Quantitative gated intravascular ultrasound largely reduces the population size for atherosclerosis progression-regression trials: A computer simulation study

Sebastiaan A. De Winter; R. Hamers; J. R.T.C. Roelandt; P. W.J.C. Serruys; N. Bruining

Quantitative gated intravascular ultrasound largely reduces the population size for atherosclerosis progression-regression trials: A computer simulation study

Sebastiaan A. De Winter
, R. Hamers
, J. R.T.C. Roelandt
, P. W.J.C. Serruys
, N. Bruining

Erasmus MC

Research output: Chapter in Book or Conference Publication/Proceeding › Conference Publication › peer-review

4 Citations (Scopus)

Abstract

During imaging of coronary vessels with ultrasound (ICUS), cardiac cycle-dependent motion of the catheter introduces artifacts resulting in possible measurement inaccuracies. Although this problem can be avoided by ECG- or image-based gating, still most analyses are performed non-gated in longitudinal studies investigating the effects of new interventional methods on coronary atherosclerosis progression-regression. To investigate the impact of these motion-induced artifacts on the possible outcome of these studies, we developed a computer simulation model. In the model a clinical trial (n=400) was simulated where 200 patients received a drug (estimated 3% plaque reduction) and 200 a placebo. Using gating the 3% plaque reduction could be detected in 26 patients while for non-gated analyses 254 patients were necessary, indicating that gating can reduce population sizes significantly.

Original language	English
Title of host publication	Computers in Cardiology 2009, CinC 2009
Pages	829-832
Number of pages	4
Publication status	Published - 2009
Externally published	Yes
Event	36th Annual Conference of Computers in Cardiology, CinC 2009 - Park City, UT, United States Duration: 13 Sep 2009 → 16 Sep 2009

Publication series

Name	Computers in Cardiology
Volume	36
ISSN (Print)	0276-6574

Conference

Conference	36th Annual Conference of Computers in Cardiology, CinC 2009
Country/Territory	United States
City	Park City, UT
Period	13/09/09 → 16/09/09

Cite this

@inproceedings{1078e0e5f6e24cca99172dedc4231be2,

title = "Quantitative gated intravascular ultrasound largely reduces the population size for atherosclerosis progression-regression trials: A computer simulation study",

abstract = "During imaging of coronary vessels with ultrasound (ICUS), cardiac cycle-dependent motion of the catheter introduces artifacts resulting in possible measurement inaccuracies. Although this problem can be avoided by ECG- or image-based gating, still most analyses are performed non-gated in longitudinal studies investigating the effects of new interventional methods on coronary atherosclerosis progression-regression. To investigate the impact of these motion-induced artifacts on the possible outcome of these studies, we developed a computer simulation model. In the model a clinical trial (n=400) was simulated where 200 patients received a drug (estimated 3\% plaque reduction) and 200 a placebo. Using gating the 3\% plaque reduction could be detected in 26 patients while for non-gated analyses 254 patients were necessary, indicating that gating can reduce population sizes significantly.",

author = "\{De Winter\}, \{Sebastiaan A.\} and R. Hamers and Roelandt, \{J. R.T.C.\} and Serruys, \{P. W.J.C.\} and N. Bruining",

year = "2009",

language = "English",

isbn = "9781424472819",

series = "Computers in Cardiology",

pages = "829--832",

booktitle = "Computers in Cardiology 2009, CinC 2009",

note = "36th Annual Conference of Computers in Cardiology, CinC 2009 ; Conference date: 13-09-2009 Through 16-09-2009",

}

De Winter, SA, Hamers, R, Roelandt, JRTC, Serruys, PWJC & Bruining, N 2009, Quantitative gated intravascular ultrasound largely reduces the population size for atherosclerosis progression-regression trials: A computer simulation study. in Computers in Cardiology 2009, CinC 2009., 5445256, Computers in Cardiology, vol. 36, pp. 829-832, 36th Annual Conference of Computers in Cardiology, CinC 2009, Park City, UT, United States, 13/09/09.

Quantitative gated intravascular ultrasound largely reduces the population size for atherosclerosis progression-regression trials: A computer simulation study. / De Winter, Sebastiaan A.; Hamers, R.; Roelandt, J. R.T.C. et al.
Computers in Cardiology 2009, CinC 2009. 2009. p. 829-832 5445256 (Computers in Cardiology; Vol. 36).

Research output: Chapter in Book or Conference Publication/Proceeding › Conference Publication › peer-review

TY - GEN

T1 - Quantitative gated intravascular ultrasound largely reduces the population size for atherosclerosis progression-regression trials

T2 - 36th Annual Conference of Computers in Cardiology, CinC 2009

AU - De Winter, Sebastiaan A.

AU - Hamers, R.

AU - Roelandt, J. R.T.C.

AU - Serruys, P. W.J.C.

AU - Bruining, N.

PY - 2009

Y1 - 2009

N2 - During imaging of coronary vessels with ultrasound (ICUS), cardiac cycle-dependent motion of the catheter introduces artifacts resulting in possible measurement inaccuracies. Although this problem can be avoided by ECG- or image-based gating, still most analyses are performed non-gated in longitudinal studies investigating the effects of new interventional methods on coronary atherosclerosis progression-regression. To investigate the impact of these motion-induced artifacts on the possible outcome of these studies, we developed a computer simulation model. In the model a clinical trial (n=400) was simulated where 200 patients received a drug (estimated 3% plaque reduction) and 200 a placebo. Using gating the 3% plaque reduction could be detected in 26 patients while for non-gated analyses 254 patients were necessary, indicating that gating can reduce population sizes significantly.

AB - During imaging of coronary vessels with ultrasound (ICUS), cardiac cycle-dependent motion of the catheter introduces artifacts resulting in possible measurement inaccuracies. Although this problem can be avoided by ECG- or image-based gating, still most analyses are performed non-gated in longitudinal studies investigating the effects of new interventional methods on coronary atherosclerosis progression-regression. To investigate the impact of these motion-induced artifacts on the possible outcome of these studies, we developed a computer simulation model. In the model a clinical trial (n=400) was simulated where 200 patients received a drug (estimated 3% plaque reduction) and 200 a placebo. Using gating the 3% plaque reduction could be detected in 26 patients while for non-gated analyses 254 patients were necessary, indicating that gating can reduce population sizes significantly.

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M3 - Conference Publication

AN - SCOPUS:77952703813

SN - 9781424472819

T3 - Computers in Cardiology

SP - 829

EP - 832

BT - Computers in Cardiology 2009, CinC 2009

Y2 - 13 September 2009 through 16 September 2009

ER -

Quantitative gated intravascular ultrasound largely reduces the population size for atherosclerosis progression-regression trials: A computer simulation study

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