Focusing on the intricate development of X-ray technology, this book delves into the historical milestones of computed tomography (CT) and its mathematical foundations. It covers essential topics such as X-ray generation, photon interactions, and signal processing, providing a comprehensive introduction to CT principles. Detailed derivations of reconstruction algorithms for both 2D and modern 3D cone-beam systems are emphasized, along with analysis of CT artifacts and practical considerations like dose management. It's tailored for graduate students and seasoned professionals in related fields.
Additive manufacturing, often referred to as 3D printing, has long since proven its suitability for everyday use. However, many questions remain unanswered for use in medicine. Complex melting and hardening processes take place during the layer-by-layer construction of medical devices from liquid or solid materials, the physical-chemical modelling of which is often still pending, so that a discussion forum is to be given at AMMM on topics relating to the achievable precision and the expected technical properties of the medical devices produced in this way. Questions about the precision and interaction of the printed materials with their future application matrix are important for all industries. However, these requirements are of particular interest in the medical environment, where biological compatibility and long-term stability are of particular importance. Medical technology companies are also faced with the question of whether this modern manufacturing technology should only be used in prototype and individualized sample development or also in series production. Costs and benefits have to be assessed very individually. AMMM 2019 will focus on these questions, with particular emphasis on the medical device regulation of patient-specific devices.
Magnetic Particle Imaging (MPI) is a novel imaging modality that uses various static and oscillating magnetic fields to image the spatial distribution of superparamagnetic iron oxide nanoparticles (SPIOs) with high sensitivity, no tissue background, and no ionizing radiation. The method exploits the non-linear magnetization behavior of the SPIOs, and has shown great potential to surpass current in vivo imaging modalities in terms of sensitivity, safety, quantitation, and spatio-temporal resolution. MPI is well suited for clinical applications such as angiography, cancer imaging, and inflammation imaging; as well as research applications such as stem cell imaging and small animal imaging.
Magnetic Particle Imaging (MPI) is a novel imaging modality that uses various static and oscillating magnetic fields to image the spatial distribution of superparamagnetic iron oxide nanoparticles (SPIOs) with high sensitivity, no tissue background, and no ionizing radiation. The method exploits the non-linear magnetization behavior of the SPIOs, and has shown great potential to surpass current in vivo imaging modalities in terms of sensitivity, safety, quantitation, and spatio-temporal resolution. MPI is well suited for clinical applications such as angiography, cancer imaging, and inflammation imaging; as well as research applications such as stem cell imaging and small animal imaging. Since the first workshop in 2010, the International Workshop on MPI (IWMPI) has been the premier forum for researchers working in the MPI field. The workshop aims at covering the status and recent developments of both the instrumentation and the tracer material, as they are equally important in designing a well performing MPI system. The main topics presented at the workshop include hardware developments, image reconstruction and systems theory, nanoparticle physics and theory, nanoparticle synthesis, spectroscopy, patient safety, and medical/research applications of MPI. Over the years, the attendance to the workshop increased from around 70 attendees in 2010 to over 200 researchers this past year.
This volume shows how new approaches and methods in medical engineering and medical informatics can advance medicine, health, and health care. The Student Conference is an annual event at the BioMedTec Science Campus Lübeck. The Congress is organized by the Universität zu Lübeck and the University of Applied Science Lübeck. Master students of programs related to medical engineering science, medical informatics, biomedical engineering, and auditory technology present results of their recent research projects.
The contributions to this proceedings book show how new approaches and methods in medical engineering and medical informatics can advance medicine, health and health care. The papers focus on the following topics: Medical Image Processing, Medical Imaging, Signal Processing, Biomedical Optics, Biochemical Physics, Safety and Quality, E-Health.
The contributions to this proceedings book show how new approaches and methods in medical engineering and medical informatics can advance medicine, health and health care. The papers focus on the following topics: Biomedical Optics, Biochemical Physics, Biomedical Engineering, Safety and Quality, E-Health, Signal Processing, Medical Imaging, and Image Processing.
The contributions to this proceedings book show how new approaches and methods in medical engineering and medical informatics can advance medicine, health and health care. The papers focus on the following topics: Biomedical Optics, Biochemical Physics, Biomedical Engineering, Safety and Quality, E-Health, Signal Processing, Medical Imaging, and Image Processing.
