|A complete mock circulation loop for the evaluation of left, right, and biventricular assist devices|
D Timms, M Hayne, K McNeil, A Galbraith
Artificial organs 29 (7), 564-572, 2005
|A review of clinical ventricular assist devices|
Medical engineering & physics 33 (9), 1041-1047, 2011
|A compact mock circulation loop for the in vitro testing of cardiovascular devices|
DL Timms, SD Gregory, NA Greatrex, MJ Pearcy, JF Fraser, U Steinseifer
Artificial organs 35 (4), 384-391, 2011
|Developments in control systems for rotary left ventricular assist devices for heart failure patients: a review|
AHH AlOmari, AV Savkin, M Stevens, DG Mason, DL Timms, ...
Physiological measurement 34 (1), R1, 2012
|Axial magnetic bearing development for the BiVACOR rotary BiVAD/TAH|
NA Greatrex, DL Timms, N Kurita, EW Palmer, T Masuzawa
IEEE Transactions on Biomedical Engineering 57 (3), 714-721, 2009
|Flow analysis of ventricular assist device inflow and outflow cannula positioning using a naturally shaped ventricle and aortic branch|
M Laumen, T Kaufmann, D Timms, P Schlanstein, S Jansen, S Gregory, ...
Artificial organs 34 (10), 798-806, 2010
|The BiVACOR rotary biventricular assist device: concept and in vitro investigation|
D Timms, J Fraser, M Hayne, J Dunning, K McNeil, M Pearcy
Artificial organs 32 (10), 816-819, 2008
|Replication of the Frank-Starling response in a mock circulation loop|
SD Gregory, M Stevens, D Timms, M Pearcy
2011 Annual International Conference of the IEEE Engineering in Medicine and …, 2011
|Theoretical foundations of a Starling‐like controller for rotary blood pumps|
RF Salamonsen, E Lim, N Gaddum, AHH AlOmari, SD Gregory, ...
Artificial organs 36 (9), 787-796, 2012
|Biventricular assist devices: a technical review|
SD Gregory, D Timms, N Gaddum, DG Mason, JF Fraser
Annals of biomedical engineering 39 (9), 2313, 2011
|Total artificial hearts: past, present, and future|
WE Cohn, DL Timms, OH Frazier
Nature Reviews Cardiology 12 (10), 609, 2015
|Flow distribution during cardiopulmonary bypass in dependency on the outflow cannula positioning|
TAS Kaufmann, M Hormes, M Laumen, DL Timms, T Schmitz‐Rode, ...
Artificial organs 33 (11), 988-992, 2009
|Starling‐like flow control of a left ventricular assist device: in vitro validation|
NR Gaddum, M Stevens, E Lim, J Fraser, N Lovell, D Mason, D Timms, ...
Artificial organs 38 (3), E46-E56, 2014
|Exercise studies in patients with rotary blood pumps: Cause, effects, and implications for starling‐like control of changes in pump flow|
RF Salamonsen, V Pellegrino, JF Fraser, K Hayes, D Timms, NH Lovell, ...
Artificial organs 37 (8), 695-703, 2013
|The impact of aortic/subclavian outflow cannulation for cardiopulmonary bypass and cardiac support: a computational fluid dynamics study|
TAS Kaufmann, M Hormes, M Laumen, DL Timms, T Linde, ...
Artificial organs 33 (9), 727-732, 2009
|Evaluation of left ventricular assist device performance and hydraulic force in a complete mock circulation loop|
D Timms, M Hayne, A Tan, M Pearcy
Artificial organs 29 (7), 573-580, 2005
|Simulation and enhancement of a cardiovascular device test rig|
SD Gregory, N Greatrex, D Timms, N Gaddum, MJ Pearcy, JF Fraser
Journal of Simulation 4 (1), 34-41, 2010
|A hybrid mock circulation loop for a total artificial heart|
F Nestler, AP Bradley, SJ Wilson, DL Timms, OH Frazier, WE Cohn
Artificial organs 38 (9), 775-782, 2014
|Physiological control of dual rotary pumps as a biventricular assist device using a master/slave approach|
MC Stevens, S Wilson, A Bradley, J Fraser, D Timms
Artificial organs 38 (9), 766-774, 2014
|Atrial versus ventricular cannulation for a rotary ventricular assist device|
D Timms, S Gregory, PL Hsu, B Thomson, M Pearcy, K McNeil, J Fraser, ...
Artificial organs 34 (9), 714-720, 2010