A low-dose fluoroscope for interventional radiology procedures

用于介入放射学手术的低剂量荧光镜

• 批准号: 8401011
• 负责人: TOBIAS FUNK
• 金额: $ 57.5万
• 依托单位: TRIPLE RING TECHNOLOGIES, INC.
• 依托单位国家: 美国
• 财政年份: 2011
• 资助国家: 美国
• 起止时间: 2011-02-15 至 2015-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8401011
• 关键词: Address; Adult; Applications Grants; Architecture; Cardiac; Cardiology; Collimator; Complex; Custom; Development; Diagnostic Imaging; Diagnostic radiologic examination; Digital X-Ray; Dose; Equipment; Extravasation; Family suidae; Fluoroscope; Fluoroscopy; Grant; Health; Human; Image; Infertility; Institutional Review Boards; Intervention; Interventional radiology; Lead; Light; Lighting; Liver diseases; Measures; Medical Imaging; Modality; Modeling; Noise; Occupational; Operative Surgical Procedures; Patients; Performance; Phase; Photons; Platelet Factor 4; Positioning Attribute; Procedures; Radiation; Radiology Specialty; Recovery; Resolution; Risk; Roentgen Rays; Savings; Scanning; Schedule; Simulate; Small Business Innovation Research Grant; Solutions; Source; Spottings; System; Technology; Testing; Time; Tube; base; cancer risk; comparative; design; detector; falls; high risk; imaging detector; imaging modality; meetings; minimally invasive; novel; novel strategies; performance tests; research study; success

DESCRIPTION (provided by applicant): Radiation exposure in interventional radiology and other medical imaging modalities has become a serious concern, driven by the growing number of efficacious diagnostic and image-guided minimally invasive procedures and appropriately increasing utilization. This concern has been underlined by a recent FDA initiative to reduce dose in medical imaging. Alleviating this problem is complex because of the many contributing factors, but we believe that one part of the solution is to build X-ray imaging equipment that acquires images at significantly lower dose. In this spirit, we propose in this SBIR Fast-Track application to build a low-dose fluoroscopic system with a large field of view as required for interventional radiology. We expect that the system will reduce entrance X- ray exposure and radiation dose to the patient by a factor of 4 and the occupational dose by at least a factor of 2 at equal image quality as compared to a conventional system. We, Triple Ring Technologies, have developed a scanning-beam digital X-ray (SBDX) system with a small field of view for cardiac interventions, scheduled for release in fall 2010. The system employs a novel imaging geometry with an extended, scanning-beam X-ray source with 9,000 focal spot positions, and a pixelated photon-counting detector. From each focal-spot position, an X-ray beam is cast through an X-ray collimator onto the detector. The final image, composed of up to 9,000 detector images, is reconstructed in real time. The SBDX system has shown a 4-fold dose reduction in adult patients. To achieve the extended FOV, we will use the existing SBDX system and replace the single detector with two laterally spaced detectors. Importantly, this will require a new X-ray collimator and we determined that construction of the new collimator is the highest development risk. We propose to retire this risk in Phase 1 of the SBIR Fast-Track grant. In Phase 2 of the grant, we will build the large FOV system and perform a comparative phantom study of our system against a conventional system to measure entrance exposure, patient and occupational dose savings. Finally, we will perform an observer study in porcine models to validate image quality in comparison to a conventional system. In conclusion, this grant application proposes to reduce the radiation risk in interventional radiology by building and testing a low-dose fluoroscopy system.

描述（由申请人提供）：介入放射学和其他医学成像模式中的辐射暴露已成为一个严重的问题，这是由于有效诊断和图像引导微创手术数量不断增加以及使用率适当增加所致。FDA最近提出的减少医学成像剂量的倡议强调了这一问题。缓解这个问题是复杂的，因为有许多因素，但我们认为，解决方案的一部分是建立X射线成像设备，以显着较低的剂量获取图像。本着这种精神，我们建议在SBIR快速通道应用程序中构建一个低剂量荧光透视系统，该系统具有介入放射学所需的大视野。我们预计，与传统系统相比，在相同的图像质量下，该系统将使患者的入射X射线暴露和辐射剂量减少4倍，职业剂量减少至少2倍。我们，三环技术，已经开发出一种扫描束数字X射线（SBDX）系统，具有小视野的心脏介入，计划于2010年秋季发布。该系统采用了一种新的成像几何结构，具有9,000个焦斑位置的扩展扫描束X射线源和像素化光子计数探测器。从每个焦点位置，X射线束通过X射线准直器投射到检测器上。最终图像由多达9，000个探测器图像组成，以真实的时间重建。SBDX系统在成人患者中的剂量减少了4倍。为了实现扩展的FOV，我们将使用现有的SBDX系统，并用两个横向间隔的探测器取代单个探测器。重要的是，这将需要一个新的X射线准直器，我们确定新准直器的建设是最高的开发风险。我们建议在SBIR快速通道补助金的第1阶段取消此风险。在赠款的第二阶段，我们将建立大FOV系统，并对我们的系统与传统系统进行比较体模研究，以测量入射照射、患者和职业剂量节省。最后，我们将在猪模型中进行观察者研究，以验证与传统系统相比的图像质量。总之，本基金申请建议通过构建和测试低剂量透视系统来降低介入放射学的辐射风险。