A. Vaiano

Custom breast phantom for an accurate tumor SNR analysis

The capability of the scintimammography to diagnose subcentimeters sized tumors was increased by the employment of a dedicated gamma camera. The introduction of small field of view camera, based on pixellated scintillation array and position sensitive photomultiplier, allowed to enhance the geometric spatial resolution and contrast of the images due to reduced collimator-tumor distance. The aim of this paper is to investigate the realistic possibility of T1a tumors detection (/spl sim/5 mm size) by comparing the signal-to-noise ratio (SNR) values obtained by different imagers. To this end, we have utilized a self-designed solid breast phantom with different sized hot spots (tumors). The phantom consists of seven disks with different thickness, molded from resin epoxy activated with Co/sup 57/ isotope. The overlapped disks represent a pendula breast with about 800 cc volume. Hot spots have not wall. One disk has holes to fit the hot spots representing the different sized lesions. The imagers utilized were: a standard Anger Camera and three different cameras based on scintillator array, CsI(Tl) or NaI(Tl), coupled to position sensitive photomultiplier with different technologies, to make detectors with field of view of 3 and 5 inch. The experimental results are supported by Monte Carlo simulation. It was highlighted how spatial resolution is a predominant element in tumor visibility and how background causes a reduction of the image contrast. All gamma cameras show close results at SNR values less than 10 and a full detectability of 8 mm tumor size. However, the results show the 5 mm tumor size is lower detection limit for all cameras.

Development of the YAP-PEM scanner for breast cancer imaging.

A prototype for positron emission mammography is under development at the Department of Physics of Pisa University. The device will be composed of two opposing detectors (parallel plane geometry). The active part of each detector head consists of a matrix of 900 YAP: Ce pixel scintillators, with a 2x2 mm(2) pitch and a 30 mm thickness. The read out is performed by an array of nine metal channel dynode PSPMTS (mod. R8520-00-C12) from Hamamatsu. In the previous version of the head, the PSPMTS were independently read out. For the clinical implementation of the prototype we have designed a simplified circuitry for the readout of the nine tubes based on a multiplexed resistive divider, reducing the number of channels from 36 to 4. A simulation study for an optimised amplifier has been carried out. The housing for each of the two yap-pem detectors has been fully engineered and is in the assembly stage.

Monte Carlo study and experimental measurements of breast tumor detectability with the YAP-PEM prototype

A prototype for positron emission mammography is under development within a collaboration of the Italian Universities of Pisa, Ferrara, Bologna and Roma. The device is composed of two stationary detection heads, each with an active area of 6 cm /spl times/ 6 cm, made of 30/spl times/30 YAP:Ce finger crystals of 2 mm /spl times/ 2 mm /spl times/ 30 mm. The EGSnrc Monte Carlo code has been used to perform a complete simulation of this camera. We have used a fast three-dimensional iterative algorithm (30 s per iteration on a PC-Pentium III 800 MHz processor) for image reconstruction. The performed study indicates that tumors of 5 mm diameter, i.e., 0.065 cm/sup 3/ volume, with 37 kBq/cm/sup 3/ (1 /spl mu/Ci/cm/sup 3/) specific activity embedded in a breast active phantom, are detectable in 10 minutes for a 10:1 tumor/background ratio with an 8.7 Signal-to-Noise Ratio value. Experimental measurements with the small animal tomograph YAP-PET have validated the Monte Carlo predictions.

Measurement of photoelectron yield from scintillating fibres coupled to a YAP:Ce matrix

Abstract In applications where high spatial resolutions in the determination of the position of an interaction are necessary crystal matrices are often used. The readout of such matrices can be difficult especially if these have a large number of pixels (>400). One possible way to solve the difficulty is by reading out the row and the column by coupling wavelength shifting fibres to the front and back of the matrix. Measurements have been carried out on the photoelectron yield of one fibre coupled to a 5×5 YAP:Ce matrix so as to prove the principle. The fibre was read out using a single pixel HPD. The results of these measurements will be presented.

Novel high resolution detectors for Positron Emission Tomography (PET)

Abstract In this paper we present some recent results we have obtained in the development of detectors for small animal PET and for PEM, based on the use of Position Sensitive PMTS or Hybrid Photo Diodes (HPDs) coupled to crystal matrices. New ideas and future developments are discussed.

Calibration and Performance of the Fully Engineered YAP-(S)PET Scanner for Small Rodents

Functional imaging of small animals,such as mice and rats,using high-performance positron emission tomography (PET)and single-photon emission tomography (SPECT), is becoming a valuable tool for studying animal models of human disease. The possibility to use either PET or SPECT allows the scientist to exploit the advantages of both techniques, e.g., the wide range of easily accessible single-photon radiotracers for SPECT and the exquisite performance of PET. The combination of PET and SPECT techniques for small-animal studies could offer the unique possibility of developing new and interesting protocols for the investigation of many biological phenomena more effectively than with PET or SPECT modality alone.