Feasibility and clinical value of computed tomography-guided125I brachytherapy for pain palliation in patients with retroperitoneal lymph node metastases

Aims: The aim was to evaluate the feasibility and clinical value of computed tomography (CT)-guided125 I brachytherapy for pain palliation in patients with retroperitoneal lymph node metastases. Materials and Methods: A total of 23 patients with retroperitoneal lymph node metastases and those who had moderate-to-severe pain from January 2014 to December 2018 were enrolled in the study. The primary tumors included pancreatic (n = 12), gastric (n = 4), hepatocellular (n = 4), colorectal (n = 2), and esophageal carcinomas (n= 1). Patients were treated with CT-guided percutaneous125 I brachytherapy during the study. The Brief Pain Inventory-Short Form was used to record and compare pain intensity and interference by pain. Treatment-related complications were also evaluated according to the Radiation Therapy Oncology Group/European Organization for Research and Treatment of Cancer Late Radiation Morbidity Scoring Criteria. Statistical analysis was performed using SPSS software version 22.0 Results: The primary success rate of125 I seed implantation was 95.7% (22 of the 23 patients). As pain evolved, the patients achieved obvious pain palliation ratings for “worst pain” and “average pain” at 72 h and 4 weeks after brachytherapy, respectively, whereas “pain right now” at 12 weeks was significantly relieved after brachytherapy. No serious complications developed during the perioperative period. Conclusions: In the treatment of intractable carcinomatous pain in patients with retroperitoneal lymph node metastases, CT-guided125 I brachytherapy is a feasible and effective modality for pain palliation

Treatment of Bone Metastasis with Bone-Targeting Radiopharmaceuticals / 대한핵의학회잡지

Bone is a common metastatic site of cancer. Bone metastasis reduces life expectancy and results in serious symptoms and complications such as bone pain, pathological fractures, and spinal cord compression, decreasing quality of life by restricting sleep and mobility. Treatment for bone metastasis includes drugs (pure analgesics, hormones, cytotoxic chemotherapy, and bisphosphonates, among others), external radiation therapy, surgery, and radionuclide therapy using bone-targeting radiopharmaceuticals. Particulate radiation with α- or β-rays is used as a bone-targeting radiopharmaceutical in radionuclide therapy. β-Emitters have lower energy and a longer range than α-emitters and have less tumoricidal activity and deliver more radiation to adjacent normal tissue. Therefore, the main therapeutic effect of bone-targeting β-emitters such as ⁸⁹Sr-dichloride is bone pain palliation rather than enhanced survival. In contrast, α-emitters such as ²²³Ra-dichloride have high energy and a short range, resulting in greater tumoricidal activity and less radiation damage to adjacent normal tissue. Treatment with bone-targeting α-emitters can improve survival and decrease bone pain. This review focuses on the principles and clinical utility of several clinically available bone-targeting radiopharmaceuticals in metastatic bone disease.

Pain Palliation in Patients with Bone Metastases Using Magnetic Resonance-Guided Focused Ultrasound with Conformal Bone System: A Preliminary Report

PURPOSE: We evaluated the safety and effectiveness of the Magnetic Resonance-guided Focused Ultrasound (MRgFUS) with the ExAblate Conformal Bone System for the palliation of painful bone metastases. MATERIALS AND METHODS: Our Institutional Review Board approved this study, and all patients gave informed consent prior to enrollment. A total of six painful metastatic bone lesions in five patients were treated using MRgFUS with the ExAblate Conformal Bone System for pain palliation. The follow-up sessions were at 3 days, 2 weeks, 1, 2, and 3 months, and 1 year after treatment. Efficacy was evaluated by the changes in visual analog scale (VAS) scores. At 3-months and 1-year follow-ups, unenhanced computed tomography and contrast-enhanced MR imaging examinations were performed. All adverse events were assessed to evaluate treatment safety. RESULTS: All patients showed significant pain relief within 2 weeks. Two patients experienced complete pain reduction that lasted for 1 year. Two other patients showed pain relief measured as VAS scores of 2 and 4 on their last follow-up. Although the remaining patient had experienced significant pain relief in two lesions, the VAS score re-increased on his last follow-up. The size of the enhancing soft tissue mass in metastatic lesions decreased, and new bone formation was seen on follow-up images. Although adverse events were not serious, non-specific leg pain and second degree skin burn were noted. CONCLUSION: MRgFUS was demonstrated to be effective palliative treatment within 2 weeks in selected patients with painful bone metastases.

Pain Palliation in Patients with Bone Metastases Using Magnetic Resonance-Guided Focused Ultrasound with Conformal Bone System: A Preliminary Report

PURPOSE: We evaluated the safety and effectiveness of the Magnetic Resonance-guided Focused Ultrasound (MRgFUS) with the ExAblate Conformal Bone System for the palliation of painful bone metastases. MATERIALS AND METHODS: Our Institutional Review Board approved this study, and all patients gave informed consent prior to enrollment. A total of six painful metastatic bone lesions in five patients were treated using MRgFUS with the ExAblate Conformal Bone System for pain palliation. The follow-up sessions were at 3 days, 2 weeks, 1, 2, and 3 months, and 1 year after treatment. Efficacy was evaluated by the changes in visual analog scale (VAS) scores. At 3-months and 1-year follow-ups, unenhanced computed tomography and contrast-enhanced MR imaging examinations were performed. All adverse events were assessed to evaluate treatment safety. RESULTS: All patients showed significant pain relief within 2 weeks. Two patients experienced complete pain reduction that lasted for 1 year. Two other patients showed pain relief measured as VAS scores of 2 and 4 on their last follow-up. Although the remaining patient had experienced significant pain relief in two lesions, the VAS score re-increased on his last follow-up. The size of the enhancing soft tissue mass in metastatic lesions decreased, and new bone formation was seen on follow-up images. Although adverse events were not serious, non-specific leg pain and second degree skin burn were noted. CONCLUSION: MRgFUS was demonstrated to be effective palliative treatment within 2 weeks in selected patients with painful bone metastases.

Quality of life improvement in patients diagnosed with hormone refractory prostate cancer with bone metastasis as a result of chemotherapy and the administration of zoledronic acid

Bone metastases occur in patients who have developed prostate cancer, and severely compromise the patient's quality of life. Here, we evaluated the quality of life in our inpatients diagnosed with prostate cancer with multiple bone metastases and bone pain. In our study, we evaluated pain using a pain diary, investigated the palliative effects of opioid dose, and assessed the quality of life using SF-36. The administration of chemotherapy and zoledronic acid (ZA) resulted in pain palliation, an anti tumor effect and improvements in the quality of life. We suggest that the administration of ZA might be an effective clinical strategy for multimodality advanced solid cancer therapy. We conclude that a 'combined' examination, in which a pain diary evaluating pain is considered in association with an SF-36 assessment evaluating quality of life is crucial to patient care. Palliat Care Res 2008 ; 3(2) : 308-315

The role of electron-emitting radiopharmaceuticals in the palliative treatment of metastatic bone pain and for radiosynovectomy: applications of conversion electron emitter Tin-117m

A variety of radionuclides continue to be investigated and/or clinically used for different therapeutic applications in nuclear medicine. The choice of a particular radionuclide with regard to appropriate emissions, linear energy transfer (LET), and physical half-life, etc., is dictated to a large extent by the character of the disease (e.g., solid tumor or metastatic disease), and by the carrier to selectively transport the radionuclide to the desired site. An impressive body of information has appeared in the recent literature that addresses many of these considerations. This article summarizes and discusses the role of high-LET electron emitters and their advantage in the treatment of cancer or for other disorders in specific situations. Areas such as bone pain palliation, bone malignancy therapy, and radiation synovectomy are covered in greater detail. Projections are made as to the future directions and progress in these areas. A discussion of the various issues related to the selection criteria that are useful for choosing the appropriate radionuclide for a particular application is included. Use of high-LET electron emitters is discussed in greater detail, with particular emphasis on the use of conversion electron emitter tin-117m for various therapeutic applications.

Uma variedade de radionuclídeos continua a ser investigada e/ou clinicamente utilizada para diferentes aplicações terapêuticas em medicina nuclear. A escolha de um radionuclídeo, considerando-se sua emissão apropriada, transferência linear de energia (LET) e meia-vida física é determinada na maior parte pelo caráter da doença (p.ex., tumor sólido ou doença metastática), e pelo carreador que transporta o radionuclídeo seletivamente para o sítio desejado. Um notável conjunto de informações voltadas para essas considerações tem aparecido na literatura recente. Esse trabalho resume e discute o papel de emissores de elétrons de alta-LET e sua vantagem no tratamento do câncer ou para outras doenças em situações específicas. Abordagens relacionadas com o alívio da dor óssea, a terapia da doença óssea e a sinovectomia por radiação são apresentadas detalhadamente. Projeções para o futuro e os progressos nessas áreas são indicadas. Uma profunda discussão relacionada aos critérios de seleção que são úteis para escolher o radionuclídeo apropriado para que uma aplicação particular seja incluída. O uso de emissores de elétrons de alta-LET é discutido em grande detalhe, com particular ênfase no uso do estanho-117m, um emissor de elétron de conversão, para várias aplicações terapêuticas.