Your search keyword '"Nijsen JF"' showing total 13 results

1. In vivo dosimetry based on SPECT and MR imaging of 166Ho-microspheres for treatment of liver malignancies.

Author

Smits ML, Elschot M, van den Bosch MA, van de Maat GH, van het Schip AD, Zonnenberg BA, Seevinck PR, Verkooijen HM, Bakker CJ, de Jong HW, Lam MG, and Nijsen JF

Subjects

Adult, Aged, Aged, 80 and over, Embolization, Therapeutic adverse effects, Female, Holmium adverse effects, Humans, Lactic Acid chemistry, Liver radiation effects, Liver Neoplasms diagnostic imaging, Male, Middle Aged, Multimodal Imaging, Polyesters, Polymers chemistry, Radiometry, Safety, Holmium chemistry, Holmium therapeutic use, Liver Neoplasms diagnosis, Liver Neoplasms therapy, Magnetic Resonance Imaging, Microspheres, Tomography, Emission-Computed, Single-Photon

Abstract

Unlabelled: (166)Ho-poly(l-lactic acid) microspheres allow for quantitative imaging with MR imaging or SPECT for microsphere biodistribution assessment after radioembolization. The purpose of this study was to evaluate SPECT- and MR imaging-based dosimetry in the first patients treated with (166)Ho radioembolization., Methods: Fifteen patients with unresectable, chemorefractory liver metastases of any origin were enrolled in this phase 1 study and were treated with (166)Ho radioembolization according to a dose escalation protocol (20-80 Gy). The contours of all liver segments and all discernible tumors were manually delineated on T2-weighted posttreatment MR images and registered to the posttreatment SPECT images (n = 9) or SPECT/CT images (n = 6) and MR imaging-based R2* maps (n = 14). Dosimetry was based on SPECT (n = 15) and MR imaging (n = 9) for all volumes of interest, tumor-to-nontumor (T/N) activity concentration ratios were calculated, and correlation and agreement of MR imaging- and SPECT-based measurements were evaluated., Results: The median overall T/N ratio was 1.4 based on SPECT (range, 0.9-2.8) and 1.4 based on MR imaging (range, 1.1-3.1). In 6 of 15 patients (40%), all tumors had received an activity concentration equal to or higher than the normal liver (T/N ratio ≥ 1). Analysis of SPECT and MR imaging measurements for dose to liver segments yielded a high correlation (R(2) = 0.91) and a moderate agreement (mean bias, 3.7 Gy; 95% limits of agreement, -11.2 to 18.7)., Conclusion: With the use of (166)Ho-microspheres, in vivo dosimetry is feasible on the basis of both SPECT and MR imaging, which enables personalized treatment by selective targeting of inadequately treated tumors.

Published

2013

2. 99mTc-macroaggregated albumin poorly predicts the intrahepatic distribution of 90Y resin microspheres in hepatic radioembolization.

Author

Wondergem M, Smits ML, Elschot M, de Jong HW, Verkooijen HM, van den Bosch MA, Nijsen JF, and Lam MG

Subjects

Adult, Aged, Female, Humans, Liver diagnostic imaging, Male, Middle Aged, Retrospective Studies, Tomography, Emission-Computed, Single-Photon, Yttrium Radioisotopes chemistry, Yttrium Radioisotopes therapeutic use, Embolization, Therapeutic, Liver metabolism, Liver radiation effects, Microspheres, Resins, Synthetic chemistry, Technetium Tc 99m Aggregated Albumin

Abstract

Unlabelled: In hepatic (90)Y radioembolization, pretreatment (99m)Tc-macroaggregated albumin ((99m)Tc-MAA) nuclear imaging is used for lung shunt analysis, evaluation of extrahepatic deposition, and sometimes for treatment planning, using a partition model. A high level of agreement between pretreatment (99m)Tc-MAA distribution and final (90)Y-microsphere distribution is assumed. The aim of this study was to investigate the value of pretreatment (99m)Tc-MAA SPECT to predict intrahepatic posttreatment (90)Y-microsphere distribution., Methods: Volumes of interest (VOIs) were delineated on pretreatment contrast-enhanced CT or MR images according to Couinaud liver segmentation. All VOIs were registered to the (99m)Tc-MAA SPECT and (90)Y SPECT images. The (99m)Tc-MAA SPECT and (90)Y SPECT activity counts were normalized to the total administered activity of (90)Y. For each VOI, this practice resulted in a predictive amount of (90)Y (MBq/cm(3)) based on (99m)Tc-MAA SPECT in comparison with an actual amount of (90)Y based on (90)Y SPECT. Bland-Altman analysis was used to investigate the agreement of the activity distribution between (99m)Tc-MAA SPECT and (90)Y SPECT., Results: A total of 39 procedures (225 VOIs) in 31 patients were included for analysis. The overall mean difference between pretreatment and posttreatment distribution of activity concentration for all segments was -0.022 MBq/cm(3) with 95% limits of agreement of -0.581 to 0.537 MBq/cm(3) (-28.9 to 26.7 Gy absorbed dose). A difference of >10%, >20%, and >30% of the mean activity per milliliter was found in, respectively, 153 (68%), 97 (43%), and 72 (32%) of the 225 segments. In every (99m)Tc-MAA procedure, at least 1 segment showed an under- or overestimation of >10%. The position of the catheter tip during administrations, as well as the tumor load of the liver segments, significantly influenced the disagreement., Conclusion: In current clinical practice, (99m)Tc-MAA distribution does not accurately predict final (90)Y activity distribution. Awareness of the importance of catheter positioning and adherence to specific recommendations may lead to optimization of individualized treatment planning based on pretreatment imaging.

Published

2013

3. Clinical and laboratory toxicity after intra-arterial radioembolization with (90)y-microspheres for unresectable liver metastases.

Author

Smits ML, van den Hoven AF, Rosenbaum CE, Zonnenberg BA, Lam MG, Nijsen JF, Koopman M, and van den Bosch MA

Subjects

Aged, Colorectal Neoplasms complications, Colorectal Neoplasms mortality, Colorectal Neoplasms radiotherapy, Female, Humans, Kaplan-Meier Estimate, Liver Neoplasms mortality, Male, Microspheres, Middle Aged, Neuroendocrine Tumors complications, Neuroendocrine Tumors mortality, Neuroendocrine Tumors radiotherapy, Retrospective Studies, Liver Neoplasms radiotherapy, Liver Neoplasms secondary, Yttrium Radioisotopes adverse effects, Yttrium Radioisotopes therapeutic use

Abstract

Objective: To investigate clinical and laboratory toxicity in patients with unresectable liver metastases, treated with yttrium-90 radioembolization ((90)Y-RE)., Methods: Patients with liver metastases treated with (90)Y-RE, between February 1(st) 2009 and March 31(st) 2012, were included in this study. Clinical toxicity assessment was based on the reporting in patient's charts. Laboratory investigations at baseline and during a four-month follow-up were used to assess laboratory toxicity according to the Common Terminology Criteria for Adverse Events version 4.02. The occurrence of grade 3-4 laboratory toxicity was stratified according to treatment strategy (whole liver treatment in one session versus sequential sessions). Response assessment was performed at the level of target lesions, whole liver and overall response in accordance with RECIST 1.1 at 3- and 6 months post-treatment. Median time to progression (TTP) and overall survival were calculated by Kaplan-Meier analysis., Results: A total of 59 patients, with liver metastases from colorectal cancer (n = 30), neuroendocrine tumors (NET) (n = 6) and other primary tumors (n = 23) were included. Clinical toxicity after (90)Y-RE treatment was confined to grade 1-2 events, predominantly post-embolization symptoms. No grade 3-4 clinical toxicity was observed, whereas laboratory toxicity grade 3-4 was observed in 38% of patients. Whole liver treatment in one session was not associated with increased laboratory toxicity. Three-months disease control rates for target lesions, whole liver and overall response were 35%, 21% and 19% respectively. Median TTP was 6.2 months for target lesions, 3.3 months for the whole liver and 3.0 months for overall response. Median overall survival was 8.9 months., Conclusion: The risk of severe complications or grade 3-4 clinical toxicity in patients with liver metastases of various primary tumors undergoing (90)Y-RE is low. In contrast, laboratory toxicity grade 3-4 can be expected to occur in more than one-third of patients without any clinical signs of radiation induced liver disease.

Published

2013

4. Alginate-lanthanide microspheres for MRI-guided embolotherapy.

Author

Oerlemans C, Seevinck PR, van de Maat GH, Boulkhrif H, Bakker CJ, Hennink WE, and Nijsen JF

Subjects

Animals, Glucuronic Acid chemistry, Hexuronic Acids chemistry, Liver, Microscopy, Electron, Scanning, Rabbits, Swine, Alginates chemistry, Embolization, Therapeutic methods, Lanthanoid Series Elements chemistry, Magnetic Resonance Imaging methods, Microspheres

Abstract

In cancer therapy, a promising treatment option to accomplish a high tumor-to-normal-tissue ratio is endovascular intervention with microsized particles, such as embolotherapy. In this study, alginate microspheres (ams) were prepared with the JetCutter technique, which is based on cutting a sodium alginate solution jet stream into small droplets of uniform size which are then cross-linked with different lanthanides or iron-III, resulting in microspheres of a predefined size which can be visualized by magnetic resonance imaging (MRI). The microspheres were investigated for their size and morphology (light microscopy and scanning electron microscopy analysis), cation content and MRI properties. The lanthanide-ams formulations, with a uniform size of 250 μm and a cation content between 0.72-0.94%, showed promising results for MR imaging. This was further demonstrated for Ho(3+)-cross-linked alginate microspheres (Ho(3+)-ams), the most potent microsphere formulation with respect to MR visualization, allowing single sphere detection and detailed microsphere distribution examination. Intravascular infusion of Ho(3+)-ams by catherization of ex vivo rabbit and porcine liver tissue and assessment of the procedure with MRI clearly showed accumulation and subsequently embolization of the targeted vessels, allowing accurate monitoring of the microsphere biodistribution throughout the tissue. Therefore, the different alginate-lanthanide microsphere formulations developed in this study show great potential for utilization as image-guided embolotherapy agents., (Copyright © 2012 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published

2013

5. Intratumoral administration of holmium-166 acetylacetonate microspheres: antitumor efficacy and feasibility of multimodality imaging in renal cancer.

Author

Bult W, Kroeze SG, Elschot M, Seevinck PR, Beekman FJ, de Jong HW, Uges DR, Kosterink JG, Luijten PR, Hennink WE, van het Schip AD, Bosch JL, Nijsen JF, and Jans JJ

Subjects

Animals, Antineoplastic Agents therapeutic use, Feasibility Studies, Holmium therapeutic use, Hydroxybutyrates administration & dosage, Kidney Neoplasms diagnosis, Magnetic Resonance Imaging, Male, Mice, Mice, Inbred BALB C, Microspheres, Multimodal Imaging, Organometallic Compounds administration & dosage, Organometallic Compounds therapeutic use, Pentanones administration & dosage, Positron-Emission Tomography, Radioisotopes therapeutic use, Tomography, X-Ray Computed, Tumor Cells, Cultured, Antineoplastic Agents administration & dosage, Holmium administration & dosage, Kidney Neoplasms diagnostic imaging, Kidney Neoplasms radiotherapy, Radioisotopes administration & dosage, Radiopharmaceuticals administration & dosage

Abstract

Purpose: 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 ((166)HoAcAcMS). 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., Methods: (166)HoAcAcMS were administered intratumorally in orthotopic renal tumors (Balb/C mice). Post administration CT, SPECT and MRI was performed. At several time points (2 h, 1, 2, 3, 7 and 14 days) after MS administration, tumors were measured and histologically analyzed. Holmium accumulation in organs was measured using inductively coupled plasma mass spectrometry., Results: (166)HoAcAcMS were successfully administered to tumor bearing mice. A striking near-complete tumor-control was observed in (166)HoAcAcMS treated mice (0.10±0.01 cm(3) vs. 4.15±0.3 cm(3) for control tumors). Focal necrosis and inflammation was present from 24 h following treatment. Renal parenchyma outside the radiated region showed no histological alterations. Post administration CT, MRI and SPECT imaging revealed clear deposits of (166)HoAcAcMS in the kidney., Conclusions: Intratumorally administered (166)HoAcAcMS has great potential as a new local treatment of renal tumors for surgically unfit patients. In addition to strong cancer control, it provides powerful multimodality imaging opportunities.

Published

2013

6. Transendocardial cell injection is not superior to intracoronary infusion in a porcine model of ischaemic cardiomyopathy: a study on delivery efficiency.

Author

van der Spoel TI, Vrijsen KR, Koudstaal S, Sluijter JP, Nijsen JF, de Jong HW, Hoefer IE, Cramer MJ, Doevendans PA, van Belle E, and Chamuleau SA

Subjects

Animals, Coronary Circulation physiology, Disease Models, Animal, Female, Infusions, Parenteral, Injections, Myocardial Ischemia surgery, Random Allocation, Sus scrofa, Mesenchymal Stem Cell Transplantation methods, Myocardial Ischemia therapy

Abstract

Stem cell therapy is a new strategy for chronic ischaemic heart disease in patients. However, no consensus exists on the most optimal delivery strategy. This randomized study was designed to assess cell delivery efficiency of three clinically relevant strategies: intracoronary (IC) and transendocardial (TE) using electromechanical mapping guidance (NOGA) compared to surgical delivery in a chronic pig model of ischaemic cardiomyopathy. Twenty-four animals underwent delivery of 10(7) autologous Indium-oxine-labelled bone marrow-derived mesenchymal stem cells (MSC) 4 weeks after infarction and were randomized to one of three groups (n = 8 each group): IC, TE or surgical delivery (reference group). Primary endpoint was defined as percentage (%) of injected dose per organ and assessed by in vivo gamma-emission counting. In addition, troponin and coronary flow were assessed before and after MSC injection. Blinded endpoint analysis showed no significant difference in efficiency after surgical (16 ± 4%), IC (11 ± 1%) and TE (11 ± 3%) (P = 0.52) injections. IC showed less variability in efficiency compared with TE and surgical injection. Overall, TE injection showed less distribution of MSC to visceral organs compared with other modalities. Troponin rise and IC flow did not differ between the percutaneous groups. This randomized study showed no significant difference in cell delivery efficiency to the myocardium in a clinically relevant ischaemic large animal model between IC and TE delivery. In addition, no differences in safety profile were observed. These results are important in view of the choice of percutaneous cell delivery modality in future clinical stem cell trials., (© 2012 The Authors Journal of Cellular and Molecular Medicine © 2012 Foundation for Cellular and Molecular Medicine/Blackwell Publishing Ltd.)

Published

2012

7. Quantitative evaluation of scintillation camera imaging characteristics of isotopes used in liver radioembolization.

Author

Elschot M, Nijsen JF, Dam AJ, and de Jong HW

Subjects

Humans, Monte Carlo Method, Phantoms, Imaging, Embolization, Therapeutic, Gamma Cameras, Isotopes, Liver metabolism, Radiopharmaceuticals metabolism

Abstract

Background: Scintillation camera imaging is used for treatment planning and post-treatment dosimetry in liver radioembolization (RE). In yttrium-90 (90Y) RE, scintigraphic images of technetium-99m (99mTc) are used for treatment planning, while 90Y Bremsstrahlung images are used for post-treatment dosimetry. In holmium-166 (166Ho) RE, scintigraphic images of 166Ho can be used for both treatment planning and post-treatment dosimetry. The aim of this study is to quantitatively evaluate and compare the imaging characteristics of these three isotopes, in order that imaging protocols can be optimized and RE studies with varying isotopes can be compared., Methodology/principal Findings: Phantom experiments were performed in line with NEMA guidelines to assess the spatial resolution, sensitivity, count rate linearity, and contrast recovery of 99mTc, 90Y and 166Ho. In addition, Monte Carlo simulations were performed to obtain detailed information about the history of detected photons. The results showed that the use of a broad energy window and the high-energy collimator gave optimal combination of sensitivity, spatial resolution, and primary photon fraction for 90Y Bremsstrahlung imaging, although differences with the medium-energy collimator were small. For 166Ho, the high-energy collimator also slightly outperformed the medium-energy collimator. In comparison with 99mTc, the image quality of both 90Y and 166Ho is degraded by a lower spatial resolution, a lower sensitivity, and larger scatter and collimator penetration fractions., Conclusions/significance: The quantitative evaluation of the scintillation camera characteristics presented in this study helps to optimize acquisition parameters and supports future analysis of clinical comparisons between RE studies.

Published

2011

8. Microspheres for radioembolization of liver malignancies.

Author

Vente MA, Zonnenberg BA, and Nijsen JF

Subjects

Angiography, Animals, Dose-Response Relationship, Radiation, Embolization, Therapeutic adverse effects, Humans, Magnetic Resonance Imaging, Rabbits, Yttrium Radioisotopes adverse effects, Embolization, Therapeutic methods, Liver Neoplasms radiotherapy, Microspheres

Published

2010

9. Holmium-166 radioembolization for the treatment of patients with liver metastases: design of the phase I HEPAR trial.

Author

Smits ML, Nijsen JF, van den Bosch MA, Lam MG, Vente MA, Huijbregts JE, van het Schip AD, Elschot M, Bult W, de Jong HW, Meulenhoff PC, and Zonnenberg BA

Subjects

Follow-Up Studies, Humans, Liver Neoplasms diagnostic imaging, Microspheres, Prognosis, Radionuclide Imaging, Research Design, Technetium Tc 99m Aggregated Albumin therapeutic use, Yttrium Radioisotopes, Embolization, Therapeutic, Holmium therapeutic use, Liver Neoplasms radiotherapy, Liver Neoplasms secondary, Radiopharmaceuticals therapeutic use

Abstract

Background: Intra-arterial radioembolization with yttrium-90 microspheres ( 90Y-RE) is an increasingly used therapy for patients with unresectable liver malignancies. Over the last decade, radioactive holmium-166 poly(L-lactic acid) microspheres ( 166Ho-PLLA-MS) have been developed as a possible alternative to 90Y-RE. Next to high-energy beta-radiation, 166Ho also emits gamma-radiation, which allows for imaging by gamma scintigraphy. In addition, Ho is a highly paramagnetic element and can therefore be visualized by MRI. These imaging modalities are useful for assessment of the biodistribution, and allow dosimetry through quantitative analysis of the scintigraphic and MR images. Previous studies have demonstrated the safety of 166Ho-PLLA-MS radioembolization ( 166Ho-RE) in animals. The aim of this phase I trial is to assess the safety and toxicity profile of 166Ho-RE in patients with liver metastases., Methods: The HEPAR study (Holmium Embolization Particles for Arterial Radiotherapy) is a non-randomized, open label, safety study. We aim to include 15 to 24 patients with liver metastases of any origin, who have chemotherapy-refractory disease and who are not amenable to surgical resection. Prior to treatment, in addition to the standard technetium-99m labelled macroaggregated albumin ( 99mTc-MAA) dose, a low radioactive safety dose of 60-mg 166Ho-PLLA-MS will be administered. Patients are treated in 4 cohorts of 3-6 patients, according to a standard dose escalation protocol (20 Gy, 40 Gy, 60 Gy, and 80 Gy, respectively). The primary objective will be to establish the maximum tolerated radiation dose of 166Ho-PLLA-MS. Secondary objectives are to assess tumour response, biodistribution, performance status, quality of life, and to compare the 166Ho-PLLA-MS safety dose and the 99mTc-MAA dose distributions with respect to the ability to accurately predict microsphere distribution., Discussion: This will be the first clinical study on 166Ho-RE. Based on preclinical studies, it is expected that 166Ho-RE has a safety and toxicity profile comparable to that of 90Y-RE. The biochemical and radionuclide characteristics of 166Ho-PLLA-MS that enable accurate dosimetry calculations and biodistribution assessment may however improve the overall safety of the procedure.

Published

2010

10. Long-term toxicity of holmium-loaded poly(L-lactic acid) microspheres in rats.

Author

Zielhuis SW, Nijsen JF, Seppenwoolde JH, Bakker CJ, Krijger GC, Dullens HF, Zonnenberg BA, van Rijk PP, Hennink WE, and van het Schip AD

Subjects

Animals, Body Weight drug effects, Body Weight radiation effects, Male, Materials Testing, Microspheres, Polyesters, Rats, Rats, Wistar, Drug Carriers toxicity, Holmium toxicity, Lactic Acid toxicity, Liver drug effects, Liver pathology, Polymers toxicity

Abstract

The aim of this study was to get insight into the toxic effects of holmium-166-loaded poly(L-lactic acid) microspheres (Ho-PLLA-MS) which have very interesting features for treatment of liver malignancies. Acute, mid- and long-term effects were studied in healthy Wistar rats by evaluating clinical, biochemical and tissue response. Rats were divided into four treatment groups: sham, decayed neutron-irradiated Ho-PLLA-MS, non-irradiated Ho-PLLA-MS and PLLA-MS. After implantation of the microspheres into the liver of the rats, the animals were monitored (body weight, temperature and liver enzymes) for a period of 14-18 months. Some of the rats that received previously neutron-irradiated Ho-PLLA-MS were periodically scanned with magnetic resonance imaging (MRI) to see if holmium was released from the microspheres. After sacrifice, the liver tissue was histologically evaluated. Bone tissue was subjected to neutron-activation analysis in order to examine whether accumulation of released holmium in the bone had occurred. No measurable clinical and biochemical toxic effects were observed in any of the treatment groups. Furthermore, histological analyses of liver tissue samples only showed signs of a slight chronic inflammation and no significant differences in the tissue reaction between rats of the different treatment groups could be observed. The non-irradiated PLLA-MS and Ho-PLLA-MS stayed intact during the study. In contrast, 14 months after administration, the neutron-irradiated Ho-PLLA-MS was not completely spherical anymore, indicating that degradation had started. However, the holmium loading had not been released as was illustrated with MRI and affirmed by neutron-activation analysis of bone tissue. In conclusion, neutron-irradiated Ho-PLLA-MS does not provoke any toxic reaction and can be applied safely in vivo.

Published

2007

11. Surface characteristics of holmium-loaded poly(L-lactic acid) microspheres.

Author

Zielhuis SW, Nijsen JF, Figueiredo R, Feddes B, Vredenberg AM, van het Schip AD, and Hennink WE

Subjects

Liver Neoplasms therapy, Microscopy, Electron, Scanning, Polyesters, Polyvinyl Alcohol, Spectrum Analysis, Holmium, Lactic Acid, Microspheres, Polymers

Abstract

Radioactive holmium-166-loaded poly(L-lactic acid) microspheres (Ho-PLLA-MS) are promising systems for the treatment of liver malignancies. The surface characteristics of Ho-PLLA-MS before and after both neutron and gamma irradiation were investigated in order to get insight into their suspending behaviour and to identify suitable surfactants for clinical application of these systems. X-ray photoelectron spectroscopy (XPS) and scanning electron microscopy (SEM) were used for surface characterization. The residual amounts of poly(vinyl alcohol) (PVA) of the microspheres, which was used as an emulsifier during the solvent evaporation process, were determined using a colorimetric iodine-borate method and the wettability of microspheres and PLLA films with and without holmium (Ho) loading was tested using suspending experiments and contact angle measurements. XPS showed that the surface of Ho-PLLA-MS mainly consisted of PLLA, less than 10% of the surface was covered with PVA after several washing and sieving steps. A colorimetric assay showed that the microspheres contained 0.2-0.3% (w/w) PVA. Combined with XPS data, this assay demonstrates that the PVA is likely dissolved in the core of the microspheres. XPS analysis also showed that after neutron irradiation, some holmium appeared on the surface. Moreover, Ho-loaded PLLA films had a much higher contact angle (85 degrees) than non-loaded films (70 degrees). Therefore, the Ho on the surface of neutron-irradiated Ho-PLLA-MS is probably the reason for their poor suspending behaviour in saline. No surface changes were seen with XPS after gamma irradiation. Based on their surface characteristics, a pharmaceutically acceptable solvent (1% Pluronic F68 or F127 in 10% ethanol) was formulated with which a homogeneous suspension of radioactive Ho-PLLA-MS could be easily obtained, making these systems feasible for further clinical evaluation.

Published

2005

12. Influence of neutron irradiation on holmium acetylacetonate loaded poly(L-lactic acid) microspheres.

Author

Nijsen JF, van Het Schip AD, van Steenbergen MJ, Zielhuis SW, Kroon-Batenburg LM, van de Weert M, van Rijk PP, and Hennink WE

Subjects

Calorimetry, Differential Scanning, Gamma Rays, Humans, Liver Neoplasms radiotherapy, Microscopy, Electron, Scanning, Molecular Weight, Polyesters, Spectrophotometry, Temperature, X-Ray Diffraction, Embolization, Therapeutic instrumentation, Holmium chemistry, Hydroxybutyrates chemistry, Lactic Acid chemistry, Microspheres, Neutrons, Pentanones chemistry, Polymers chemistry, Radioisotopes therapeutic use

Abstract

Holmium-loaded microspheres are useful systems in radio-embolization therapy of liver metastases. For administration to a patient, the holmium-loaded microspheres have to be irradiated in a nuclear reactor to become radioactive. In this paper. the influence of neutron irradiation on poly(L-lactic acid) (PLLA) microspheres and films, with or without holmium acetylacetonate (HoAcAc), is investigated, in particular using differential scanning calorimetry (MDSC), scanning electron microscopy, gel permeation chromatography (GPC), infrared spectroscopy, and X-ray diffraction. After irradiation of the microspheres, only minor surface changes were seen using scanning electron microscopy, and the holmium complex remained immobilized in the polymer matrix as reflected by a relatively small release of this complex. GPC and MDSC measurements showed a decrease in molecular weight and crystallinity of the PLLA, respectively, which can be ascribed to radiation induced chain scission. Irradiation of the HoAcAc loaded PLLA matrices resulted in evaporation of the non-coordinated and one coordinated water molecule of the HoAcAc complex, as evidenced by MDSC and X-ray diffraction analysis. Infrared spectroscopy indicated that some degradation of the acetylacetonate anion occurred after irradiation. Although some radiation induced damage of both the PLLA matrix and the embedded HoAcAc-complex occurs, the microspheres retain their favourable properties (no marginal release of Ho, preservation of the microsphere size), which make these systems interesting candidates for the treatment of tumours by radio-embolization.

Published

2002

13. Characterization of poly(L-lactic acid) microspheres loaded with holmium acetylacetonate.

Author

Nijsen JF, van Steenbergen MJ, Kooijman H, Talsma H, Kroon-Batenburg LM, van De Weert M, van Rijk PP, De Witte A, Van Schip AD, and Hennink WE

Subjects

Calorimetry, Differential Scanning, Embolization, Therapeutic methods, Humans, Hydroxybutyrates administration & dosage, In Vitro Techniques, Liver Neoplasms radiotherapy, Liver Neoplasms secondary, Materials Testing, Microscopy, Electron, Scanning, Microspheres, Pentanones administration & dosage, Polyesters, Spectrophotometry, Infrared, X-Ray Diffraction, Biocompatible Materials, Holmium administration & dosage, Lactic Acid, Polymers

Abstract

Holmium-loaded PLLA microspheres are useful systems in radioembolization therapy of liver metastases because of their low density, biodegradability and favourable radiation characteristics. Neutron activated Ho-loaded microspheres showed a surprisingly low release of the relatively small holmium complex. In this paper factors responsible for this behaviour are investigated, in particular by the use of differential scanning calorimetry, scanning electron microscopy, infrared spectroscopy and X-ray diffraction. The holmium complex is soluble in PLLA up to 8% in films and 17% in microspheres. Interactions between carbonyl groups of PLLA, and the Ho-ion in the HoAcAc complex, explain very satisfactorily the high stability of holmium-loaded microspheres.

Published

2001