THE EFFECT OF GADOLINIUM ON THE ESR RESPONSE OF ALANINE AND AMMONIUM TARTRATE EXPOSED TO THERMAL NEUTRONS

Many efforts have been made to develop neutron capture therapy (NCT) for cancer treatment. Among the challenges in using NCT is the characterization of the features of the mixed radiation field and of its components. In this study, we examined the enhancement of the ESR response of pellets of alanine and ammonium tartrate with gadolinium oxide exposed to a thermal neutron beam. In particular, the ESR response of these dosimeters as a function of the gadolinium content inside the dosimeter was analyzed. We found that the addition of gadolinium improves the sensitivity of both alanine and ammonium tartrate. However, the use of gadolinium involves a reduces in or abolishes tissue equivalence because of its high atomic number (ZGd 64). Therefore, it is necessary to find the optimum compromise between the sensitivity to thermal neutrons and the reduction of tissue equivalence. Our analysis showed that a low concentration of gadolinium oxide (of the order of 5% of the total mass of the dosimeter) can enhance the thermal neutron sensitivity more than 13 times with an insignificant reduction of tissue equivalence

EPR dosimetry in a mixed neutron and gamma radiation field

Suitability of Electron Paramagnetic Resonance (EPR) spectroscopy for criticality dosimetry was evaluated for tooth enamel, mannose and alanine pellets during the ‘international intercomparison of criticality dosimetry techniques’ at the SILENE reactor held in Valduc in June 2002, France. These three materials were irradiated in neutron and gamma-ray fields of various relative intensities and spectral distributions in order to evaluate their neutron sensitivity. The neutron response was found to be around 10% for tooth enamel, 45% for mannose and between 40 and 90% for alanine pellets according their type. According to the IAEA recommendations on the early estimate of criticality accident absorbed dose, analyzed results show the EPR potentiality and complementarity with regular criticality techniques

Application of the ESR spectroscopy to estimate the original dose in irradiated chicken bone

The paper discusses the results of an investigation aimed to use the ESR spectroscopy as a quantitative procedure to estimate the original dose in irradiated chicken. The time stability of the ESR signal was at first carried out, to obtain a correction factor to be applied to the dose estimated with the added dose method. Our results show that this procedure gives an estimation of the original dose within ±25%

IMPROVEMENT OF ESR DOSIMETRY FOR THERMAL NEUTRON BEAMS THROUGH THE ADDITION OF GADOLINIUM

In this paper the addition of gadolinium nucleus is proposed as useful tool to enhance the ESR sensitivity of organic compounds to thermal neutrons. The target of this work is the detection of the thermal neutron fluence in a mixed field of photons and neutrons through the ESR technique. The gadolinium nucleus was chosen because it offers a very high capture cross section to thermal neutrons (255000 barns). The nuclear reaction with neutron induces complex inner shell transitions that generate, besides the other particles, also some Auger electrons which release their energy in the neighborhood (only several nanometers) of the reaction place. Two organic compounds were doped with gadolinium: the alanine and the ammonium tartrate. The main result is a greater neutron sensitivity for the dosimeters with gadolinium than for those without gadolinium for both the organic compounds used. Because the use of a dosimeter pair is required to discriminate the two components of the mixed field, we studied the response of each dosimeters pair to the mixed field. Through a blind test we tested the goodness of this dosimetric system and we obtained an estimate of the fluence in the mixed field with maximum uncertainty of 3% using the dosimeters pair of alanine and alanine with gadolinium

Atti del Workshop: Tecniche Speciali e Avanzate di Dosimetria e Radioprotezione

Atti del Workshop organizzato dall'Associazione Italiana di Radioprotezione (AIRP) in collaborazione con l'Università degli Studi di Palermo, dal titolo "Tecniche Speciali e Avanzate in Dosimetria e Radioprotezione" che si svolgerà venerdì 24 Giugno a Palermo presso l'Aula Magna del Dipartimento di Fisica e Chimica, Viale delle Scienze Edificio 18. L'evento rientra tra i 210 Eventi organizzati per i 210 anni dalla fondazione dell'Ateneo palermitano su iniziativa del Magnifico Rettore, Prof. Fabrizio Micari. L’evento prevede la discussione di 4 tematiche in ambito della dosimetria e della radioprotezione in campo sanitario ed ambientale (Dosimetria Clinica, Dosimetria Ambientale, Dosimetria Retrospettiva e Tecniche Dosimetriche avanzate in Radioprotezione) ciascuna delle quali ha una relazione generale ad invito e alcune brevi comunicazioni orali. Le sessioni sono moderate da Dirigenti Fisici medici di due delle più importanti Aziende Ospedaliere Siciliane, Dirigenti dell’Istituto Superiore di Sanità e l’ex Rettore dell’Ateneo e membro del CdA del CNR, il Prof. Roberto Lagalla. Interverranno il magnifico Rettore dell’Università di Palermo, l’Assessore alla Sanità della Regione Sicilia, il Direttore dell’Istituto Zooprofilattico Sperimentale di Sicilia, il Direttore Generale dell’Agenzia per la Protezione dell’Ambiente Sicilia, il Direttore del Dipartimento di Fisica e Chimica, il Direttore di ATeN Center (Advanced Technologies Network), Dirigenti Fisici dell’Istituto Superiore di Sanità e dell’Istituto Europeo Oncologico di Milano. Hanno contribuito alla parte organizzativa e scientifica Dirigenti dell’ARPA Sicilia, Dirigenti dell’ARNAS Civico di Palermo, Docenti dell’Università di Palermo e di Milano, Ricercatori del CNR e Specializzandi UniPa. Questo evento è di grande rilevanza nazionale in termini di divulgazione scientifica vista la presenza dei relatori e moderatori invitati che ne danno lustro e rilevanza. Sarà un'occasione di confronto e di analisi retrospettiva a quarant'anni della giornata di studio “Problemi e prospettive della Fisica Sanitaria nel settore medico” organizzata dalla Prof.ssa Maria Brai

ESR RESPONSE TO 60 CO-RAYS OF AMMONIUM TARTRATE PELLETS USING GD2O3 AS ADDITIVE.

This work presents experimental results regarding a new ammonium tartrate blend for ESR dosimetry, with a higher sensitivity and a lower lowest detectable dose (LDD) to 60 Co -rays than the recently used pure ammonium tartrate. The blend composed by ammonium tartrate and gadolinium-oxide (Gd2 O3 ) shows a greater sensitivity (∼2 times) and a smaller LDD than ammonium tartrate. The increased sensitivity was mainly attributed to the great atomic number (Z = 64) of gadolinium, that increases the effective atomic number of the blend; the interaction probability with photons and consequently the radical yield is therefore enhanced. Moreover ammonium tartrate with Gd2 O3 has a linear dose response in the investigated dose range (1–50 Gy). We find this blend suitable for use in ESR dosimetry