Role of Nuclear Medicine in the Diagnosis of Benign Thyroid Diseases.

2区 医学 Q2 Medicine
Sara Garberoglio, O. Testori
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引用次数: 12

Abstract

A deep understanding of thyroid pathophysiology is the basis for diagnosing and treating benign thyroid diseases with radioactive materials, known as radiopharmaceuticals, which are introduced into the body by injection or orally. After the radiotracer administration, the patient becomes the emitting source, and several devices have been studied to detect and capture these emissions (gamma or beta-negative) and transform them into photons, parametric images, numbers and molecular information. Thyroid scintigraphy is the only technique that allows the assessment of thyroid regional function and, therefore, the detection of areas of autonomously functioning thyroid nodules. Scintigraphy visualizes the distribution of active thyroid tissue and displays the differential accumulation of radionuclides in the investigated cells, thus providing a functional map. Moreover, this technique is a fundamental tool in the clinical and surgical management of thyroid diseases, including: single thyroid nodules with a suppressed thyroid-stimulating hormone level, for which fine-needle aspiration biopsy (FNAB) is used to identify hot nodules; multinodular goiters, especially larger ones, to identify cold or indeterminate areas requiring FNAB and hot areas that do not need cytologic evaluation, and to evaluate mediastinal extension; the diagnosis of ectopic thyroid tissue; subclinical hyperthyroidism to identify occult hyperfunctioning tissue; follicular lesions to identify a functioning cellular adenoma that could be benign, although such nodules are mostly cold on scintigraphy; to distinguish low-uptake from high-uptake thyrotoxicosis, and to determine eligibility for radioiodine therapy.
核医学在良性甲状腺疾病诊断中的作用。
深入了解甲状腺病理生理是诊断和治疗良性甲状腺疾病的基础,放射性物质被称为放射性药物,通过注射或口服进入体内。在使用放射性示踪剂后,患者成为发射源,并且已经研究了几种设备来检测和捕获这些发射(γ或β负)并将其转换为光子,参数图像,数字和分子信息。甲状腺闪烁成像是唯一的技术,允许评估甲状腺区域功能,因此,检测自主功能甲状腺结节的区域。闪烁显像显示活跃甲状腺组织的分布,并显示放射性核素在被调查细胞中的差异积累,从而提供功能图。此外,该技术是甲状腺疾病的临床和外科治疗的基本工具,包括:单个甲状腺结节与抑制促甲状腺激素水平,其中细针穿刺活检(FNAB)用于识别热结节;多结节性甲状腺肿,特别是较大的甲状腺肿,以确定需要FNAB的寒冷或不确定区域和不需要细胞学评估的炎热区域,并评估纵隔延伸;异位甲状腺组织的诊断;亚临床甲状腺功能亢进识别隐匿功能亢进组织;滤泡性病变鉴别良性的功能性细胞腺瘤,尽管这种结节在显像上大多是冷的;目的:区分低摄取和高摄取甲状腺毒症,并确定是否适合放射性碘治疗。
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来源期刊
Frontiers of Hormone Research
Frontiers of Hormone Research 医学-内分泌学与代谢
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期刊介绍: A series of integrated overviews on cutting-edge topics New sophisticated technologies and methodological approaches in diagnostics and therapeutics have led to significant improvements in identifying and characterizing an increasing number of medical conditions, which is particularly true for all aspects of endocrine and metabolic dysfunctions. Novel insights in endocrine physiology and pathophysiology allow for new perspectives in clinical management and thus lead to the development of molecular, personalized treatments. In view of this, the active interplay between basic scientists and clinicians has become fundamental, both to provide patients with the most appropriate care and to advance future research.
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