Early Evaluation of Copper Radioisotope Production at ISOLPHARM

The ISOLPHARM (ISOL technique for radioPHARMaceuticals) project is dedicated to the development of high purity radiopharmaceuticals exploiting the radionuclides producible with the future Selective Production of Exotic Species (SPES) Isotope Separation On-Line (ISOL) facility at the Legnaro National Laboratories of the Italian National Institute for Nuclear Physics (INFN-LNL). At SPES, a proton beam (up to 70 MeV) extracted from a cyclotron will directly impinge a primary target, where the produced isotopes are released thanks to the high working temperatures (2000 \ub0C), ionized, extracted and accelerated, and finally, after mass separation, only the desired nuclei are collected on a secondary target, free from isotopic contaminants that decrease their specific activity. A case study for such project is the evaluation of the feasibility of the ISOL production of 64Cu and 67Cu using a zirconium germanide target, currently under development. The producible activities of 64Cu and 67Cu were calculated by means of the Monte Carlo code FLUKA, whereas dedicated off-line tests with stable beams were performed at LNL to evaluate the capability to ionize and recover isotopically pure copper

Dissemination and reporting bias of clinical and observational studies conducted in the Local health unit of Verona.

Introduction: Bias in dissemination and reporting of clinical research findings has an impact on the pooled summary utilised to produce clinical-therapeutic guidelines and recommendations. This analysis aims to evaluate the dissemination and reporting biases of interventional and observational studies conducted in the setting of the Local health authority of Verona (Aulss). The possible correlation between both biases and profit versus no-profit sponsors was also evaluated. Methods: Verona's Aulss studies completed in the period 01.01.2014-31.01.2021 were extracted from the Clinical study register of the Veneto Region and any form of results' dissemination was identified and compared with the original protocol. Identified studies were stratified by profit or no-profit sponsor and results compared using the Chi-Square test. Results: 67 studies (29 profit; 38 non-profit) were included in this analysis. 58.2% of the studies (n=39/67) reports at least one type of findings' dissemination, for 22.4% data-analysis or publication is in progress, while 19.4% has not been published. Regarding the evaluation on reporting bias, 36 of the 39 published studies were considered (n=19 profit; n=17 non-profit): 64% (23/36) showed inconsistencies between the results reported in the manuscript and the protocol. The number of non-compliant profit studies (n=15/19; 79%) was statistically higher than the compliant ones [n=8/17; 47%; (p=0.049; χ2=3.845)]. Discussion: This study highlights that findings' dissemination occurs for the majority of the studies evaluated and that the odds of selective reporting are higher for industry funded studies than for publicly funded studies, affecting the quality of the research

Preliminary evaluation of the production of non-carrier added 111Ag as core of a therapeutic radiopharmaceutical in the framework of ISOLPHARM_Ag experiment

Research in the field of radiopharmaceuticals is increasingly promoted by the widespread and growing interest in applying nuclear medicine procedures in both disease diagnosis and treatment. The production of radionuclides of medical interest is however a challenging issue. Along with the conventional techniques other innovative approaches are being investigated and, among those, the ISOLPHARM project is being developed at INFN-LNL (Istituto Nazionale di Fisica Nucleare – Laboratori Nazionali di Legnaro). Such technique foresees the employment of the SPES ISOL facility to produce isobarically pure Radioactive Ion Beams (RIBs), obtained thanks to electromagnetic mass separation and collected on appropriate substrates. The latter are successively recovered and dissolved, allowing thus the chemical separation and harvesting of the nuclides of interest, free from any isotopic contaminant. Although ISOLPHARM can be potentially employed for most of the routinely used medical radioisotopes, its innovation potential is better expressed considering its capability to provide carrier free unconventional nuclides, difficult to produce with state-of-art techniques, such as 111Ag, a β— emitter potentially interesting for therapeutic applications. Thus, in the framework of ISOLPHARM, INFN supported a two-years experiment, called ISOLPHARM_Ag, aimed at evaluating the feasibility of the production of a111Ag labelled radiopharmaceutical. The ISOL production yields are estimated by computing intensive Monte Carlo codes, that require an appropriate custom Information Technology infrastructure. The presented work is focused on the first part of the production chain including the capability to extract, ionize, and collect stable Ag beams with SPES technologies. MC calculations were used to estimate the expected 111Ag in-target yields, whereas experiments with stable Ag were performed to test the ionization, transport and collection of Ag beams