Monte Carlo Calculation of Radioimmunotherapy with 90Y-, 177Lu-, 131I-, 124I-, and 188Re-Nanoobjects: Choice of the Best Radionuclide for Solid Tumour Treatment by Using TCP and NTCP Concepts
Radioimmunotherapy has shown that the use of monoclonal antibodies combined with a radioisotope like 131I or 90Y still remains ineffective for solid and radioresistant tumour treatment. Previous simulations have revealed that an increase in the number of 90Y labelled to each antibody or nanoobject c...
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Hindawi Limited
2015-01-01
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| Series: | Computational and Mathematical Methods in Medicine |
| Online Access: | http://dx.doi.org/10.1155/2015/284360 |
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doaj-0e458324c5874de1bf8a7b719d039b0e2020-11-24T22:37:30ZengHindawi LimitedComputational and Mathematical Methods in Medicine1748-670X1748-67182015-01-01201510.1155/2015/284360284360Monte Carlo Calculation of Radioimmunotherapy with 90Y-, 177Lu-, 131I-, 124I-, and 188Re-Nanoobjects: Choice of the Best Radionuclide for Solid Tumour Treatment by Using TCP and NTCP ConceptsS. Lucas0O. Feron1B. Gallez2B. Masereel3C. Michiels4T. Vander Borght5Research Centre for the Physics of Matter and Radiation (PMR), University of Namur, 61 Rue de Bruxelles, 5000 Namur, BelgiumPharmacology and Therapeutics Unit (FATH), Institute of Experimental and Clinical Research (IREC), Université Catholique de Louvain (UCL), 53 Avenue Mounier, 1200 Brussels, BelgiumBiomedical Magnetic Resonance Group (REMA), Louvain Drug Research Institute, Université Catholique de Louvain (UCL), 73 Avenue Mounier, 1200 Brussels, BelgiumNAmur Research Institute for LIfe Sciences (NARILIS), University of Namur, 61 Rue de Bruxelles, 5000 Namur, BelgiumNAmur Research Institute for LIfe Sciences (NARILIS), University of Namur, 61 Rue de Bruxelles, 5000 Namur, BelgiumNAmur Research Institute for LIfe Sciences (NARILIS), University of Namur, 61 Rue de Bruxelles, 5000 Namur, BelgiumRadioimmunotherapy has shown that the use of monoclonal antibodies combined with a radioisotope like 131I or 90Y still remains ineffective for solid and radioresistant tumour treatment. Previous simulations have revealed that an increase in the number of 90Y labelled to each antibody or nanoobject could be a solution to improve treatment output. It now seems important to assess the treatment output and toxicity when radionuclides such as 90Y, 177Lu, 131I, 124I, and 188Re are used. Tumour control probability (TCP) and normal tissue complication probability (NTCP) curves versus the number of radionuclides per nanoobject were computed with MCNPX to evaluate treatment efficacy for solid tumours and to predict the incidence of surrounding side effects. Analyses were carried out for two solid tumour sizes of 0.5 and 1.0 cm radius and for nanoobject (i.e., a radiolabelled antibody) distributed uniformly or nonuniformly throughout a solid tumour (e.g., Non-small-cell-lung cancer (NSCLC)). 90Y and 188Re are the best candidates for solid tumour treatment when only one radionuclide is coupled to one carrier. Furthermore, regardless of the radionuclide properties, high values of TCP can be reached without toxicity if the number of radionuclides per nanoobject increases.http://dx.doi.org/10.1155/2015/284360 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
S. Lucas O. Feron B. Gallez B. Masereel C. Michiels T. Vander Borght |
| spellingShingle |
S. Lucas O. Feron B. Gallez B. Masereel C. Michiels T. Vander Borght Monte Carlo Calculation of Radioimmunotherapy with 90Y-, 177Lu-, 131I-, 124I-, and 188Re-Nanoobjects: Choice of the Best Radionuclide for Solid Tumour Treatment by Using TCP and NTCP Concepts Computational and Mathematical Methods in Medicine |
| author_facet |
S. Lucas O. Feron B. Gallez B. Masereel C. Michiels T. Vander Borght |
| author_sort |
S. Lucas |
| title |
Monte Carlo Calculation of Radioimmunotherapy with 90Y-, 177Lu-, 131I-, 124I-, and 188Re-Nanoobjects: Choice of the Best Radionuclide for Solid Tumour Treatment by Using TCP and NTCP Concepts |
| title_short |
Monte Carlo Calculation of Radioimmunotherapy with 90Y-, 177Lu-, 131I-, 124I-, and 188Re-Nanoobjects: Choice of the Best Radionuclide for Solid Tumour Treatment by Using TCP and NTCP Concepts |
| title_full |
Monte Carlo Calculation of Radioimmunotherapy with 90Y-, 177Lu-, 131I-, 124I-, and 188Re-Nanoobjects: Choice of the Best Radionuclide for Solid Tumour Treatment by Using TCP and NTCP Concepts |
| title_fullStr |
Monte Carlo Calculation of Radioimmunotherapy with 90Y-, 177Lu-, 131I-, 124I-, and 188Re-Nanoobjects: Choice of the Best Radionuclide for Solid Tumour Treatment by Using TCP and NTCP Concepts |
| title_full_unstemmed |
Monte Carlo Calculation of Radioimmunotherapy with 90Y-, 177Lu-, 131I-, 124I-, and 188Re-Nanoobjects: Choice of the Best Radionuclide for Solid Tumour Treatment by Using TCP and NTCP Concepts |
| title_sort |
monte carlo calculation of radioimmunotherapy with 90y-, 177lu-, 131i-, 124i-, and 188re-nanoobjects: choice of the best radionuclide for solid tumour treatment by using tcp and ntcp concepts |
| publisher |
Hindawi Limited |
| series |
Computational and Mathematical Methods in Medicine |
| issn |
1748-670X 1748-6718 |
| publishDate |
2015-01-01 |
| description |
Radioimmunotherapy has shown that the use of monoclonal antibodies combined with a radioisotope like 131I or 90Y still remains ineffective for solid and radioresistant tumour treatment. Previous simulations have revealed that an increase in the number of 90Y labelled to each antibody or nanoobject could be a solution to improve treatment output. It now seems important to assess the treatment output and toxicity when radionuclides such as 90Y, 177Lu, 131I, 124I, and 188Re are used. Tumour control probability (TCP) and normal tissue complication probability (NTCP) curves versus the number of radionuclides per nanoobject were computed with MCNPX to evaluate treatment efficacy for solid tumours and to predict the incidence of surrounding side effects. Analyses were carried out for two solid tumour sizes of 0.5 and 1.0 cm radius and for nanoobject (i.e., a radiolabelled antibody) distributed uniformly or nonuniformly throughout a solid tumour (e.g., Non-small-cell-lung cancer (NSCLC)). 90Y and 188Re are the best candidates for solid tumour treatment when only one radionuclide is coupled to one carrier. Furthermore, regardless of the radionuclide properties, high values of TCP can be reached without toxicity if the number of radionuclides per nanoobject increases. |
| url |
http://dx.doi.org/10.1155/2015/284360 |
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