Dosimetria por imagem para o planejamento específico por paciente em iodoterapia

“…The row of radioactive scattering medium modelling the thyroid and neck were: 1) a thyroid phantom of symmetrical lobes measuring 5.0 x 2.3 x 1.0 cm 3 , with total phantom volume of 24 mL, involved by ten PolyMethyl MethAcrylate (PMMA) slabs measuring 20 x 20 x 1 cm 3 (Figure 1.a), in the following sequence from bottom to top, two slabs, the thyroid lobe, then eight slabs, named TS (Thyroid Symmetrical); 2) a neck simulator consisting of a cylinder with length of 12.5 cm and diameter of 12.5 cm, constructed with PMMA and a 3-cm cylindrical cavity where the spinal simulator structure was inserted and a thyroid symmetrical lobes measuring 5.9 x 2.9 x 1.0 cm 3 with a total volume of 28 mL (Figure 1.b), named NP (Neck Phantom); 3) a 3 liter plastic bottle (Figure 1.d), named PB (Plastic Bottle); and a cylindrical container of the Jaszczak phantom, BIODEX, model "Flangeless Deluxe ECT Phantom", 18,6 cm height and 20,4 cm diameter, with a volume of 6000 mL (Figure 1.c), these phantom were used in two ways, filled with water, named 4) JCw (Jaszczak with Water) and air 5) JCa (Jaszczak with air). The neck plus cervical spine and thyroid simulator was primarily built by Franzé, SPECT-CT images of the phantom were used as radioactive source (SPECT) and scattering media(CT) on ionizing radiation Monte Carlo simulation environment to estimate the radiation dose deposited into the imaged volume [10], on the basis of Cerqueira and Maia who evaluated two thyroid phantoms, one based on geometrically shaped, as the one we used, and another more anthropomorphically shaped, as options to mimetites normal and abnormal thyroids Apaza-Veliz et al • Braz. J. Rad.…”

An easy and direct protocol based on planar molecular images to quantify 131I using thyroid phantom

“…The row of radioactive scattering medium modelling the thyroid and neck were: 1) a thyroid phantom of symmetrical lobes measuring 5.0 x 2.3 x 1.0 cm 3 , with total phantom volume of 24 mL, involved by ten PolyMethyl MethAcrylate (PMMA) slabs measuring 20 x 20 x 1 cm 3 (Figure 1.a), in the following sequence from bottom to top, two slabs, the thyroid lobe, then eight slabs, named TS (Thyroid Symmetrical); 2) a neck simulator consisting of a cylinder with length of 12.5 cm and diameter of 12.5 cm, constructed with PMMA and a 3-cm cylindrical cavity where the spinal simulator structure was inserted and a thyroid symmetrical lobes measuring 5.9 x 2.9 x 1.0 cm 3 with a total volume of 28 mL (Figure 1.b), named NP (Neck Phantom); 3) a 3 liter plastic bottle (Figure 1.d), named PB (Plastic Bottle); and a cylindrical container of the Jaszczak phantom, BIODEX, model "Flangeless Deluxe ECT Phantom", 18,6 cm height and 20,4 cm diameter, with a volume of 6000 mL (Figure 1.c), these phantom were used in two ways, filled with water, named 4) JCw (Jaszczak with Water) and air 5) JCa (Jaszczak with air). The neck plus cervical spine and thyroid simulator was primarily built by Franzé, SPECT-CT images of the phantom were used as radioactive source (SPECT) and scattering media(CT) on ionizing radiation Monte Carlo simulation environment to estimate the radiation dose deposited into the imaged volume [10], on the basis of Cerqueira and Maia who evaluated two thyroid phantoms, one based on geometrically shaped, as the one we used, and another more anthropomorphically shaped, as options to mimetites normal and abnormal thyroids Apaza-Veliz et al • Braz. J. Rad.…”

An easy and direct protocol based on planar molecular images to quantify 131I using thyroid phantom

“…Conforme apresentado em trabalho anterior 41 , o método de inserção da imagem do SHD na simulação através do Gate está bem definido (Figura 12), isso demonstra que qualquer variação de objeto simulador que seja desenvolvido digitalmente ou através do uso de imagens médicas poderá ser utilizado, obtendo-se assim estudos mais realistas dos efeitos da interação da radiação com a matéria. Fato que pode ser comprovado com as diferentes variações do SHD que foram desenvolvidos para estudos específicos de diferentes casos, como as esferas frias que com a adaptação correta poderiam representar tumores e serem usadas como regiões frias ou quentes; ou também como a variação proposta do simulador de condições características de Alzheimer/Demência.…”

“…Nas versões mais recentes do GATE, diversas extensões e indexações de imagens são aceitos. Neste trabalho, foi escolhido a extensão do tipo interfile, que já foi utilizado em trabalhos anteriores pelo grupo 41 .…”

Desenvolvimento de objeto simulador híbrido de cérebro para estudos em medicina nuclear