Abstract: A tomographic imaging system includes a moveable detector or detectors capable of detecting gamma radiation; one or more position sensors for determining the position and angulation of the detector(s) in relation to a gamma ray emitting source; and a computational device for integrating the position and angulation of the detector(s) with information as to the energy and distribution of gamma rays detected by the detector and deriving a three dimensional representation of the source based on the integration. A method of imaging a radiation emitting lesion located in a volume of interest also is disclosed.

Abstract: A system for describing the physical distribution of an agent that accumulates selectively in tissue of a patient in an excised surgical specimen. The system comprises an agent which selectively concentrates in a cancer or precancer or focus of infection or other pathological condition. The system comprises a detector sensitive to the agent which is present in the surgical specimen. The system also comprises an apparatus capable of forming an image based on the information gathered by the detector, and which image describes the physical distribution of the agent in the surgical specimen so that a surgeon can be guided by the image provided by the apparatus, the apparatus connected to said detector.

Abstract: A method for examining a body part is disclosed including the steps of immobilizing and compressing the body part to provide reproducible localization of an area of interest in the body part and to improve diagnostic quality of an image of the body part and obtaining at least one physiological image of the body part using multiple projection views of the body part.

Abstract: The present invention is an apparatus for examining a body part. The apparatus comprises a mechanism for immobilizing and compressing the body part. The apparatus also comprises a mechanism for providing an internal anatomical image of the body part and a mechanism for detecting single gamma-rays emitted by a radiotracer infiltrated into the body part. The detecting mechanism is disposed in an adjacent relationship with the mechanism for providing an internal anatomic image so that the body part remains in the same position during and between anatomic and radiotracer imaging. In one embodiment, the detecting mechanism includes a detector module disposed on one side of the immobilizing mechanism. The detector module preferably has at least one array of gamma ray sensitive material in communication with a position detector. In another embodiment, the detecting mechanism includes a pair of detector modules disposed one on each side of the immobilizing mechanism.

Abstract: A system for describing the physical distribution of an agent that accumulates selectively in tissue of a patient in an excised surgical specimen. The system comprises an agent which selectively concentrates in a cancer or precancer or focus of infection or other pathological condition. The system comprises a detector sensitive to the agent which is present in the surgical specimen. The system also comprises an apparatus capable of forming an image based on the information gathered by the detector, and which image describes the physical distribution of the agent in the surgical specimen so that a surgeon can be guided by the image provided by the apparatus, said apparatus connected to said detector.