scholarly journals Development of an MRI-Guided Approach to Selective Internal Radiation Therapy Using Holmium-166 Microspheres

Cancers ◽  
2021 ◽  
Vol 13 (21) ◽  
pp. 5462
Author(s):  
Joey Roosen ◽  
Mark J. Arntz ◽  
Marcel J. R. Janssen ◽  
Sytse F. de Jong ◽  
Jurgen J. Fütterer ◽  
...  

Selective internal radiation therapy (SIRT) is a treatment modality for liver tumours during which radioactive microspheres are injected into the hepatic arterial tree. Holmium-166 (166Ho) microspheres used for SIRT can be visualized and quantified with MRI, potentially allowing for MRI guidance during SIRT. The purpose of this study was to investigate the MRI compatibility of two angiography catheters and a microcatheter typically used for SIRT, and to explore the detectability of 166Ho microspheres in a flow phantom using near real-time MRI. MR safety tests were performed at a 3 T MRI system according to American Society for Testing of Materials standard test methods. To assess the near real-time detectability of 166Ho microspheres, a flow phantom was placed in the MRI bore and perfused using a peristaltic pump, simulating the flow in the hepatic artery. Dynamic MR imaging was performed using a 2D FLASH sequence during injection of different concentrations of 166Ho microspheres. In the safety assessment, no significant heating (ΔTmax 0.7 °C) was found in any catheter, and no magnetic interaction was found in two out of three of the used catheters. Near real-time MRI visualization of 166Ho microsphere administration was feasible and depended on holmium concentration and vascular flow speed. Finally, we demonstrate preliminary imaging examples on the in vivo catheter visibility and near real-time imaging during 166Ho microsphere administration in an initial patient case treated with SIRT in a clinical 3 T MRI. These results support additional research to establish the feasibility and safety of this procedure in vivo and enable the further development of a personalized MRI-guided approach to SIRT.

Author(s):  
Hugo Levillain ◽  
Oreste Bagni ◽  
Christophe M. Deroose ◽  
Arnaud Dieudonné ◽  
Silvano Gnesin ◽  
...  

Abstract Purpose A multidisciplinary expert panel convened to formulate state-of-the-art recommendations for optimisation of selective internal radiation therapy (SIRT) with yttrium-90 (90Y)-resin microspheres. Methods A steering committee of 23 international experts representing all participating specialties formulated recommendations for SIRT with 90Y-resin microspheres activity prescription and post-treatment dosimetry, based on literature searches and the responses to a 61-question survey that was completed by 43 leading experts (including the steering committee members). The survey was validated by the steering committee and completed anonymously. In a face-to-face meeting, the results of the survey were presented and discussed. Recommendations were derived and level of agreement defined (strong agreement ≥ 80%, moderate agreement 50%–79%, no agreement ≤ 49%). Results Forty-seven recommendations were established, including guidance such as a multidisciplinary team should define treatment strategy and therapeutic intent (strong agreement); 3D imaging with CT and an angiography with cone-beam-CT, if available, and 99mTc-MAA SPECT/CT are recommended for extrahepatic/intrahepatic deposition assessment, treatment field definition and calculation of the 90Y-resin microspheres activity needed (moderate/strong agreement). A personalised approach, using dosimetry (partition model and/or voxel-based) is recommended for activity prescription, when either whole liver or selective, non-ablative or ablative SIRT is planned (strong agreement). A mean absorbed dose to non-tumoural liver of 40 Gy or less is considered safe (strong agreement). A minimum mean target-absorbed dose to tumour of 100–120 Gy is recommended for hepatocellular carcinoma, liver metastatic colorectal cancer and cholangiocarcinoma (moderate/strong agreement). Post-SIRT imaging for treatment verification with 90Y-PET/CT is recommended (strong agreement). Post-SIRT dosimetry is also recommended (strong agreement). Conclusion Practitioners are encouraged to work towards adoption of these recommendations.


1989 ◽  
Vol 25 (10) ◽  
pp. 1487-1491 ◽  
Author(s):  
Mark A. Burton ◽  
Bruce N. Gray ◽  
Peter F. Klemp ◽  
Debra K. Kelleher ◽  
Natalie Hardy

Author(s):  
Silvia Coretti ◽  
Filippo Rumi ◽  
Dario Sacchini ◽  
Americo Cicchetti

Selective internal radiation therapy is a form of intra-arterial brachytherapy used to treat primary liver cancer and liver metastases. This article aims to provide an overview of the clinical, economic, organizational legal, social and ethical impact of selective internal radiation therapy using SIR-Spheres Y-90 resin microspheres in the treatment of patients with unresectable, liver-dominant metastatic colorectal cancer who are refractory to or intolerant of chemotherapy. A systematic literature review was performed by querying PubMed, Scopus, EBSCO, CRD and GIN. Two reviewers blindly screened the records retrieved against predefined inclusion/exclusion criteria. The selected studies where summarized following a simplified version of the EuNetHTA Core Model® 2.1. The studies included evaluated selective internal radiation therapy in first-line or further-line treatment and showed a good safety and tolerability profile and significant improvement in efficacy expressed as time to liver progression, progression-free survival and overall survival. Selective internal radiation therapy should be provided in specialized centres and administered by a multidisciplinary team. A hub-and-spoke network could be a viable option to guarantee access to this technology across jurisdictions. The lack of a specific diagnosis-related group tariff accounting for the cost of the device could be seen as the major obstacle to a fair diffusion of this technology. The economic evaluations currently available show the cost-effectiveness of this technology in the population under study. Selective internal radiation therapy using SIR-Spheres Y-90 resin microspheres appears to be a clinically effective and cost-effective option in the treatment of metastatic colorectal cancer patients who are chemotherapy refractory or chemotherapy intolerant.


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