High Frequency Ultrasound Arrays for Cardiac Imaging

用于心脏成像的高频超声阵列

• 批准号: 8319511
• 负责人: BUTRUS T KHURI-YAKUB
• 金额: $ 125.64万
• 依托单位: OREGON HEALTH & SCIENCE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2002
• 资助国家: 美国
• 起止时间: 2002-02-15 至 2015-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8319511
• 关键词: Ablation; Acoustics; Affect; American; Animals; Arrhythmia; Atrial Fibrillation; Atrial Flutter; Blood Circulation; Cardiac; Cardiac ablation; Cardiovascular system; Catheters; Ceramics; Clinical; Complex; Data; Devices; Diagnostic; Dose; Effectiveness; Elasticity; Electrodes; Electrophysiology (science); Energy-Generating Resources; Engineering; Ensure; Evaluation; Exposure to; Face; Fluoroscopy; Focused Ultrasound Therapy; Frequencies; Funding; Generations; Goals; Gold; Health; Heart; Heating; Image; Imaging Device; Institution; Lasers; Lesion; Maps; Mechanics; Methods; Mission; Monitor; National Heart, Lung, and Blood Institute; Outcome; Patients; Physicians; Procedures; Property; Radiation; Radiofrequency Interstitial Ablation; Rotation; System; Technology; Testing; Therapeutic; Three-Dimensional Imaging; Time; Tissues; Ultrasonic Transducer; Ultrasonography; Work; acoustic imaging; aging population; base; cost; expectation; heart rhythm; improved; miniaturize; radiofrequency; success; tool; treatment strategy

DESCRIPTION (provided by applicant): Cardiac dysrhythmias such as atrial fibrillation and flutter affect about 2.4 million Americans, with approximately 160,000 new cases in the US alone every year. Electrophysiological (EP) and radiofrequency (RF) ablation procedures to treat cardiac arrhythmias are among the most prolonged and detailed due to the difficulties in the guidance of catheter based diagnostic and therapeutic devices within the cardiovascular system. Although fluoroscopy is still the gold standard imaging tool, it is well recognized that with longer and more challenging procedures, new and more effective real time spatial mapping tools are vitally needed to improve clinical outcomes and to reduce the fluoroscopic radiation doses to which patients are currently exposed. Also a recent review of ablation methods in Circulation stated that "Radiofrequency is the dominant energy source used but remains inadequate to ensure lesion continuity and permanence without an unacceptable increase in procedural time and complications. New, effective, and safe alternative energy sources are needed to achieve the ultimate goal of a single, widely applicable, curative procedure for all forms of AF (atrial fibrillation)." Our project is targeted at this major cardiovascular problem in our aging population concordant with the mission of the National Heart, Lung, and Blood Institute. Our Partnership of clinicians, electrophysiologists and engineers from academic institutions and companies is proposing to develop new highly miniaturized and unique intracardiac imaging devices on steerable electrophysiology catheters which can provide 2D and 3D ultrasound imaging to fully integrate imaging, lesion characterization and therapy within the same catheter devices. We also propose: to expand the capabilities for ablation with these devices from RF energy to newer methods including High Intensity Focused Ultrasound (HIFU) and laser ablation both of which can create more focused and discrete continuous lesions. We will also develop and provide on-line capabilities to allow rapid evaluation of the results and effectiveness of EP ablation procedures. These include methods such as thermal strain imaging to assess tissue heating and laser acoustic tissue characterization and ultrasound methods for defining altered mechanical properties of ablated tissue displayed on 3D fusion displays of electroanatomical mapping of the chambers of the heart and the propagation of normal and abnormal conduction of cardiac rhythms. Our proposed project builds on our first 5 years of funding combining the newest most advanced and miniaturized ultrasound transducer technologies and cabling and connection methods, with the ability to integrate imaging and assessment with direct energy delivery for ablation within the same EP catheter-based ablation devices. It is our expectation that the results of our work can improve the efficacy and availability of these complex treatment strategies while reducing procedure duration, radiation exposure and cost. PUBLIC HEALTH RELEVANCE: Serious abnormalities of cardiac rhythms, such as the rapid and irregular rhythms referred to as atrial fibrillation, often require treatment by trans-catheter ablation procedures. These long and complicated procedures have variable success rates and the abnormal rhythm episodes often recur. Our Partnership of clinicians and engineers is planning to develop new catheter-based methods for performing ablation with integration of energy delivery and ultrasound imaging from inside the heart chambers, with the goal of reducing the duration of these procedures, minimizing radiation exposure to the patient and the physician and improving the results of ablation.

描述（由申请人提供）：心律失常，如房颤和房扑，影响约240万美国人，仅在美国每年就有约160，000例新发病例。用于治疗心律失常的电生理（EP）和射频（RF）消融术是最长时间和最详细的手术之一，因为在心血管系统内难以引导基于导管的诊断和治疗器械。尽管荧光透视仍然是黄金标准成像工具，但众所周知，随着手术时间的延长和更具挑战性，迫切需要新的和更有效的真实的时间空间标测工具来改善临床结果并减少患者当前暴露的荧光透视辐射剂量。此外，最近对循环中消融方法的综述指出，“射频消融是使用的主要能量来源，但仍不足以确保病变的连续性和持久性，而不会导致不可接受的手术时间和并发症增加。需要新的、有效的和安全的替代能源来实现对所有形式的AF（房颤）进行单一的、广泛适用的、治疗性手术的最终目标。“我们的项目是针对这一主要的心血管问题，在我们的老龄化人口一致的使命的国家心脏，肺，血液研究所。我们与来自学术机构和公司的临床医生、电生理学家和工程师合作，建议在可操纵电生理导管上开发新型高度小型化和独特的心内成像设备，该设备可以提供2D和3D超声成像，以在同一导管设备中完全集成成像、病变表征和治疗。 我们还提议：将这些器械的消融能力从射频能量扩展到新方法，包括高强度聚焦超声（HIFU）和激光消融，这两种方法都可以产生更集中和离散的连续损伤。我们还将开发和提供在线功能，以便快速评估电生理消融术的结果和有效性。这些包括诸如热应变成像的方法，以评估组织加热和激光声学组织表征，以及用于定义在心脏腔室的电解剖标测的3D融合显示器上显示的消融组织的改变的机械特性以及心律的正常和异常传导的传播的超声方法。我们提出的项目建立在我们前5年的资金基础上，结合了最新的最先进的微型超声换能器技术和布线和连接方法，能够将成像和评估与相同的基于EP导管的消融器械内的直接消融能量输送相结合。我们期望我们的工作结果可以提高这些复杂治疗策略的有效性和可用性，同时减少手术时间，辐射暴露和成本。 公共卫生相关性：严重的心律异常，例如称为心房颤动的快速和不规则的心律，通常需要通过经导管消融手术进行治疗。这些漫长而复杂的手术具有不同的成功率，并且异常心律发作经常复发。我们的临床医生和工程师合作伙伴计划开发新的基于导管的消融方法，将能量输送和心腔内部的超声成像结合起来，目的是缩短这些手术的持续时间，最大限度地减少患者和医生的辐射暴露，并改善消融结果。

项目成果

The feasibility of using thermal strain imaging to regulate energy delivery during intracardiac radio-frequency ablation.

• DOI: 10.1109/tuffc.2011.1960
• 发表时间: 2011-07
• 期刊: IEEE transactions on ultrasonics, ferroelectrics, and frequency control
• 作者: Seo CH;Stephens DN;Cannata J;Dentinger A;Lin F;Park S;Wildes D;Thomenius KE;Chen P;Nguyen T;de La Rama A;Jeong JS;Mahajan A;Shivkumar K;Nikoozadeh A;Oralkan O;Truong U;Sahn DJ;Khuri-Yakub PT;O'Donnell M
• 通讯作者: O'Donnell M

Capacitive micromachined ultrasonic transducers for medical imaging and therapy.

• DOI: 10.1088/0960-1317/21/5/054004
• 发表时间: 2011-05
• 期刊: Journal of micromechanics and microengineering : structures, devices, and systems
• 作者: Khuri-Yakub BT;Oralkan O
• 通讯作者: Oralkan O

Intracardiac echocardiography during interventional and electrophysiological cardiac catheterization.

• DOI: 10.1161/circulationaha.107.753046
• 发表时间: 2009-02-03
• 期刊: Circulation
• 影响因子: 37.8
• 作者: Hijazi ZM;Shivkumar K;Sahn DJ
• 通讯作者: Sahn DJ

A family of intracardiac ultrasound imaging devices designed for guidance of electrophysiology ablation procedures.

• DOI: 10.1109/iembs.2009.5332380
• 发表时间: 2009
• 期刊: Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
• 作者: Sahn DJ;Stephens DN;Cannata JM;Shung K;Oralkan O;Nikoozadeh A;Khuri-Yakub BT;Nguyen H;Chen P;Dentinger AM;Wildes D;Thomenius KE;Mahajan A;Shivkumar K;O'Donnell M
• 通讯作者: O'Donnell M

First in vivo use of a capacitive micromachined ultrasound transducer array-based imaging and ablation catheter.

• DOI: 10.7863/jum.2012.31.2.247
• 发表时间: 2012-02
• 期刊: Journal of ultrasound in medicine : official journal of the American Institute of Ultrasound in Medicine
• 作者: Stephens DN;Truong UT;Nikoozadeh A;Oralkan O;Seo CH;Cannata J;Dentinger A;Thomenius K;de la Rama A;Nguyen T;Lin F;Khuri-Yakub P;Mahajan A;Shivkumar K;O'Donnell M;Sahn DJ
• 通讯作者: Sahn DJ