Iodine-131 Weimeisheng: Transforming Advanced Lung Cancer Treatment
By
Iodine-131 Weimeisheng revolutionises advanced lung cancer treatment by combining targeted monoclonal antibody precision with beta radiation for improved outcomes.
By
Radiotherapeutics
Medical radiotherapeutics are a rapidly advancing area of oncology that uses targeted radionuclides to deliver cytotoxic radiation directly to malignant tissue. Alpha emitters, such as actinium-225, emit high-energy, short-range particles, enabling potent tumour cell destruction with minimal impact on surrounding structures. These agents are being developed for prostate, neuroendocrine and brain cancers through receptor- or antibody-based targeting strategies. Beta-emitting radionuclides, including yttrium-90 and lutetium-177, remain central to the treatment of hepatocellular carcinoma, lymphoma, and metastatic prostate disease. Radium-223 has demonstrated value in managing bone metastases, particularly in advanced prostate cancer. By combining molecular specificity with controlled radiation delivery, radiotherapeutics are reshaping cancer care through increasingly precise and personalised treatment approaches.
By
Peptide Receptor Radionuclide Therapy (PRRT): A Breakthrough in Treating Gastroenteropancreatic Neuroendocrine Tumours
By
Peptide Receptor Radionuclide Therapy utilises radiopharmaceuticals to target somatostatin receptor-expressing tumours, improving treatment outcomes significantly.
Advances in Peptide Receptor Radionuclide Therapy for Neuroendocrine Tumours
By
Peptide Receptor Radionuclide Therapy offers a targeted approach to treating neuroendocrine tumours, improving survival rates and quality of life.
Clinical Trials: Advancements in ALSYMPCA, NETTER-1, and VISION Therapies
By
This article reviews key Phase III clinical trials for ALSYMPCA, NETTER-1, and VISION therapies, highlighting advancements in cancer treatment.
Biological Principles of Targeted Radionuclide Therapy for Cancer
By
Targeted Radionuclide Therapy for cancer delivers radioactive isotopes directly to tumour cells, maximising therapeutic effectiveness.
Breakthrough in Adrenal Cancer Diagnosis and Treatment: The Rise of Iodine-131 IMAZA and Iodine-123 IMAZA
By
Iodine-131 IMAZA innovatively binds to adrenal cortex enzymes, revolutionizing the treatment and imaging of adrenocortical carcinoma effectively.
Erbium-169 Citrate: A Revolution in Small Joint Arthritis Treatment
By
The innovative 169Er-Erbium Citrate therapy precisely targets small joints, significantly easing arthritis with minimal side effects.
Precision Cancer Therapy: The Promise of Astatine-211 Parthanatine in High-Risk Neuroblastomas
By
211At-Parthanatine, targeting PARP1 with alpha radiation, promises precise cancer therapy, especially for high-risk neuroblastomas.
Astatine-211 Sodium Astatide: The Next Generation in Thyroid Disease Treatment
By
Astatine-211 Sodium Astatide, evolving thyroid treatment, enters trials, promising enhanced precision and safety over traditional Iodine-131 NaI therapy.
Therapeutic Nuclear Medicine for Advanced Cancer Treatment – Opportunities and Challenges
By
Therapeutic nuclear medicine leverages radionuclides for targeted cancer treatment, facing challenges in delivery, safety, and regulatory compliance.
Actinium-225: The Emerging Star in Targeted Alpha Therapy
By
Actinium-225 is a rare, promising isotope revolutionizing targeted alpha therapy for various resistant cancers.