Your search keyword '"Bult, W. (author)"' showing total 10 results

1. Intratumoral administration of Holmium-166 Acetylacetonate Microspheres: Antitumor efficacy and feasibility of multimodality imaging in renal cancer

Author

Bult, W. (author), Kroeze, S.G.C. (author), Elschot, M. (author), Seevinck, P.R. (author), Beekman, F.J. (author), De Jong, H.W.A.M. (author), Uges, D.R.A. (author), Kosterink, J.G.W. (author), Luijten, P.R. (author), Hennink, W.E. (author), Bult, W. (author), Kroeze, S.G.C. (author), Elschot, M. (author), Seevinck, P.R. (author), Beekman, F.J. (author), De Jong, H.W.A.M. (author), Uges, D.R.A. (author), Kosterink, J.G.W. (author), Luijten, P.R. (author), and Hennink, W.E. (author)

Abstract

The increasing incidence of small renal tumors in an aging population with comorbidities has stimulated the development of minimally invasive treatments. This study aimed to assess the efficacy and demonstrate feasibility of multimodality imaging of intratumoral administration of holmium-166 microspheres (166HoAcAcMS). This new technique locally ablates renal tumors through high-energy beta particles, while the gamma rays allow for nuclear imaging and the paramagnetism of holmium allows for MRI., Radiation, Radionuclides and Reactors, Applied Sciences

Published

2013

2. Musubi: Middleware for Secure Mobile Collaborative Applications

Author

Bult, W. (author) and Bult, W. (author)

Abstract

As we work more and more while on the go, mobile collaborative applications will play an increasingly important role in our lives. We note that the conventional client/server model for these applications poses several shortcomings. The model is unintuitive and unnecessarily complex. Centralized servers further introduce cost, inflexibility, and concerns about privacy. Musubi is a middleware for mobile collaborative applications based on a top-level peer-to-peer architecture and secure group communication. We demonstrate how a secure messenger application can be built on top of our system. Three diverse case studies in citizen journalism, cross-generational interaction, and computer science education are used to evaluate the middleware. We show that Musubi simplifies the development of collaborative applications. The created applications are transport agnostic and can provide a good user experience while using fully end-to-end encrypted communication., Software Engineering Research Group, Computer Science, Electrical Engineering, Mathematics and Computer Science

Published

2013

3. Musubi: Middleware for Secure Mobile Collaborative Applications

Author

Bult, W. (author) and Bult, W. (author)

Abstract

As we work more and more while on the go, mobile collaborative applications will play an increasingly important role in our lives. We note that the conventional client/server model for these applications poses several shortcomings. The model is unintuitive and unnecessarily complex. Centralized servers further introduce cost, inflexibility, and concerns about privacy. Musubi is a middleware for mobile collaborative applications based on a top-level peer-to-peer architecture and secure group communication. We demonstrate how a secure messenger application can be built on top of our system. Three diverse case studies in citizen journalism, cross-generational interaction, and computer science education are used to evaluate the middleware. We show that Musubi simplifies the development of collaborative applications. The created applications are transport agnostic and can provide a good user experience while using fully end-to-end encrypted communication., Software Engineering Research Group, Computer Science, Electrical Engineering, Mathematics and Computer Science

Published

2013

4. Intratumoral administration of Holmium-166 Acetylacetonate Microspheres: Antitumor efficacy and feasibility of multimodality imaging in renal cancer

Author

Bult, W. (author), Kroeze, S.G.C. (author), Elschot, M. (author), Seevinck, P.R. (author), Beekman, F.J. (author), De Jong, H.W.A.M. (author), Uges, D.R.A. (author), Kosterink, J.G.W. (author), Luijten, P.R. (author), Hennink, W.E. (author), Bult, W. (author), Kroeze, S.G.C. (author), Elschot, M. (author), Seevinck, P.R. (author), Beekman, F.J. (author), De Jong, H.W.A.M. (author), Uges, D.R.A. (author), Kosterink, J.G.W. (author), Luijten, P.R. (author), and Hennink, W.E. (author)

Abstract

The increasing incidence of small renal tumors in an aging population with comorbidities has stimulated the development of minimally invasive treatments. This study aimed to assess the efficacy and demonstrate feasibility of multimodality imaging of intratumoral administration of holmium-166 microspheres (166HoAcAcMS). This new technique locally ablates renal tumors through high-energy beta particles, while the gamma rays allow for nuclear imaging and the paramagnetism of holmium allows for MRI., Radiation, Radionuclides and Reactors, Applied Sciences

Published

2013

5. Radioactive Holmium Acetylacetonate Microspheres for Interstitial Microbrachytherapy: An In Vitro and In Vivo Stability Study

Author

Bult, W. (author), De Leeuw, H. (author), Steinebach, O.M. (author), Van der Bom, M.J. (author), Wolterbeek, H.T. (author), Heeren, R.M.A. (author), Bakker, C.J.G. (author), Van het Schip, A.D. (author), Hennink, W.E. (author), Nijsen, F.W. (author), Bult, W. (author), De Leeuw, H. (author), Steinebach, O.M. (author), Van der Bom, M.J. (author), Wolterbeek, H.T. (author), Heeren, R.M.A. (author), Bakker, C.J.G. (author), Van het Schip, A.D. (author), Hennink, W.E. (author), and Nijsen, F.W. (author)

Abstract

Purpose The clinical application of holmium acetylacetonate microspheres (HoAcAcMS) for the intratumoral radionuclide treatment of solid malignancies requires a thorough understanding of their stability. Therefore, an in vitro and an in vivo stability study with HoAcAcMS was conducted. Methods HoAcAcMS, before and after neutron irradiation, were incubated in a phosphate buffer at 37°C for 6 months. The in vitro release of holmium in this buffer after 6 months was 0.5%. Elemental analysis, scanning electron microscopy, infrared spectroscopy and time of flight secondary ion mass spectrometry were performed on the HoAcAcMS. Results After 4 days in buffer the acetylacetonate ligands were replaced by phosphate, without altering the particle size and surface morphology. HoAcAcMS before and after neutron irradiation were administered intratumorally in VX2 tumor-bearing rabbits. No holmium was detected in the faeces, urine, femur and blood. Histological examination of the tumor revealed clusters of intact microspheres amidst necrotic tissue after 30 days. Conclusion HoAcAcMS are stable both in vitro and in vivo and are suitable for intratumoral radionuclide treatment., Radiation, Radionuclides and Reactors, Applied Sciences

Published

2011

6. Radioactive Holmium Acetylacetonate Microspheres for Interstitial Microbrachytherapy: An In Vitro and In Vivo Stability Study

Author

Bult, W. (author), De Leeuw, H. (author), Steinebach, O.M. (author), Van der Bom, M.J. (author), Wolterbeek, H.T. (author), Heeren, R.M.A. (author), Bakker, C.J.G. (author), Van het Schip, A.D. (author), Hennink, W.E. (author), Nijsen, F.W. (author), Bult, W. (author), De Leeuw, H. (author), Steinebach, O.M. (author), Van der Bom, M.J. (author), Wolterbeek, H.T. (author), Heeren, R.M.A. (author), Bakker, C.J.G. (author), Van het Schip, A.D. (author), Hennink, W.E. (author), and Nijsen, F.W. (author)

Abstract

Purpose The clinical application of holmium acetylacetonate microspheres (HoAcAcMS) for the intratumoral radionuclide treatment of solid malignancies requires a thorough understanding of their stability. Therefore, an in vitro and an in vivo stability study with HoAcAcMS was conducted. Methods HoAcAcMS, before and after neutron irradiation, were incubated in a phosphate buffer at 37°C for 6 months. The in vitro release of holmium in this buffer after 6 months was 0.5%. Elemental analysis, scanning electron microscopy, infrared spectroscopy and time of flight secondary ion mass spectrometry were performed on the HoAcAcMS. Results After 4 days in buffer the acetylacetonate ligands were replaced by phosphate, without altering the particle size and surface morphology. HoAcAcMS before and after neutron irradiation were administered intratumorally in VX2 tumor-bearing rabbits. No holmium was detected in the faeces, urine, femur and blood. Histological examination of the tumor revealed clusters of intact microspheres amidst necrotic tissue after 30 days. Conclusion HoAcAcMS are stable both in vitro and in vivo and are suitable for intratumoral radionuclide treatment., Radiation, Radionuclides and Reactors, Applied Sciences

Published

2011

7. Holmium-166 poly(L-lactic acid) microsphere radioembolisation of the liver: Technical aspects studied in a large animal mode

Author

Vente, M.A.D. (author), De Wit, T.C. (author), Van den Bosch, M.A.A.J. (author), Bult, W. (author), Seevinck, P.R. (author), Zonnenberg, B.A. (author), De Jong, H.W.A.M. (author), Krijger, G.C. (author), Bakker, C.J.G. (author), Van Het Schip, A.D. (author), Nijsen, J.F.W. (author), Vente, M.A.D. (author), De Wit, T.C. (author), Van den Bosch, M.A.A.J. (author), Bult, W. (author), Seevinck, P.R. (author), Zonnenberg, B.A. (author), De Jong, H.W.A.M. (author), Krijger, G.C. (author), Bakker, C.J.G. (author), Van Het Schip, A.D. (author), and Nijsen, J.F.W. (author)

Abstract

Radiation, Radionuclides and Reactors, Applied Sciences

Published

2009

8. Holmium-166 poly(L-lactic acid) microsphere radioembolisation of the liver: Technical aspects studied in a large animal mode

Author

Vente, M.A.D. (author), De Wit, T.C. (author), Van den Bosch, M.A.A.J. (author), Bult, W. (author), Seevinck, P.R. (author), Zonnenberg, B.A. (author), De Jong, H.W.A.M. (author), Krijger, G.C. (author), Bakker, C.J.G. (author), Van Het Schip, A.D. (author), Nijsen, J.F.W. (author), Vente, M.A.D. (author), De Wit, T.C. (author), Van den Bosch, M.A.A.J. (author), Bult, W. (author), Seevinck, P.R. (author), Zonnenberg, B.A. (author), De Jong, H.W.A.M. (author), Krijger, G.C. (author), Bakker, C.J.G. (author), Van Het Schip, A.D. (author), and Nijsen, J.F.W. (author)

Abstract

Radiation, Radionuclides and Reactors, Applied Sciences

Published

2009

9. Microspheres with Ultrahigh Holmium Content for Radioablation of Malignancies

Author

Bult, W. (author), Seevinck, P.R. (author), Krijger, G.C. (author), Visser, T. (author), Kroon-Batenburg, L.M.J. (author), Bakker, C.J.G. (author), Hennink, W.E. (author), Van het Schip, A.D. (author), Nijsen, J.F.W. (author), Bult, W. (author), Seevinck, P.R. (author), Krijger, G.C. (author), Visser, T. (author), Kroon-Batenburg, L.M.J. (author), Bakker, C.J.G. (author), Hennink, W.E. (author), Van het Schip, A.D. (author), and Nijsen, J.F.W. (author)

Abstract

Purpose The aim of this study was to develop microspheres with an ultra high holmium content which can be neutron activated for radioablation of malignancies. These microspheres are proposed to be delivered selectively through either intratumoral injections into solid tumors or administered via an intravascularly placed catheter. Methods Microspheres were prepared by solvent evaporation, using holmium acetylacetonate (HoAcAc) crystals as the sole ingredient. Microspheres were characterized using light and scanning electron microscopy, coulter counter, titrimetry, infrared and Raman spectroscopy, differential scanning calorimetry, X-ray powder diffraction, magnetic resonance imaging (MRI), and X-ray computed tomography (CT). Results Microspheres, thus prepared displayed a smooth surface. The holmium content of the HoAcAc microspheres (44% (w/w)) was higher than the holmium content of the starting material, HoAcAc crystals (33% (w/w)). This was attributed to the loss of acetylacetonate from the HoAcAc complex, during rearrangement of acetylacetonate around the holmium ion. The increase of the holmium content allows for the detection of (sub)microgram amounts of microspheres using MRI and CT. Conclusions HoAcAc microspheres with an ultra-high holmium content were prepared. These microspheres are suitable for radioablation of tumors by intratumoral injections or treatment of liver tumors through transcatheter administration., Radiation, Radionuclides and Reactors, Applied Sciences

10. Microspheres with Ultrahigh Holmium Content for Radioablation of Malignancies

Author

Bult, W. (author), Seevinck, P.R. (author), Krijger, G.C. (author), Visser, T. (author), Kroon-Batenburg, L.M.J. (author), Bakker, C.J.G. (author), Hennink, W.E. (author), Van het Schip, A.D. (author), Nijsen, J.F.W. (author), Bult, W. (author), Seevinck, P.R. (author), Krijger, G.C. (author), Visser, T. (author), Kroon-Batenburg, L.M.J. (author), Bakker, C.J.G. (author), Hennink, W.E. (author), Van het Schip, A.D. (author), and Nijsen, J.F.W. (author)

Abstract

Purpose The aim of this study was to develop microspheres with an ultra high holmium content which can be neutron activated for radioablation of malignancies. These microspheres are proposed to be delivered selectively through either intratumoral injections into solid tumors or administered via an intravascularly placed catheter. Methods Microspheres were prepared by solvent evaporation, using holmium acetylacetonate (HoAcAc) crystals as the sole ingredient. Microspheres were characterized using light and scanning electron microscopy, coulter counter, titrimetry, infrared and Raman spectroscopy, differential scanning calorimetry, X-ray powder diffraction, magnetic resonance imaging (MRI), and X-ray computed tomography (CT). Results Microspheres, thus prepared displayed a smooth surface. The holmium content of the HoAcAc microspheres (44% (w/w)) was higher than the holmium content of the starting material, HoAcAc crystals (33% (w/w)). This was attributed to the loss of acetylacetonate from the HoAcAc complex, during rearrangement of acetylacetonate around the holmium ion. The increase of the holmium content allows for the detection of (sub)microgram amounts of microspheres using MRI and CT. Conclusions HoAcAc microspheres with an ultra-high holmium content were prepared. These microspheres are suitable for radioablation of tumors by intratumoral injections or treatment of liver tumors through transcatheter administration., Radiation, Radionuclides and Reactors, Applied Sciences