Non Iterative Methods for 3D SPECT Image Reconstruction

3D SPECT 图像重建的非迭代方法

• 批准号: 6333942
• 负责人: XIAOCHUAN PAN
• 金额: $ 30.93万
• 依托单位: UNIVERSITY OF CHICAGO
• 依托单位国家: 美国
• 财政年份: 1996
• 资助国家: 美国
• 起止时间: 1996-04-01 至 2006-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6333942
• 关键词: bioimaging /biomedical imaging; computer simulation; human data; image processing; method development; phantom model; prostate neoplasms; single photon emission computed tomography

DESCRIPTION (Verbatim from Applicant's Abstract): Single-photon emission computed tomography (SPECT) is playing an increasingly important role in modern medicine for imaging the brain, liver, kidneys, prostate, and other organs. The broad objectives of the project are to develop non-iterative methods for accurate and efficient reconstruction of three-dimensional (3D) images in SPECT and to evaluate these methods in clinical applications. Non-iterative methods for image reconstruction in SPECT are inherently computationally efficient. They are attractive in practice because they avoid problems that plague other methods. Most importantly, they can facilitate a closed-form: analysis of image statistics and aliasing, allowing the development of strategies for optimal suppression of the effects of noise, aliasing, and other errors. The research on non-iterative methods will significantly enhance the ability of SPECT to detect subtle lesions and to quantify accurately physiologic parameters in research and clinical applications. This proposal is intended specifically for further development of non-iterative, statistically optimal, computationally efficient, and numerically robust reconstruction methods in 3D SPECT and for evaluation of these methods in clinical SPECT studies such as In-111 Prostascint SPECT imaging of prostate cancer. We expect that the proposed methods will adequately compensate for the effects of photon attenuation, distance dependent spatial resolution, and data noise. We will apply methods developed by other investigators to compensate for scatter. We believe that our research will significantly strengthen the ability of SPECT for detecting subtle lesions in clinical applications. The specific aims of the proposed research are (1) to fur ther develop non-iterative methods for optimal estimation of the ideal sinogram, (2) to develop adaptive and robust filtering approaches, (3) to investigate and mitigate the effects of additional sources of error, (4) to evaluate the proposed methods using phantom studies, and (5) to evaluate the proposed methods in clinical studies.

描述（来自申请人摘要的逐字）：单光子发射 计算机断层扫描（SPECT）在现代医学中发挥着越来越重要的作用。 用于脑、肝、肾、前列腺和其他器官成像的药物。的 该项目的主要目标是开发非迭代方法， SPECT中三维（3D）图像的准确和有效的重建 并对这些方法的临床应用进行评价。非迭代方法 用于SPECT中的图像重建的方法固有地在计算上是高效的。 它们在实践中很有吸引力，因为它们避免了困扰其他人的问题。 方法.最重要的是，它们可以促进一个封闭的形式：分析图像 统计和别名，允许制定最佳策略， 抑制噪声、混叠和其它误差的影响。研究 非迭代方法将显着提高SPECT的能力， 检测细微病变并准确量化生理参数， 研究和临床应用。 这项建议是专门为了进一步发展 非迭代，统计最优，计算效率高， 3D SPECT中的数值鲁棒重建方法， 临床SPECT研究中的这些方法，例如In-111 Prostascint SPECT 前列腺癌的早期症状我们预计，所提出的方法将充分 补偿光子衰减的影响，距离相关的空间 分辨率和数据噪声。我们将采用其他开发的方法 调查人员补偿散射。我们相信我们的研究将 显着加强SPECT检测细微病变的能力， 临床应用。建议研究的具体目标是：（1） 进一步发展了理想最优估计的非迭代方法 正弦图，（2）开发自适应和鲁棒滤波方法，（3） 调查并减轻额外误差源的影响，（4） 使用体模研究评价所提出的方法，以及（5）评价 在临床研究中提出的方法。