Assessment of the axial resolution of a compact gamma camera with coded aperture collimator.

IF 3 2区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING EJNMMI Physics Pub Date : 2024-03-21 DOI:10.1186/s40658-024-00631-5
Tobias Meißner, Laura Antonia Cerbone, Paolo Russo, Werner Nahm, Jürgen Hesser
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Abstract

Purpose: Handheld gamma cameras with coded aperture collimators are under investigation for intraoperative imaging in nuclear medicine. Coded apertures are a promising collimation technique for applications such as lymph node localization due to their high sensitivity and the possibility of 3D imaging. We evaluated the axial resolution and computational performance of two reconstruction methods.

Methods: An experimental gamma camera was set up consisting of the pixelated semiconductor detector Timepix3 and MURA mask of rank 31 with round holes of 0.08 mm in diameter in a 0.11 mm thick Tungsten sheet. A set of measurements was taken where a point-like gamma source was placed centrally at 21 different positions within the range of 12-100 mm. For each source position, the detector image was reconstructed in 0.5 mm steps around the true source position, resulting in an image stack. The axial resolution was assessed by the full width at half maximum (FWHM) of the contrast-to-noise ratio (CNR) profile along the z-axis of the stack. Two reconstruction methods were compared: MURA Decoding and a 3D maximum likelihood expectation maximization algorithm (3D-MLEM).

Results: While taking 4400 times longer in computation, 3D-MLEM yielded a smaller axial FWHM and a higher CNR. The axial resolution degraded from 5.3 mm and 1.8 mm at 12 mm to 42.2 mm and 13.5 mm at 100 mm for MURA Decoding and 3D-MLEM respectively.

Conclusion: Our results show that the coded aperture enables the depth estimation of single point-like sources in the near field. Here, 3D-MLEM offered a better axial resolution but was computationally much slower than MURA Decoding, whose reconstruction time is compatible with real-time imaging.

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评估带有编码孔径准直器的紧凑型伽马相机的轴向分辨率。
目的:配备编码孔径准直器的手持式伽马相机正在用于核医学的术中成像研究。编码孔径因其高灵敏度和三维成像的可能性,在淋巴结定位等应用中是一种很有前途的准直技术。我们评估了两种重建方法的轴向分辨率和计算性能:伽马相机的实验装置包括像素化半导体探测器 Timepix3 和等级为 31 的 MURA 掩膜,掩膜在 0.11 毫米厚的钨片上开有直径为 0.08 毫米的圆孔。测量时,在 12 至 100 毫米范围内的 21 个不同位置中心放置了一个点状伽马源。在每个伽马源位置上,探测器图像以 0.5 毫米为单位在真实伽马源位置周围进行重建,形成图像堆栈。轴向分辨率是通过沿堆栈 Z 轴的对比度-噪声比(CNR)曲线的半最大值全宽(FWHM)来评估的。比较了两种重建方法:结果:结果:3D-MLEM 的计算时间延长了 4400 倍,但轴向 FWHM 更小,CNR 更高。MURA 解码和 3D-MLEM 的轴向分辨率分别从 12 毫米时的 5.3 毫米和 1.8 毫米下降到 100 毫米时的 42.2 毫米和 13.5 毫米:我们的研究结果表明,编码光圈能够在近场对单个点状光源进行深度估计。在这里,3D-MLEM 提供了更好的轴向分辨率,但计算速度比 MURA 解码慢得多,而 MURA 解码的重建时间与实时成像相匹配。
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来源期刊
EJNMMI Physics
EJNMMI Physics Physics and Astronomy-Radiation
CiteScore
6.70
自引率
10.00%
发文量
78
审稿时长
13 weeks
期刊介绍: EJNMMI Physics is an international platform for scientists, users and adopters of nuclear medicine with a particular interest in physics matters. As a companion journal to the European Journal of Nuclear Medicine and Molecular Imaging, this journal has a multi-disciplinary approach and welcomes original materials and studies with a focus on applied physics and mathematics as well as imaging systems engineering and prototyping in nuclear medicine. This includes physics-driven approaches or algorithms supported by physics that foster early clinical adoption of nuclear medicine imaging and therapy.
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