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J. J. Pedroso de Lima

Progress report High sensitivity and low cost human PET system: viability tests POCI/SAU-OBS/61642/2004. J. J. Pedroso de Lima. PET is the most sensitive and specific technique to visualise, in vivo, the paths and interactions of molecules in human tissues and organs.

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J. J. Pedroso de Lima

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  1. Progress reportHigh sensitivity and low cost human PET system: viability tests POCI/SAU-OBS/61642/2004 J. J. Pedroso de Lima

  2. PET is the most sensitive and specific technique to visualise, in vivo, the paths and interactions of molecules in human tissues and organs. PET is a valuable clinical tool, namely for detecting cancer, evaluating heart function and assessing neurological conditions. PET diagnosis is based upon metabolic changes in tissues or cells.

  3. By imaging 18F-FDG (18F-fluoro-deoxyglucose) uptake, functionalinformationis obtained on where tissues are located and how active and fast-growing they are. Whole Body PET (WBP)scans are performed mainly to survey the body for sites of metastatic cancer cells and to make accurate tumor staging encompassing the entire body.

  4. Whole body PET of a pacient with metastatic disease - 18F-FDG Whole body PET - allows images of metastatic disease spread and other oncological situations in whole body projections (anterior, posterior and lateral). The information is qualitative.

  5. Although being widely recognized, WBPis time consuming (takes about 30 to 40 min with existing systems), not adapted to a systematic screening, it is often limited by the high level of statistical noise in the images and it is felt that a better definition in the images would be a valuable step forward.

  6. In the project being reported, the sensitivity characteristics of a resistive plate chamber (RPC)–PET system with wide Axial Field of View (AFOV) for human PET technology was studied through Monte Carlo simulations, complemented by an approximate analytical model, aiming at whole-body human PET systems with AFOV in the order of 200 cm.

  7. It was proved that the sensitivity, dominated by the solid angle, grows strongly with the AFOV and with the axial acceptance angle, while the scatter fraction is almost independent from the geometry.

  8. Simulations suggest that the sensitivity of such systems for human whole-body screening, under reasonable assumptions, may exceed the present crystal-based PET technology by a factor up to 20. The spatial resolution of the new device is better than the existing systems and its cost much lower.

  9. Additionally the cost-effectiveness of these detectors and their very good timing characteristics opens the possibility to build affordable Time of Flight (TOF)–PET systems with very large fields of view.

  10. These characteristics show that this project is in theright direction in what concerns the development of a new concept on WBP studies,i.e., a device based upon RPCs that is faster, allowing higher patient throughput, with better spatial resolution and much cheaper than the conventional systems. As work for the future the integration of RPC-PET in a PET-CT system is an other important goal.

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