Minimally invasive surgery has spurred development of portable nuclear medicine non-imaging detection products (i.e., probes). Although these probes function well in simple anatomic regions (e.g., head & neck, axilla) can present surgeons with difficulties due to the presence of overlapping tissue activity. Conventional gamma cameras, with large camera heads, are not ideal for intraoperative applications. Due to the bulky camera size, PET and SPECT are difficult to implement when a lesion is already identified, surveillance of larger areas (e.g., for peritoneal evaluation) can be difficult due to limited field-of-view. Ideally, the information from small hand-held gamma cameras would be integrated from multiple views taken at arbitrary positions and angles. We present a method of creating an image with 3D information from one or more portable hand-held gamma cameras held in arbitrary positions and angles near a radioactive source [1]. The method takes advantage of recent developments in iterative reconstruction algorithms, computer speed, and position sensing devices. Corrections were implemented for inhomogeneous sampling in time and space.
Flexible Geometries for Hand-Held PET and SPECT Cameras / Weinberg, Irving; Beylin, David; Stepanov, Pavel; Peter, William; Zawarzin, Valera; Pani, Roberto; ZENG JIAN, Chao; Anashkin, Edward; DE VINCENTIS, Giuseppe; Adler, Lee. - (2003).
Flexible Geometries for Hand-Held PET and SPECT Cameras
PANI, Roberto;DE VINCENTIS, Giuseppe;
2003
Abstract
Minimally invasive surgery has spurred development of portable nuclear medicine non-imaging detection products (i.e., probes). Although these probes function well in simple anatomic regions (e.g., head & neck, axilla) can present surgeons with difficulties due to the presence of overlapping tissue activity. Conventional gamma cameras, with large camera heads, are not ideal for intraoperative applications. Due to the bulky camera size, PET and SPECT are difficult to implement when a lesion is already identified, surveillance of larger areas (e.g., for peritoneal evaluation) can be difficult due to limited field-of-view. Ideally, the information from small hand-held gamma cameras would be integrated from multiple views taken at arbitrary positions and angles. We present a method of creating an image with 3D information from one or more portable hand-held gamma cameras held in arbitrary positions and angles near a radioactive source [1]. The method takes advantage of recent developments in iterative reconstruction algorithms, computer speed, and position sensing devices. Corrections were implemented for inhomogeneous sampling in time and space.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.