Tight blood pressure control and risk of macrovascular and microvascular complications in type 2 diabetes: UKPDS 38

M R Stearne; S L Palmer; M S Hammersley; S L Franklin; R S Spivey; J Lévy; C R Tidy; N J Bell; J Steemson; B. Barrow; R. De Coster; K Waring; James Nolan; Emily Truscott; N Walravens; L. S. Cook; H Lampard; Carole Merle; P Parker; Janet McVittie; I Draisey; Lilian E. Murchison; A H E Brunt; Mark J. Williams; D. Pearson; X M P Petrie; MEJ Lean; D. Walmsley; Marcus J. Lyall; Emily Christie; Jody Church; Emma C. Thomson; A Farrow; J. M. Stowers; M Stowers; K C McHardy; Noelle B. Patterson; Alex Wright; N A Levi; A Shearer; R J W Thompson; Glyn Taylor; S Rayton; M. W. B. Bradbury; A. Glover; A Smyth-Osbourne; Chad W. Parkes; John Graham; P England; S N Gyde; Craig Eagle; B Chakrabarti; James Smith; J Sherwell; Eva M. Kohner; A Dornhurst; M C Doddridge; Martin J. Dumskyj; Shahenaz Walji; P. S. Sharp; Marcus A. Sleightholm; Grace Vanterpool; Colin P. Rose; Gary Frost; M Roseblade; Simon Elliott; Sara Forrester; Michael B. Foster; K A Myers; Richard H. Chapman; John R. Hayes; Robert W. Henry; Marcelo Featherston; G P R Archbold; M Copeland; Roy Harper; I. M. Richardson; Stéphan Martin; H A Davison; D. R. Hadden; L. Kennedy; A. B. Atkinson; A M Culbert; C Hegan; H Tennet; Neil Webb; I. Robinson; John Holmes; P. M. Bell; David R. McCance; John D. Rutherford; Shawna D. Nesbitt; A S Spathis; Steve Hyer; M E Nanson; Linda James; J M Tyrell; Courtney Davis; P Strugnell; Marika Booth; Heather Petrie; Daniel J. Clark; B Rice; S Hulland; J L Barron; John Yudkin; B J Gould; Joelle Singer; A Badenock; Matthew J. Eckert; K Alibhai; E Marriot; Christopher J. Cox; Raymond S. Price; Margarita Fernández; A Ryle; Samantha L. Clarke; G. B. Wallace; E Mehmed; S. Macfarlane; Richard Greenwood; J Wilson; M J Denholm; R Temple; Kyly C. Whitfield; F. Johnson; Craig A. Munroe; Sondra Gorick; Ellie Duckworth; M Flatman; Sandra Rainbow; L J Borthwick; D J Wheatcroft; R J Seaman; R A Christie; W Wheatcroft; Philip Musk; John R. White; Stuart Y. McDougal; M Bond; P Raniga; Rob Newton; Roland Jung; C Roxburgh; B Kilgallon; Lachlan Dick; Norman Waugh; S. Kilby; A Ellingford; John A. Burns; Charles Fox; M C Holloway; H M Coghill; N Hein; A Fox; W Cowan; M Richard; K Quested; Sharon Evans; Richard Paisey; Nigel Brown; Amy J. Tucker; Richard Paisey; F Garrett; James C. Hogg; P Park; Ken Williams; Patricia T. Harvey; R Wilcocks; Shaun A. Mason; Jennifer Frost; Curtis R. Warren; P Rocket; L Bower; J Roland; D. J. Brown; J Youens; K Stanton-King; H Mungall; W Maddison; D. Donnelly; Sarah King; Peter S. Griffin; Steven A. Smith; S Church; Graham Dunn; Andrew Wilson; Katharine J. Palmer; Phil Brown; D Humphriss; Arthur J. Davidson; Robert A. Rose; Lori T. Armistead; Simon Townsend; P Poon; Ian Peacock; N J C Culverwell; M. Charlton; B P S Connolly; J.E. Peacock; J Barrett; J Wain; W Beeston; G King; P G Hill; A J Boulton; A M Robertson; Katoulis; A O Olukoga; H R McDonald; Gowtham Kumar Subbaraj; Frag Abouaesha; B Abuaisha; E.A. Knowles; Steven L. Higgins; John Booker; J. P. Sunter; K Breislin; Robert A. Parker; Pravin Raval; Janet Curwell; Harold T. Davenport; G Shawcross; A Prest; J Grey; H. S. Cole; C Sereviratne; Robert J. Young; T. Dornan; J R Clyne; Martin Gibson; Ian O'Connell; Louise Wong; Sarah Wilson; Kristine Wright; C Wallace; D. McDowell; A C Burden; E M Sellen; Robert Gregory; Marjan Mahdavi‐Roshan; N Vaghela; Mary Burden; Colleen Sherriff; Janice L. Clarke; J Grenfell; J. E. Tooke; K. M. MacLeod; C Searnark; M Rammell; C Pym; J.A. Stockman; C Yeo; Joyce M. Piper; Lisa Leighton; E Green; Martin Hoyle; Kristina L. Jones; Adrienne Hudson; A J James; Angela C. Shore; Andrew Higham; Blaise C. Martin

doi:10.1016/j.jbiomech.2011.11.041

Tight blood pressure control and risk of macrovascular and microvascular complications in type 2 diabetes: UKPDS 38

M R Stearne, S L Palmer, M S Hammersley, S L Franklin, R S Spivey, J Lévy, C R Tidy, N J Bell, J Steemson, B. Barrow, R. De Coster, K Waring, James Nolan, Emily Truscott, N Walravens, L. S. Cook, H Lampard, Carole Merle, P Parker, Janet McVittie, I Draisey, Lilian E. Murchison, A H E Brunt, Mark J. Williams, D. Pearson, X M P Petrie, MEJ Lean, D. Walmsley, Marcus J. Lyall, Emily Christie, Jody Church, Emma C. Thomson, A Farrow, J. M. Stowers, M Stowers, K C McHardy, Noelle B. Patterson, Alex Wright, N A Levi, A Shearer, R J W Thompson, Glyn Taylor, S Rayton, M. W. B. Bradbury, A. Glover, A Smyth-Osbourne, Chad W. Parkes, John Graham, P England, S N Gyde, Craig Eagle, B Chakrabarti, James Smith, J Sherwell, Eva M. Kohner, A Dornhurst, M C Doddridge, Martin J. Dumskyj, Shahenaz Walji, P. S. Sharp, Marcus A. Sleightholm, Grace Vanterpool, Colin P. Rose, Gary Frost, M Roseblade, Simon Elliott, Sara Forrester, Michael B. Foster, K A Myers, Richard H. Chapman, John R. Hayes, Robert W. Henry, Marcelo Featherston, G P R Archbold, M Copeland, Roy Harper, I. M. Richardson, Stéphan Martin, H A Davison, D. R. Hadden, L. Kennedy, A. B. Atkinson, A M Culbert, C Hegan, H Tennet, Neil Webb, I. Robinson, John Holmes, P. M. Bell, David R. McCance, John D. Rutherford, Shawna D. Nesbitt, A S Spathis, Steve Hyer, M E Nanson, Linda James, J M Tyrell, Courtney Davis, P Strugnell, Marika Booth, Heather Petrie, Daniel J. Clark, B Rice, S Hulland, J L Barron, John Yudkin, B J Gould, Joelle Singer, A Badenock, Matthew J. Eckert, K Alibhai, E Marriot, Christopher J. Cox, Raymond S. Price, Margarita Fernández, A Ryle, Samantha L. Clarke, G. B. Wallace, E Mehmed, S. Macfarlane, Richard Greenwood, J Wilson, M J Denholm, R Temple, Kyly C. Whitfield, F. Johnson, Craig A. Munroe, Sondra Gorick, Ellie Duckworth, M Flatman, Sandra Rainbow, L J Borthwick, D J Wheatcroft, R J Seaman, R A Christie, W Wheatcroft, Philip Musk, John R. White, Stuart Y. McDougal, M Bond, P Raniga, Rob Newton, Roland Jung, C Roxburgh, B Kilgallon, Lachlan Dick, Norman Waugh, S. Kilby, A Ellingford, John A. Burns, Charles Fox, M C Holloway, H M Coghill, N Hein, A Fox, W Cowan, M Richard, K Quested, Sharon Evans, Richard Paisey, Nigel Brown, Amy J. Tucker, Richard Paisey, F Garrett, James C. Hogg, P Park, Ken Williams, Patricia T. Harvey, R Wilcocks, Shaun A. Mason, Jennifer Frost, Curtis R. Warren, P Rocket, L Bower, J Roland, D. J. Brown, J Youens, K Stanton-King, H Mungall, W Maddison, D. Donnelly, Sarah King, Peter S. Griffin, Steven A. Smith, S Church, Graham Dunn, Andrew Wilson, Katharine J. Palmer, Phil Brown, D Humphriss, Arthur J. Davidson, Robert A. Rose, Lori T. Armistead, Simon Townsend, P Poon, Ian Peacock, N J C Culverwell, M. Charlton, B P S Connolly, J.E. Peacock, J Barrett, J Wain, W Beeston, G King, P G Hill, A J Boulton, A M Robertson, Katoulis, A O Olukoga, H R McDonald, Gowtham Kumar Subbaraj, Frag Abouaesha, B Abuaisha, E.A. Knowles, Steven L. Higgins, John Booker, J. P. Sunter, K Breislin, Robert A. Parker, Pravin Raval, Janet Curwell, Harold T. Davenport, G Shawcross, A Prest, J Grey, H. S. Cole, C Sereviratne, Robert J. Young, T. Dornan, J R Clyne, Martin Gibson, Ian O'Connell, Louise Wong, Sarah Wilson, Kristine Wright, C Wallace, D. McDowell, A C Burden, E M Sellen, Robert Gregory, Marjan Mahdavi‐Roshan, N Vaghela, Mary Burden, Colleen Sherriff, Janice L. Clarke, J Grenfell, J. E. Tooke, K. M. MacLeod, C Searnark, M Rammell, C Pym, J.A. Stockman, C Yeo, Joyce M. Piper, Lisa Leighton, E Green, Martin Hoyle, Kristina L. Jones, Adrienne Hudson, A J James, Angela C. Shore, Andrew Higham, Blaise C. Martin

Unknown

September 12, 1998

10.1016/j.jbiomech.2011.11.041

Cited by 4,820

Abstract

State of the art simulations of aortic haemodynamics feature full fluid-structure interaction (FSI) and coupled 0D boundary conditions. Such analyses require not only significant computational resource but also weeks to months of run time, which compromises the effectiveness of their translation to a clinical workflow. This article employs three computational fluid methodologies, of varying levels of complexity with coupled 0D boundary conditions, to simulate the haemodynamics within a patient-specific aorta. The most comprehensive model is a full FSI simulation. The simplest is a rigid walled incompressible fluid simulation while an alternative middle-ground approach employs a compressible fluid, tuned to elicit a response analogous to the compliance of the aortic wall. The results demonstrate that, in the context of certain clinical questions, the simpler analysis methods may capture the important characteristics of the flow field.

Jeremiah Stamler, Olga Vaccaro, James D. Neaton et al.|Diabetes Care|1993|4.1k

Risk factors for coronary artery disease in non-insulin dependent diabetes mellitus: United Kingdom prospective diabetes study (UKPDS: 23)

R. C. Turner, Helen Millns, H. A. W. Neil et al.|BMJ|1998|2k

Morbidity and mortality in the Swedish Trial in Old Patients with Hypertension (STOP-Hypertension)

Björn Dahlöf, L. Hansson, Lars Lindholm et al.|The Lancet|1991|1.9k

Blood Pressure and End-Stage Renal Disease in Men

Michael J. Klag, Paul K. Whelton, Bryan Randall et al.|New England Journal of Medicine|1996|1.7k

Morbidity and Mortality in Diabetics In the Framingham Population: Sixteen Year Follow-up Study

Mariano J Garcia, Patricia McNamara, Tavia Gordon et al.|Diabetes|1974|1.6k

Tight blood pressure control and risk of macrovascular and microvascular complications in type 2 diabetes: UKPDS 38

Abstract

Related Papers