need, but only with improved...

14.

Evaluation of the growth environment of a hydrostatic force bioreactor for preconditioning of tissue-engineered constructs

Reinwald Y, Leonard K, Henstock J, Whiteley J, Osborne J, Waters S, et al.

Tissue Eng Part C Methods . 2014 Jun; 21(1):1-14. PMID: 24967717

Bioreactors have been widely acknowledged as valuable tools to provide a growth environment for engineering tissues and to investigate the effect of physical forces on cells and cell-scaffold constructs. However,...

15.

Automatic simplification of systems of reaction-diffusion equations by a posteriori analysis

Maybank P, Whiteley J

Math Biosci . 2014 Jan; 248:146-57. PMID: 24418010

Many mathematical models in biology and physiology are represented by systems of nonlinear differential equations. In recent years these models have become increasingly complex in order to explain the enormous...

16.

Modelling the effect of gap junctions on tissue-level cardiac electrophysiology

Bruce D, Pathmanathan P, Whiteley J

Bull Math Biol . 2013 Dec; 76(2):431-54. PMID: 24338526

When modelling tissue-level cardiac electrophysiology, a continuum approximation to the discrete cell-level equations, known as the bidomain equations, is often used to maintain computational tractability. Analysing the derivation of the...

17.

A numerical guide to the solution of the bi-domain equations of cardiac electrophysiology

Pathmanathan P, Bernabeu M, Bordas R, Cooper J, Garny A, Pitt-Francis J, et al.

Prog Biophys Mol Biol . 2010 Jun; 102(2-3):136-55. PMID: 20553747

Simulation of cardiac electrical activity using the bi-domain equations can be a massively computationally demanding problem. This study provides a comprehensive guide to numerical bi-domain modelling. Each component of bi-domain...

18.

Modeling alveolar volume changes during periodic breathing in heterogeneously ventilated lungs

Dunn S, Whiteley J

Ann Biomed Eng . 2010 Apr; 38(9):2988-99. PMID: 20387118

A simplified model of periodic breathing, proposed by Whiteley et al. (Math. Med. Biol. 20:205-224, 2003), describes a non-uniform breathing pattern for a lung with an inhomogeneous gas distribution, such...

19.

Model reduction using a posteriori analysis

Whiteley J

Math Biosci . 2010 Feb; 225(1):44-52. PMID: 20117117

Mathematical models in biology and physiology are often represented by large systems of non-linear ordinary differential equations. In many cases, an observed behaviour may be written as a linear functional...

20.

Solving the coupled system improves computational efficiency of the bidomain equations

Southern J, Plank G, Vigmond E, Whiteley J

IEEE Trans Biomed Eng . 2009 May; 56(10):2404-12. PMID: 19457741

The bidomain equations are frequently used to model the propagation of cardiac action potentials across cardiac tissue. At the whole organ level, the size of the computational mesh required makes...