核医学中的Theranostic——NET的范例。

IF 0.9 4区 医学 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Hellenic journal of nuclear medicine Pub Date : 2023-05-01
Francesco Giammarile
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引用次数: 0

摘要

Theranos是一个新兴的医学领域,将诊断和治疗结合为一种单一的方法。总的来说,治疗学代表了一种很有前途的个性化医学模式,因为它可以根据患者的个体特征进行有针对性的精确治疗。在核医学中,治疗学涉及使用具有诊断和治疗特性的放射性药物。此外,与传统的癌症治疗相比,核医学中的治疗学提供了几个优势。与放射治疗不同,在核医学中,这种治疗是针对原发性肿瘤和转移性病变的系统性治疗,提供了一种更全面的治疗方法。此外,核医学治疗已被证明与传统化疗相比副作用更少,使其成为患者更耐受的治疗选择。虽然核医学中的治疗学仍然是一个相对较新的领域,但它在神经内分泌肿瘤(NETs)的治疗中显示出了有希望的结果。核医学中治疗方法的一个例子是使用放射性标记的生长抑素类似物治疗NETs。生长抑素是一种调节体内其他激素释放的激素。它还与生长抑素受体结合,生长抑素受体在NETs中高度表达。NETs治疗的第一步是使用放射性标记的生长抑素类似物和PET/CT成像对疾病进行诊断和分期。这允许检测肿瘤并评估其大小和位置。一旦肿瘤被鉴定,相同的放射性标记的生长抑素类似物就可以用作治疗剂。这种放射性药物将辐射直接输送到肿瘤细胞,从而摧毁肿瘤细胞,同时保护周围的健康组织。这被称为肽受体放射性核素治疗(PRRT)。在NETs中使用治疗药物还涉及鉴定在肿瘤细胞中表达的特定生长抑素受体亚型。这是重要的,因为不同的生长抑素类似物对不同的受体亚型具有不同的亲和力。通过选择合适的放射性标记的生长抑素类似物,临床医生可以提高治疗的特异性,将辐射输送到肿瘤细胞,同时最大限度地减少对健康组织的损伤。PRRT已被证明对治疗NETs有效,尤其是那些对其他形式的治疗有耐药性的NETs。它还可以与化疗和手术等其他疗法联合使用,以改善疗效。随着研究的继续,核医学中的治疗学很可能会成为对抗癌症的一个越来越重要的工具,特别是在NET的背景下,提供个性化的、有针对性的治疗选择,以改善患者的预后。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theranostic in Nuclear Medicine - The paradigm of NET.

Theranostics is an emerging field in medicine that combines diagnostics and therapeutics into a single approach. Overall, theranostics represents a promising paradigm for personalized medicine, as it allows for targeted and precise treatment based on individual patient characteristics. In nuclear medicine, theranostics involves the use of radiopharmaceuticals that have both diagnostic and therapeutic properties. Moreover, theranostics in nuclear medicine offers several advantages over traditional cancer treatments. Unlike radiotherapy, in nuclear medicine the therapy is systemic that targets both primary tumors and metastatic lesions, offering a more comprehensive treatment approach. Additionally, nuclear medicine therapy has been shown to have fewer side effects compared to traditional chemotherapy, making it a more tolerable treatment option for patients. While theranostics in nuclear medicine is still a relatively new field, it has shown promising results in the treatment of neuroendocrine tumors (NETs). One example of a theranostic approach in nuclear medicine is the use of radiolabeled somatostatin analogs for the treatment of NETs. Somatostatin is a hormone that regulates the release of other hormones in the body. It also binds to somatostatin receptors, which are highly expressed in NETs. The first step in theranostics for NETs is the diagnosis and staging of the disease using a radiolabeled somatostatin analog and PET/CT imaging. This allows for the detection of the tumor and assessment of its size and location. Once the tumor has been identified, the same radiolabeled somatostatin analog can be used as a therapeutic agent. The radiopharmaceutical delivers radiation directly to the tumor cells, which destroys them while sparing surrounding healthy tissue. This is known as peptide receptor radionuclide therapy (PRRT). The use of theranostics in NETs also involves the identification of specific somatostatin receptor subtypes that are expressed in the tumor cells. This is important as different somatostatin analogs have varying affinities for different receptor subtypes. By selecting the appropriate radiolabeled somatostatin analog, clinicians can increase the specificity of the therapy, delivering radiation to the tumor cells while minimizing damage to healthy tissue. PRRT has been shown to be effective in treating NETs, particularly those that are resistant to other forms of treatment. It can also be used in combination with other therapies, such as chemotherapy and surgery, to improve outcomes. As research continues, it is likely that theranostics in nuclear medicine will become an increasingly important tool in the fight against cancer, particularly in the context of NETs, offering personalized, targeted treatment options that improve patient outcomes.

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来源期刊
CiteScore
1.40
自引率
6.70%
发文量
34
审稿时长
>12 weeks
期刊介绍: The Hellenic Journal of Nuclear Medicine published by the Hellenic Society of Nuclear Medicine in Thessaloniki, aims to contribute to research, to education and cover the scientific and professional interests of physicians, in the field of nuclear medicine and in medicine in general. The journal may publish papers of nuclear medicine and also papers that refer to related subjects as dosimetry, computer science, targeting of gene expression, radioimmunoassay, radiation protection, biology, cell trafficking, related historical brief reviews and other related subjects. Original papers are preferred. The journal may after special agreement publish supplements covering important subjects, dully reviewed and subscripted separately.
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