Your search keyword '"Wolf PD"' showing total 9 results

1. Assessment of Diastolic Function Using Ultrasound Elastography.

Author

Vejdani-Jahromi M, Freedman J, Kim YJ, Trahey GE, and Wolf PD

Subjects

Animals, Disease Models, Animal, Heart diagnostic imaging, Heart physiopathology, Rabbits, Diastole, Elasticity Imaging Techniques methods, Myocardial Ischemia diagnostic imaging, Myocardial Ischemia physiopathology

Abstract

Shear wave elasticity imaging (SWEI) is a novel ultrasound elastography technique for assessing tissue stiffness. In this study, we investigate the potential of SWEI for providing diastolic functional assessment. In 11 isolated rabbit hearts, pressure-volume (PV) measurements were recorded simultaneously with SWEI recordings from the left ventricle free wall before and after induction of global ischemia. PV-based end diastolic stiffness increased by 100% after ischemia (p <0.05), and SWEI stiffness showed an increase of 103% (p <0.05). The relaxation time constant (τ) before and after ischemia derived from pressure and SWEI curves showed increases of 79% and 76%, respectively (p <0.05). A linear regression between pressure-derived and SWEI-based (τ) showed a slope of 1.164 with R 2  = 0.80, indicating the near equivalence of the two assessments. SWEI can be used to derive (τ) values and myocardial end diastolic stiffness. In global conditions, these measurements are consistent with PV measurements of diastolic function., (Copyright © 2018 World Federation for Ultrasound in Medicine and Biology. Published by Elsevier Inc. All rights reserved.)

Published

2018

2. The feasibility of myocardial infarct visualization using atrial kick induced strain (AKIS) contrast.

Author

Byram B, Kim H, Van Assche L, Wolf PD, and Trahey GE

Subjects

Algorithms, Animals, Catheter Ablation methods, Disease Models, Animal, Dogs, Feasibility Studies, Heart Atria surgery, Myocardial Infarction physiopathology, Myocardial Infarction surgery, Systole, Echocardiography, Three-Dimensional methods, Elasticity Imaging Techniques, Heart Atria diagnostic imaging, Heart Atria physiopathology, Myocardial Infarction diagnostic imaging

Abstract

The most common mechanical measure of the heart integrates ventricular strain between end-diastole and end-systole in order to provide a measure of contraction. Here an approach is described for estimating a correlate to local passive mechanical properties. Passive strain is measured by estimating ventricular strain during atrial systole. During atrial systole the atria contract causing passive stretching in the ventricles from increased volume. This modification to traditional cardiac strain is here termed atrial kick induced strain (AKIS) imaging. AKIS imaging was evaluated in a canine ablation model of chronic infarct and a canine true chronic infarct model. AKIS images of ablation lesions were compared against acoustic radiation force impulse (ARFI) images and tissue blanching, and true chronic infarct AKIS images were compared against delayed enhanced-contrast magnetic resonance. AKIS images were made with 2-D and 3-D ultrasound data. In both studies, AKIS images and the comparison images show good qualitative agreement and good contrast and contrast-to-noise ratio., (Copyright © 2014 World Federation for Ultrasound in Medicine & Biology. Published by Elsevier Inc. All rights reserved.)

Published

2014

3. Intracardiac echocardiography measurement of dynamic myocardial stiffness with shear wave velocimetry.

Author

Hollender PJ, Wolf PD, Goswami R, and Trahey GE

Subjects

Animals, Image Enhancement methods, Reproducibility of Results, Sensitivity and Specificity, Swine, Algorithms, Echocardiography methods, Elastic Modulus physiology, Elasticity Imaging Techniques methods, Heart physiology, Image Interpretation, Computer-Assisted methods, Shear Strength physiology

Abstract

Acoustic radiation force (ARF)-based methods have been demonstrated to be a viable tool for noninvasively estimating tissue elastic properties, and shear wave velocimetry has been used to measure quantitatively the stiffening and relaxation of myocardial tissue in open-chest experiments. Dynamic stiffness metrics may prove to be indicators for certain cardiac diseases, but a clinically viable means of remotely generating and tracking transverse wave propagation in myocardium is needed. Intracardiac echocardiography (ICE) catheter-tip transducers are demonstrated here as a viable tool for making this measurement. ICE probes achieve favorable proximity to the myocardium, enabling the use of shear wave velocimetry from within the right ventricle throughout the cardiac cycle. This article describes the techniques used to overcome the challenges of using a small probe to perform ARF-driven shear-wave velocimetry and presents in vivo porcine data showing the effectiveness of this method in the interventricular septum., (Copyright © 2012 World Federation for Ultrasound in Medicine & Biology. Published by Elsevier Inc. All rights reserved.)

Published

2012

4. Dual-mode IVUS transducer for image-guided brain therapy: preliminary experiments.

Author

Herickhoff CD, Wilson CM, Grant GA, Britz GW, Light ED, Palmeri ML, Wolf PD, and Smith SW

Subjects

Animals, Cerebral Angiography, Disease Models, Animal, Equipment Design, Feasibility Studies, Mice, Mice, Nude, Phantoms, Imaging, Sheep, Domestic, Swine, Brain Neoplasms therapy, Glioblastoma therapy, Hyperthermia, Induced instrumentation, Surgery, Computer-Assisted instrumentation, Transducers, Ultrasonography, Interventional instrumentation

Abstract

In this study, we investigated the feasibility of using 3.5-Fr intravascular ultrasound (IVUS) catheters for minimally-invasive, image-guided hyperthermia treatment of tumors in the brain. Feasibility was demonstrated by: (1) retro-fitting a commercial 3.5-Fr IVUS catheter with a 5 × 0.5 × 0.22 mm PZT-4 transducer for 9-MHz imaging and (2) testing an identical transducer for therapy potential with 3.3-MHz continuous-wave excitation. The imaging transducer was compared with a 9-Fr, 9-MHz ICE catheter when visualizing the post-mortem ovine brain and was also used to attempt vascular access to an in vivo porcine brain. A net average electrical power input of 700 mW was applied to the therapy transducer, producing a temperature rise of +13.5°C at a depth of 1.5 mm in live brain tumor tissue in the mouse model. These results suggest that it may be feasible to combine the imaging and therapeutic capabilities into a single device as a clinically-viable instrument., (Copyright © 2011 World Federation for Ultrasound in Medicine & Biology. Published by Elsevier Inc. All rights reserved.)

Published

2011

5. In vivo assessment of myocardial stiffness with acoustic radiation force impulse imaging.

Author

Hsu SJ, Bouchard RR, Dumont DM, Wolf PD, and Trahey GE

Subjects

Animals, Artifacts, Catheter Ablation, Dogs, Electrocardiography, Heart Ventricles diagnostic imaging, Myocardial Contraction physiology, Pericardium diagnostic imaging, Pericardium surgery, Ventricular Function, Ventricular Function, Left physiology, Echocardiography methods, Image Interpretation, Computer-Assisted methods

Abstract

Acoustic radiation force impulse (ARFI) imaging has been demonstrated to be capable of visualizing variations in local stiffness within soft tissue. Recent advances in ARFI beam sequencing and parallel imaging have shortened acquisition times and lessened transducer heating to a point where ARFI acquisitions can be executed at high frame rates on commercially available diagnostic scanners. In vivo ARFI images were acquired with a linear array placed on an exposed canine heart. The electrocardiogram (ECG) was also recorded. When coregistered with the ECG, ARFI displacement images of the heart reflect the expected myocardial stiffness changes during the cardiac cycle. A radio-frequency ablation was performed on the epicardial surface of the left ventricular free wall, creating a small lesion that did not vary in stiffness during a heartbeat, though continued to move with the rest of the heart. ARFI images showed a hemispherical, stiffer region at the ablation site whose displacement magnitude and temporal variation through the cardiac cycle were less than the surrounding untreated myocardium. Sequences with radiation force pulse amplitudes set to zero were acquired to measure potential cardiac motion artifacts within the ARFI images. The results show promise for real-time cardiac ARFI imaging.

Published

2007

6. Real-time 3-d intracranial ultrasound with an endoscopic matrix array transducer.

Author

Light ED, Mukundan S, Wolf PD, and Smith SW

Subjects

Animals, Anterior Cerebral Artery pathology, Brain pathology, Carotid Artery, Internal pathology, Contrast Media, Dogs, Echoencephalography instrumentation, Equipment Design, Imaging, Three-Dimensional instrumentation, Imaging, Three-Dimensional methods, Intraoperative Care methods, Magnetic Resonance Angiography methods, Phantoms, Imaging, Transducers, Echoencephalography methods, Ultrasonography, Interventional methods

Abstract

A transducer originally designed for transesophageal echocardiography (TEE) was adapted for real-time volumetric endoscopic imaging of the brain. The transducer consists of a 36 x 36 array with an interelement spacing of 0.18 mm. There are 504 transmitting and 252 receive channels placed in a regular pattern in the array. The operating frequency is 4.5 MHz with a -6 dB bandwidth of 30%. The transducer is fabricated on a 10-layer flexible circuit from Microconnex (Snoqualmie, WA, USA). The purpose of this study is to evaluate the clinical feasibility of real-time 3-D intracranial ultrasound with this device. The Volumetrics Medical Imaging (Durham, NC, USA) 3-D scanner was used to obtain images in a canine model. A transcalvarial acoustic window was created under general anesthesia in the animal laboratory by placing a 10-mm burr hole in the high parietal calvarium of a 50-kg canine subject. The burr-hole was placed in a left parasagittal location to avoid the sagittal sinus, and the transducer was placed against the intact dura mater for ultrasound imaging. Images of the lateral ventricles were produced, including real-time 3-D guidance of a needle puncture of one ventricle. In a second canine subject, contrast-enhanced 3-D Doppler color flow images were made of the cerebral vessels including the complete Circle of Willis. Clinical applications may include real-time 3-D guidance of cerebrospinal fluid extraction from the lateral ventricles and bedside evaluation of critically ill patients where computed tomography and magnetic resonance imaging techniques are unavailable.

Published

2007

7. Feasibility study: real-time 3-D ultrasound imaging of the brain.

Author

Smith SW, Chu K, Idriss SF, Ivancevich NM, Light ED, and Wolf PD

Subjects

Animals, Cerebral Ventricles diagnostic imaging, Cerebrovascular Circulation, Contrast Media, Feasibility Studies, Humans, Male, Middle Aged, Polysaccharides, Sheep, Ultrasonography, Doppler, Color methods, Echoencephalography methods

Abstract

We tested the feasibility of real-time, 3-D ultrasound (US) imaging in the brain. The 3-D scanner uses a matrix phased-array transducer of 512 transmit channels and 256 receive channels operating at 2.5 MHz with a 15-mm diameter footprint. The real-time system scans a 65 degrees pyramid, producing up to 30 volumetric scans per second, and features up to five image planes as well as 3-D rendering, 3-D pulsed-wave and color Doppler. In a human subject, the real-time 3-D scans produced simultaneous transcranial horizontal (axial), coronal and sagittal image planes and real-time volume-rendered images of the gross anatomy of the brain. In a transcranial sheep model, we obtained real-time 3-D color flow Doppler scans and perfusion images using bolus injection of contrast agents into the internal carotid artery.

Published

2004

8. Dual lumen transducer probes for real-time 3-D interventional cardiac ultrasound.

Author

Lee W, Idriss SF, Wolf PD, and Smith SW

Subjects

Animals, Biopsy instrumentation, Biopsy methods, Cardiac Catheterization instrumentation, Cardiac Catheterization methods, Echocardiography, Three-Dimensional methods, Equipment Design, Feasibility Studies, Models, Animal, Phantoms, Imaging, Punctures instrumentation, Punctures methods, Sheep, Ultrasonography, Interventional methods, Echocardiography, Three-Dimensional instrumentation, Transducers, Ultrasonography, Interventional instrumentation

Abstract

We have developed dual lumen probes incorporating a forward-viewing matrix array transducer with an integrated working lumen for delivery of tools in real-time 3-D (RT3-D) interventional echocardiography. The probes are of 14 Fr and 22 Fr sizes, with 112 channel 2-D arrays operating at 5 MHz. We obtained images of cardiac anatomy and simultaneous interventional device delivery with an in vivo sheep model, including: manipulation of a 0.36-mm diameter guidewire into the coronary sinus, guidance of a transseptal puncture using a 1.2-mm diameter Brockenbrough needle, and guidance of a right ventricular biopsy using 3 Fr biopsy forceps. We have also incorporated the 22 Fr probe within a 6-mm surgical trocar to obtain apical four-chamber ultrasound (US) scans from a subcostal position. Combining the imaging catheter with a working lumen in a single device may simplify cardiac interventional procedures by allowing clinicians to easily visualize cardiac structures and simultaneously direct interventional tools in a RT3-D image.

Published

2003

9. Real-time three-dimensional intracardiac echocardiography.

Author

Light ED, Idriss SF, Wolf PD, and Smith SW

Subjects

Animals, Cardiac Catheterization, Cardiac Volume physiology, Catheter Ablation, Coronary Circulation physiology, Disease Models, Animal, Heart Diseases surgery, In Vitro Techniques, Reproducibility of Results, Transducers, Computer Systems, Echocardiography, Three-Dimensional instrumentation, Heart physiopathology, Heart Diseases pathology, Heart Diseases physiopathology, Myocardium pathology, Sheep

Abstract

Using catheter-mounted 2-D array transducers, we have obtained real-time 3-D intracardiac ultrasound (US) images. We have constructed several transducers with 64 channels inside a 12 French catheter lumen operating at 5 MHz. The transducer configuration may be side-scanning or beveled, with respect to the long axis of the catheter lumen. We have also included six electrodes to acquire simultaneous electrocardiograms. Using an open-chest sheep model, we inserted the catheter into the cardiac chambers to study the utility of in vivo intracardiac 3-D scanning. Images obtained include a cardiac four-chamber view, mitral valve, pulmonic valve, tricuspid valve, interatrial septum, interventricular septum and ventricular volumes. We have also imaged two electrophysiological interventional devices in the right atrium, performed an in vitro ablation study, and viewed the pulmonary veins in vitro.

Published

2001