Three-dimensional myocardial strain estimation from volumetric ultrasound: Experimental validation in an animal model

Heyde, Brecht; Jasaitytė, Rūta; Bouchez, Stefaan; Vandenheuvel, Michaël; Loeckx, Dirk; Claus, Piet; Wouters, Patrick; D'hooge, Jan

doi:10.1109/ultsym.2011.0465

Cited by 4 publications

(5 citation statements)

References 13 publications

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“…More than a decade ago, Papademetris et al 20,49 were the first to report on the in vivo validation of a model-based 3D STE approach against sonomicrometry 20 and opaque MRI markers. 49 In more recent years, different implementations of block matching-based approaches, [50][51][52][53][54] a new implementation of a modelbased approach, 40 and an elastic registration 3D STE approach 56 have been validated in an in vivo setting. All these studies reported moderate to good correlations (r = 0.49-0.91) between regional strain values obtained by 3D STE methods and sonomicrometry 40,51,56 (Table 2).…”

Section: Validation In An In Vivo Experimental Settingmentioning

confidence: 99%

“…49 In more recent years, different implementations of block matching-based approaches, [50][51][52][53][54] a new implementation of a modelbased approach, 40 and an elastic registration 3D STE approach 56 have been validated in an in vivo setting. All these studies reported moderate to good correlations (r = 0.49-0.91) between regional strain values obtained by 3D STE methods and sonomicrometry 40,51,56 (Table 2). However, care should be taken in interpreting and comparing those results, as not all of the studies reported strain values corresponding to a local cardiac coordinate system (i.e., RS, LS, and CS).…”

Section: Validation In An In Vivo Experimental Settingmentioning

confidence: 99%

“…true, as reflected by their good correlations with sonomicrometry in an in vivo experimental setting. 20,40,[49][50][51]56,57…”

Section: Three-dimensional Speckle-tracking Echocardiography For the mentioning

confidence: 99%

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Current State of Three-Dimensional Myocardial Strain Estimation Using Echocardiography

Jasaitytė

Heyde

D’hooge

2013

Journal of the American Society of Echocardiography

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150

113

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With the developments in ultrasound transducer technology and both hardware and software computing, real-time volumetric imaging has become widely available, accompanied by various methods of assessing three-dimensional (3D) myocardial strain, often referred to as 3D speckle-tracking echocardiographic methods. Indeed, these methods should provide cardiologists with a better view of regional myocardial mechanics, which might be important for diagnosis, prognosis, and therapy. However, currently available 3D speckle-tracking echocardiographic methods are based on different algorithms, which introduce substantial differences between them and make them not interchangeable with each other. Therefore, it is critical that each 3D speckle-tracking echocardiographic method is validated individually before being introduced into clinical practice. In this review, the authors discuss differences and similarities of the currently available 3D strain estimation approaches and provide an overview of the current status of their validation.

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Section: Validation In An In Vivo Experimental Settingmentioning

confidence: 99%

Section: Validation In An In Vivo Experimental Settingmentioning

confidence: 99%

See 1 more Smart Citation

Current State of Three-Dimensional Myocardial Strain Estimation Using Echocardiography

Jasaitytė

Heyde

D’hooge

2013

Journal of the American Society of Echocardiography

Self Cite

150

113

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“…Similar experiments were performed previously using a CFFD model. In phantom data, correlations were 0.98, 0.96 and 0.92 for RR , LL and CC respectively [4], while correlations in sheep data were 0.21, 0.63 and 0.60 respectively [9]. Seo et al reported similar findings in an in-vivo setup using a state-of-the-art commercially available 3D speckle tracking method that typically relies on block-matching based algorithms to track tissue motion (r=0.59-0.70 for RR , r=0.65-0.68 for LL and r=0.71-0.78 for CC [10]).…”

Section: Discussionmentioning

confidence: 91%

“…For a full description of the experimental protocol in these setups, the reader is referred to [4] and [9] respectively. Briefly, volumetric data was recorded in gel phantoms and in 5 open-chest sheep, from an apical view using a GE VividE9 equipped with a 2.5 MHz transducer (3V) at a frame rate of 13-17 Hz and 25-32 Hz respectively.…”

Section: Methodsmentioning

confidence: 99%

Three-dimensional myocardial strain estimation from volumetric ultrasound data using a novel transformation model adapted to the heart

Heyde

Barbosa

Jasaitytė

et al. 2012

2012 IEEE International Ultrasonics Symposium

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We previously demonstrated that 3D cardiac strain estimation using non-rigid registration based on a B-spline freeform deformation model (FFD) is feasible. However, the traditional arrangement of the B-spline control points on a Cartesian grid (CFFD) may be suboptimal for cardiac applications as it treats the blood pool and myocardium similarly and as it enforces smoothness in non-physiologic directions. The aim of this study was therefore to overcome these limitations by proposing a novel anatomical FFD (AFFD) adapted to the heart and test its performance experimentally. Volumetric data was recorded in gel phantoms and in 5 sheep. Reference radial ( RR ), longitudinal ( LL) and circumferential strain ( CC ) were obtained using sonomicrometry. The strain range was modulated by increasing the stroke volume (phantoms; 25-150ml) or by (pharmacological/surgical) inotropic modulation (sheep). Correlation coefficients for RR , LL and CC were 0.98, 0.62 and 0.94 respectively in the phantom data and 0.87, 0.65 and 0.74 respectively in the sheep data. Moreover, the shape of the strain curves, timing of peak values and location of dysfunctional regions were recovered well. Further validation and its comparison to the CFFD model is the topic of ongoing research.

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Elastic Image Registration to Quantify 3-D Regional Myocardial Deformation from Volumetric Ultrasound: Experimental Validation in an Animal Model

Heyde

Bouchez

Thieren

et al. 2013

Ultrasound in Medicine & Biology

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Three-dimensional myocardial strain estimation from volumetric ultrasound: Experimental validation in an animal model

Cited by 4 publications

References 13 publications

Current State of Three-Dimensional Myocardial Strain Estimation Using Echocardiography

Current State of Three-Dimensional Myocardial Strain Estimation Using Echocardiography

Three-dimensional myocardial strain estimation from volumetric ultrasound data using a novel transformation model adapted to the heart

Elastic Image Registration to Quantify 3-D Regional Myocardial Deformation from Volumetric Ultrasound: Experimental Validation in an Animal Model

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