DOSIMETRIC STUDY OF BETA-MINUS EMITTER PRASEODYMIUM-142 : APPLICATIONS IN MICROSPHERE BRACHYTHERAPY FOR HEPATOCELLULAR CARCINOMA AND BRACHYTHERAPY FOR OCULAR SQUAMOUS CELL CARCINOMA

ECU Author/Contributor (non-ECU co-authors, if there are any, appear on document)
Maria Clara Ferreira (Creator)
Institution
East Carolina University (ECU )
Web Site: http://www.ecu.edu/lib/

Abstract: A dosimetric study of the beta-minus emitter Praseodymium-142 (¹4²Pr) was performed and two main innovative applications of this source in brachytherapy are proposed: microsphere brachytherapy and eye plaque brachytherapy. ¹4²Pr (96.3% beta and 3.7% gamma) has recently gained increased attention among beta sources for therapy. Its inherent physical and dosimetric characteristics may be suitable for several brachytherapy applications. This relatively short halflife (19.12 h) allows this source to deliver high dose rates to the target. Penetration of the beta component of ¹4²Pr radiation in tissue is limited to a few millimeters, therefore limiting dose deposition to the treated site. The large neutron activation cross-section of the parent isotope (11.40 barn including that of a meta-stable state) allows the activation of this nuclide in a low neutron fluence reactor, making its production easily available for both research and therapy purposes. From simulations and measurement of the doses, exposure rates due to the 3.7% gamma component showed to be clinically small for the patients' healthy organs and tissues as well as to medical staff and general public. Furthermore, it was studied whether its gamma component could be effective in performing pre-treatment quality assurance (QA) and dosimetry, as well as post-treatment biodistribution imaging and dose distributions of permanently implanted ¹4²Pr brachytherapy sources. Two main novel applications of ¹4²Pr beta emitters are studied in this work: (i) ¹4²Pr glass microspheres, as a possible choice of radionuclide for microsphere brachytherapy of nonresectable hepatocellular carcinoma (HCC) and metastasis of the liver, and (ii) ¹4²Pr glass rods for brachytherapy of ocular squamous cell carcinoma (OSCC), based on a novel design for eye brachytherapy -- also developed in this work. In order to simulate the dosimetric characteristics of ¹4²Pr, MCNPX2.6 Monte Carlo code and BRAIN-DOSE Dose Point Kernel code were used to determine the dose distributions of ¹4²Pr for different source distributions. Dosimetric properties of the currently used nuclide in microsphere brachytherapy, Yttrium-90 (?°Y), was also studied and compared to ¹4²Pr. A more realistic biodistribution model of microspheres within a single HCCs blood vessel was studied. In addition, the biological effective dose (BED) for different tumor doubling times (DT) for HCC was determined using the linear quadratic (LQ) model for both nuclides. Dose distributions for ¹4²Pr, ?°Y and Rhenium-188 were simulated within the eyeball and compared for application in eye brachytherapy. Measurements of dose distribution using GAFCHROMIC® EBT2 film were performed with ¹4²Pr glass microspheres and ¹4²Pr glass rods. Monte Carlo simulation validation with experimental measurements in phantom of the dose distribution due to ¹4²Pr glass microspheres and ¹4²Pr glass rods were performed. ¹4²Pr showed to be a possible choice of radionuclide for HCC microsphere brachytherapy and OSCC brachytherapy, delivering a high biological effective dose, and opening possibilities for post treatment imaging and biodistribution assessment.

Additional Information

Publication
Dissertation
Language: English
Date: 2023
Subjects
Physics;Eye brachytherapy;MCNPX2.6 Monte Carlo simuation;Microsphere brachytherapy;Praseodymium-142

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DOSIMETRIC STUDY OF BETA-MINUS EMITTER PRASEODYMIUM-142 : APPLICATIONS IN MICROSPHERE BRACHYTHERAPY FOR HEPATOCELLULAR CARCINOMA AND BRACHYTHERAPY FOR OCULAR SQUAMOUS CELL CARCINOMAhttp://hdl.handle.net/10342/4234The described resource references, cites, or otherwise points to the related resource.