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Ядерная медицина и лучевая терапия

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Объем 14, Проблема 6 (2023)

Мини-статья

Unlocking the Power of Nuclear Medicine in Health and Disease

Edwin Pratt

Nuclear Medicine stands at the forefront of medical innovation, seamlessly blending nuclear physics with diagnostic and therapeutic applications to provide unparalleled insights into the molecular intricacies of health and disease. In the realm of disease diagnosis, Nuclear Medicine emerges as a pivotal player, particularly in cancer imaging, cardiac assessments, bone scans, and thyroid disorders. The use of radiotracers such as fluorodeoxyglucose in PET scans illuminates areas of heightened metabolic activity, enabling precise detection and characterization of tumors. Additionally, Nuclear Medicine contributes to therapeutic breakthroughs, with targeted radiation therapies like Radioactive Iodine Therapy, Radiosynovectomy, and Radioembolization revolutionizing treatment approaches. While Nuclear Medicine has achieved remarkable successes, challenges persist, including concerns about radiation exposure and the need for enhanced radiopharmaceutical production. However, ongoing research into novel radiotracers, advanced imaging technologies, and targeted therapies promises to overcome these obstacles, propelling Nuclear Medicine into a future of unprecedented capabilities. Nuclear Medicine stands as a beacon of innovation, reshaping healthcare by offering personalized and effective diagnostic and therapeutic strategies. As technological advancements continue, Nuclear Medicine is poised to play an increasingly crucial role in understanding, preventing, and treating diseases, ushering in a new era of precision medicine.

Мини-обзор

Radiation Therapy: Precision in Cancer Treatment

Ahmedin Jemal

Cancer remains a formidable adversary in the realm of medicine, affecting millions of lives worldwide. Fortunately, advancements in healthcare have led to the development of increasingly effective treatment modalities, including radiation therapy. Over the years, this powerful technique has evolved significantly, allowing medical professionals to target cancerous cells with precision and innovation. In this article, we explore the principles, techniques, and innovations that make radiation therapy an essential component of modern cancer care.

Мини-обзор

Advancements in Medical Diagnostics: Paving the Way for Precision Healthcare

Andrea Sottoriva

The field of nuclear medicine has revolutionized medical diagnostics by harnessing the power of radioactive tracers. These specialized compounds, also known as radiopharmaceuticals, play a crucial role in understanding the inner workings of the human body, enabling physicians to diagnose a wide range of medical conditions. In this article, we will explore the essential role of radioactive tracers in medical diagnostics and how they are applied in the field of nuclear medicine.

Мини-обзор

Nuclear Medicine: Illuminating the Depths of Medical Diagnosis and Treatment

Emanuela Gadaleta

Nuclear Medicine, at the intersection of technology, physics, and medicine, has redefined the landscape of medical science. This specialized field utilizes minute amounts of radioactive materials, or radiopharmaceuticals, to delve into the molecular intricacies of diseases, transforming the way we diagnose and treat various medical conditions. This article explores the fundamental principles of Nuclear Medicine, highlighting its diagnostic and therapeutic applications, imaging techniques such as Single Photon Emission Computed Tomography (SPECT) and Positron Emission Tomography (PET), and its vital role in cancer imaging, cardiac assessments, bone scans, and thyroid disorders. The therapeutic realm of Nuclear Medicine extends beyond diagnostics, employing targeted therapies like Radioactive Iodine Therapy, Radiosynovectomy, and Radioembolization to deliver precise treatment at the molecular level. While the field has made significant strides, challenges persist, including concerns about radiation exposure and the accessibility of radiopharmaceutical production. Looking ahead, the future of Nuclear Medicine holds promise with ongoing research into new radiotracers, advanced imaging technologies, and personalized therapeutic approaches. As molecular imaging and personalized medicine continue to evolve, the precision and efficacy of Nuclear Medicine applications are expected to reach new heights.

История болезни

Bao Zhang

We present a case of a 46-year-old female who was hospitalized with a 20-day history of irregular vaginal bleeding after menopause. Laboratory tests of tumor markers revealed negativity for carcinoma embryonic antigen (CEA) and carbohydrate antigen 125(CA125). Transvaginal ultrasound showed a hypoechoic mass in the cervix uterus. Fluorine-18-Cuorodeoxyglucose positron emission tomography/computed tomography (18F-FDG PET/CT) revealed a significantly enlarged cervix with an intense metabolic signal due to uptake of 18F-FDG. The patient was negative for systemic FDG metabolism in the lymph nodes and bone marrow. The subsequent histopathologic examination confirmed the diagnosis of primary diffuse large B-Cell lymphoma non-germinal centerB-cell-like (DLBCL-NGCB) of the cervix.

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