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"Um biossusceptômetro supercondutor AC para quantificar o ferro hepático". / A Superconductor AC Susceptometer to Quantify Liver Iron.Carneiro, Antonio Adilton Oliveira 08 November 2001 (has links)
Este trabalho consistiu no desenvolvimento de um sistema para medir a magnetização de amostras paramagnéticas e diamagnéticas em grandes volumes. Sua principal aplicação tem sido a medida susceptométrica do tecido hepático para a quantificação da sobrecarga de ferro no fígado. Esse excesso de ferro no corpo é comum em pacientes talassêmicos e falcêmicos, que são regularmente submetidos a transfusões de sangue e, em pacientes com hemocromatose. Em pessoas normais, esse depósito de ferro pode conter entre 0,1 e 0,5 mg de ferritina (ftn) por grama de tecido úmido (mg ftn/gtecido úmido). Quando com sobrecarga, pode alcançar até 30 mg ftn/gtecido úmido. A contribuição diamagnética devido à presença dos tecidos biológicos (água, pele, gordura, músculo, nervo, osso, etc) é equivalente à contribuição paramagnética devido à presença de, aproximadamente, 6 mg ftn/gtecido úmido distribuídos no tecido hepático. Essa intensa contribuição diamagnética foi sensivelmente reduzida com o uso de uma bolsa de água acoplada ao torso. Medidas in vitro foram realizadas num phantom, composto de um tubo cilíndrico de acrílico preenchido com água e uma esfera de plástico, acoplada internamente ao cilindro, preenchida com solução de Fe3+. O volume cilíndrico representa os tecidos e o esférico representa o fígado. Medidas in vivo foram realizadas com duas modalidades: com e sem o uso da bolsa de água sobre o torso. Essas medidas foram efetuadas em voluntários assintomáticos e pacientes talassêmicos sob tratamento no Hemocentro de Ribeirão Preto (HRP). A medida da magnetização foi realizada com um gradiômetro axial de segunda ordem, acoplado a um SQUID-RF. A amostra foi magnetizada com um campo magnético AC e homogêneo. Os resultados confirmaram a sensibilidade da técnica para quantificar níveis de ferro hepático em pacientes com sobrecarga, com eficiência de diferenciar níveis equivalentes àqueles encontrado(s) em pessoas normais. A automatização da instrumentação e a aquisição dos dados foram feitas em ambiente LabView e as simulações dos modelos, apresentadas juntamente com os processamentos dos sinais, foram realizadas em ambiente MatLab. / This work consisted in the development of a system to measure the magnetization of large paramagnetic and diamagnetic samples. The main application was susceptometric measurements of the hepatic tissue for quantification of the iron overload. Iron excess is commonly observed in thalassemic and sickle cell anemia patients who have repeatedly received red blood cell transfusions for prevention or treatment of chronic complications and in patients with hemocromatosis. In normal subjects, iron concentration is usually between 0.1 and 0.5 mg of ferritin by gram of wet tissue (mg ftn/gwet tissue). However, in individuals with the above diseases, it can reach up to 30 mg ftn/gwet tissue. The diamagnetic contribution due to the presence of biological tissues (water, skin, fat, muscle, nerve, bone, etc) is equivalent to the paramagnetic contribution due to the presence of approximately 6 mg ftn/gwet tissue distributed in the hepatic tissue. This intense diamagnetic contribution was makedly reduced by using a water bag coupled to the subjects torso. Measurements in vitro were performed in a phantom composed of a cylindrical acrylic tube, filled with pure water containing a plastic sphere placed off axis to simulate the liver position. The sphere was filled with a Fe3+ solution to simulate different iron concentration present in the liver. Measurements in vivo were performed in thalassemic patients undergoing treatment at the Hemocentro de Ribeirão Preto (HRP) and in normal subjects using two different modalities: with and without the use of the water bag on the torso. The measurements of the magnetization were made using a second order axial gradiometer coupled to a RF SQUID. The sample was magnetized using a homogeneous AC magnetic field. The results confirmed the sensitivity of the technique to quantify levels of hepatic iron in patients with overload, with efficiency of differentiating iron levels equivalent to that found in normal subjects. Automation of instrumentation and data acquisition were done in LabView (National Instruments) and susceptometric models simulations and the signal processing were done in MatLab environment.
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"Um biossusceptômetro supercondutor AC para quantificar o ferro hepático". / A Superconductor AC Susceptometer to Quantify Liver Iron.Antonio Adilton Oliveira Carneiro 08 November 2001 (has links)
Este trabalho consistiu no desenvolvimento de um sistema para medir a magnetização de amostras paramagnéticas e diamagnéticas em grandes volumes. Sua principal aplicação tem sido a medida susceptométrica do tecido hepático para a quantificação da sobrecarga de ferro no fígado. Esse excesso de ferro no corpo é comum em pacientes talassêmicos e falcêmicos, que são regularmente submetidos a transfusões de sangue e, em pacientes com hemocromatose. Em pessoas normais, esse depósito de ferro pode conter entre 0,1 e 0,5 mg de ferritina (ftn) por grama de tecido úmido (mg ftn/gtecido úmido). Quando com sobrecarga, pode alcançar até 30 mg ftn/gtecido úmido. A contribuição diamagnética devido à presença dos tecidos biológicos (água, pele, gordura, músculo, nervo, osso, etc) é equivalente à contribuição paramagnética devido à presença de, aproximadamente, 6 mg ftn/gtecido úmido distribuídos no tecido hepático. Essa intensa contribuição diamagnética foi sensivelmente reduzida com o uso de uma bolsa de água acoplada ao torso. Medidas in vitro foram realizadas num phantom, composto de um tubo cilíndrico de acrílico preenchido com água e uma esfera de plástico, acoplada internamente ao cilindro, preenchida com solução de Fe3+. O volume cilíndrico representa os tecidos e o esférico representa o fígado. Medidas in vivo foram realizadas com duas modalidades: com e sem o uso da bolsa de água sobre o torso. Essas medidas foram efetuadas em voluntários assintomáticos e pacientes talassêmicos sob tratamento no Hemocentro de Ribeirão Preto (HRP). A medida da magnetização foi realizada com um gradiômetro axial de segunda ordem, acoplado a um SQUID-RF. A amostra foi magnetizada com um campo magnético AC e homogêneo. Os resultados confirmaram a sensibilidade da técnica para quantificar níveis de ferro hepático em pacientes com sobrecarga, com eficiência de diferenciar níveis equivalentes àqueles encontrado(s) em pessoas normais. A automatização da instrumentação e a aquisição dos dados foram feitas em ambiente LabView e as simulações dos modelos, apresentadas juntamente com os processamentos dos sinais, foram realizadas em ambiente MatLab. / This work consisted in the development of a system to measure the magnetization of large paramagnetic and diamagnetic samples. The main application was susceptometric measurements of the hepatic tissue for quantification of the iron overload. Iron excess is commonly observed in thalassemic and sickle cell anemia patients who have repeatedly received red blood cell transfusions for prevention or treatment of chronic complications and in patients with hemocromatosis. In normal subjects, iron concentration is usually between 0.1 and 0.5 mg of ferritin by gram of wet tissue (mg ftn/gwet tissue). However, in individuals with the above diseases, it can reach up to 30 mg ftn/gwet tissue. The diamagnetic contribution due to the presence of biological tissues (water, skin, fat, muscle, nerve, bone, etc) is equivalent to the paramagnetic contribution due to the presence of approximately 6 mg ftn/gwet tissue distributed in the hepatic tissue. This intense diamagnetic contribution was makedly reduced by using a water bag coupled to the subjects torso. Measurements in vitro were performed in a phantom composed of a cylindrical acrylic tube, filled with pure water containing a plastic sphere placed off axis to simulate the liver position. The sphere was filled with a Fe3+ solution to simulate different iron concentration present in the liver. Measurements in vivo were performed in thalassemic patients undergoing treatment at the Hemocentro de Ribeirão Preto (HRP) and in normal subjects using two different modalities: with and without the use of the water bag on the torso. The measurements of the magnetization were made using a second order axial gradiometer coupled to a RF SQUID. The sample was magnetized using a homogeneous AC magnetic field. The results confirmed the sensitivity of the technique to quantify levels of hepatic iron in patients with overload, with efficiency of differentiating iron levels equivalent to that found in normal subjects. Automation of instrumentation and data acquisition were done in LabView (National Instruments) and susceptometric models simulations and the signal processing were done in MatLab environment.
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Physical Properties of Magnetic Macromolecule-Metal and Macromolecule-Metal Oxide Nanoparticle ComplexesZalich, Michael Andrew 12 May 2005 (has links)
Magnetic nanoparticles are of considerable interest owing to their potential applications in biotechnology and the magnetic recording industry. Iron oxides have received much attention owing to their oxidative stability and biocompatibility; however, other transition metals and their alloys are also under investigation. Cobalt has one of the largest magnetic susceptibilities of these materials, but it readily oxidizes upon exposure to air resulting in antiferromagnetic oxide. Hence, coating cobalt nanoparticles with an oxygen-impermeable sheath would confer numerous benefits. Cobalt nanoparticles were prepared by the thermolysis of dicobalt octacarbonyl in two block copolymer micellar systems, wherein the copolymers were precursors to graphite or silica. Subsequent heat treatment of the samples at 600-700oC was conducted to condense the polymer coating around the cobalt nanoparticles and form oxygen impervious graphite or silica sheaths.
Magnetic and structural characterization of these novel materials afforded pertinent information about their physical properties. Magnetic susceptometry indicated that the graphite coated cobalt nanoparticles resisted oxidation for over one year. The silica coated cobalt nanoparticles had high saturated specific magnetic moments, but the coatings were brittle and grinding the particles resulted in oxidation over time. Transmission electron microscopy (TEM), high-resolution TEM (HRTEM) and energy-filtered TEM (EFTEM) were employed to study particle size and structural differences of the cobalt nanoparticles before and after heat treatment. The mean particle size and size distribution increased for the graphite coated cobalt particles, due to particle sintering at 700oC. In the silica coated cobalt nanoparticle system, the mean particle size increased when the sample was heat-treated at 600oC leading to a bimodal distribution. This bimodal distribution was explained by a fraction of the particles sintering, while others remained discrete. When the silica system was heat treated at 700oC, the particle size and size distribution remained similar to those of the pre-heat-treated sample, indicating that no sintering had taken place. The rapid pyrolysis of the polymer at 700oC may serve to lock the cobalt nanoparticles into a silica matrix, thus preventing them from coming into contact with one another and sintering. Several diffraction techniques (selected area electron diffraction (SAD), nano-beam electron diffraction (NBD) and x-ray diffraction (XRD)) were used to probe the crystal structure of graphite and silica coated cobalt nanoparticles, which was determined to be predominantly face-centered cubic.
Anisotropic magnetic nanoparticles (nanorods) have an increased magnetophoretic mobility over spherical magnetic nanoparticles with the same equatorial radius. This property makes them attractive candidates for in vivo biological applications. Anisotropic mixed ferrite nanoparticles were coated with a biocompatible hydrophilic block copolymer to render them dispersible in aqueous media. Polymer coated mixed ferrite particles exhibited magnetic properties similar to that of pure magnetite, as the total level of other transition metals in the nanoparticulate system was less than 5%. Electron energy loss spectroscopy (EELS) and (EFTEM) confirmed that the dominant elements in the mixed ferrite nanoparticles were iron and oxygen. Furthermore, HRTEM, SAD and XRD analyses indicated that the crystal structure for the mixed ferrite nanoparticles was inverse spinel. X-ray diffraction peaks at low angles for the coated mixed ferrite rods corresponded to poly(ethylene oxide) peaks, suggesting that the block copolymer employed as a dispersant was associated with the particles. / Ph. D.
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MRI susceptometry: Theory and robustness of an external phantom method for measuring bulk susceptibility from MRI field echo phase reconstruction maps applied to human liver iron overloadHolt, Randall William January 1993 (has links)
No description available.
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