Marriott C J, Cadorette J E, Lecomte R, Scasnar V, Rousseau J, van Lier J E
Department of Nuclear Medicine and Radiobiology, Université de Sherbrooke, Québec, Canada.
J Nucl Med. 1994 Aug;35(8):1390-6.
The feasibility of high-resolution PET using BGO-avalanche photodiode detectors for in vivo imaging and quantitation of the biodistribution of radiopharmaceuticals in small animals is demonstrated. A prototype PET camera consisting of two scanning arrays of eight EG&G C30994 solid-state scintillation detectors was used to simulate a 310-mm diameter dual-ring animal tomograph having a 130-mm port and three imaging slices, each about 3.5 mm thick. The spatial resolution (FWHM) is 3 mm or less, isotropic and uniform throughout the 120-mm diameter field of view.
Female Fischer 344/CRBL rats implanted with subcutaneous mammary adenocarcinoma tumors were injected with copper-tetrasulfophthalocyanine (CuPcS4), a potential sensitizer for the photodynamic therapy of cancer, labeled with 64Cu (T1/2 = 12.7 hr, beta +:19%).
In spite of the low specific radioactivity of 64Cu and other inherent limitations, organs such as the liver, kidneys and the tumor could be resolved with sufficient detail for their separation and quantitation. Apart from the tumor, agreement was obtained between the biodistributions measured by PET and by scintillation counting. The discrepancy for the tumor measurement results from averaging the radioactivity over the entire tumor volume when, in fact, CuPcS4 does not completely penetrate the tumor. This incomplete penetration is noted on the PET images.
PET based on avalanche photodiode detectors provides an accurate measurement of target organ and tumor tissue concentrations. These preliminary results demonstrate the potential of very high resolution PET for biodistribution studies in small animals.
证明了使用BGO雪崩光电二极管探测器进行高分辨率PET用于小动物体内放射性药物生物分布成像和定量的可行性。使用由两个包含八个EG&G C30994固态闪烁探测器的扫描阵列组成的PET相机原型,来模拟一个直径310毫米、具有130毫米端口和三个成像切片(每个切片约3.5毫米厚)的双环动物断层扫描仪。空间分辨率(半高宽)在直径120毫米的视野范围内为3毫米或更小,各向同性且均匀。
给植入皮下乳腺腺癌肿瘤的雌性Fischer 344/CRBL大鼠注射用64Cu(半衰期=12.7小时,β+:19%)标记的铜-四磺基酞菁(CuPcS4),一种癌症光动力治疗的潜在敏化剂。
尽管64Cu的比活度低以及存在其他固有局限性,但肝脏、肾脏和肿瘤等器官仍能得到足够详细的分辨,以便进行分离和定量。除肿瘤外,PET测量的生物分布与闪烁计数测量的结果一致。肿瘤测量的差异源于将整个肿瘤体积内的放射性进行平均,而实际上CuPcS4并未完全穿透肿瘤。这种不完全穿透在PET图像上可见。
基于雪崩光电二极管探测器的PET可准确测量靶器官和肿瘤组织浓度。这些初步结果证明了超高分辨率PET在小动物生物分布研究中的潜力。
