A prototype of very high-resolution small animal PET scanner using silicon pad detectors

Park, Sang June; Rogers, W.L.; Huh, S.S.; Kagan, H.; Honscheid, K.; Burdette, D.; Chesi, E.; Lacasta, C.; Llosá, G.; Mikuž, M.; Studen, Andrej; Weilhammer, P.; Clinthorne, N.H.

doi:10.1016/j.nima.2006.10.277

Cited by 36 publications

(20 citation statements)

References 13 publications

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“…Further, the poor spatial resolution of PET systems is a limiting factor for the accurate quantitative estimation of the PSF of structures more than three times smaller than the FWHM (partial volume effect) of the reconstructed image resolution [36]. The partial volume effect alternates the pixel values of a structure, by forcing lower activity peripheral tissues to gain uptake with higher activities from hot lesions spreading to the surrounding (spill-out effect) [44]. Thus, hot lesions will appear with reduced maximum values and the PSF will appear broader, with low-intensity tails.…”

Section: Discussionmentioning

confidence: 99%

“…In addition, it can be used as a longterm quality control method to identify the system's performance stability. Further, this method could be useful for comparing different PET scanners in multicenter PET studies and, in particular, for the accurate determination of image resolution of new technology PET scanners incorporating high-resolution detectors [44,46,48].…”

Section: Discussionmentioning

confidence: 99%

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A new PET resolution measurement method through Monte-Carlo simulations

Καρπέτας

Michail

Fountos

et al. 2014

Nuclear Medicine Communications

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

A new PET resolution measurement method through Monte-Carlo simulations

Καρπέτας

Michail

Fountos

et al. 2014

Nuclear Medicine Communications

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“…Abstract-There are indications that PET imaging may profit by incorporating position sensitive silicon detectors with intrinsic excellent spatial resolution into the scanner setup [1]. However, poor timing performance of detectors can compromise mentioned benefits.…”

Section: M06·225mentioning

confidence: 99%

Optimization of silicon detector layout and associated front-end electronics for timing performance of a silicon PET through simulation

Studen

Clinthorne²,

Kagan

et al. 2008

2008 IEEE Nuclear Science Symposium Conference Record

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There are indications that PET imaging may profit by incorporating position sensitive silicon detectors with intrinsic excellent spatial resolution into the scanner setup [1]. However, poor timing performance of detectors can compromise mentioned benefits.Our group is developing a PET probe with silicon detectors. Our detectors come in two varieties, both with square pads and a thickness of 1 mm, but the pads are either 1 mm or 1.4 mm in size. The signals are amplified through VATAGP brand ASICs. For the timing signal, the ASIC provides a charge-sensitive preamplifier with a fast (75-150 ns shaping time) CR-RC 2 shaper, and a fixed-level discriminator to generate a trigger signal.There are three contributions to timing resolution: the timewalk, the jitter and the broadening related to depth of interaction. The paper concentrates on the last contribution, assuming a viable time-walk compensation [2] and negligible jitter for signals large compared to the discriminator threshold. The interaction of photons causes local depositions of ionization. The shape of the signals vary with impact position. Through simulation, we estimated the impact of variation on timing resolution. We evaluated the present systems and estimated improvement for alternative detector and electronics designs.The simulation consists of four major steps. First, a particle tracking tool (GEANT4 [3]) is employed to track the interactions of a 511 keY photon in a silicon detector. A TCAD suite is used to determine the electric and the weighting field in a detector for a given electrode and doped implant arrangement. Next, a charge propagation model [4] using TCAD calculated fields is employed to determine the paths of secondary ionization and the resulting charge induced on electrodes, and finally, a model of the first stage of the signal amplification -the pre-amplifier, the shaper and the discriminator -is used to generate the timing signal.

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“…The most serious drawback is its low efficiency; only 2 % of incident annihilation photons interact in 1 mm of silicon with Compton scattering being the most common interaction. Although commonly used sensitive materials (for example, scintillators coupled with light detectors) exhibit higher efficiency, they have serious limitations when aiming for compact systems with high spatial resolution (2) . To improve the detection efficiency, thicker silicon detectors are used, causing extension of signal collection times.…”

Section: Introductionmentioning

confidence: 99%

Timing performance of the silicon PET insert probe

Studen

Burdette

Chesi

et al. 2010

Radiation Protection Dosimetry

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Simulation indicates that PET image could be improved by upgrading a conventional ring with a probe placed close to the imaged object. In this paper, timing issues related to a PET probe using high-resistivity silicon as a detector material are addressed. The final probe will consist of several (four to eight) 1-mm thick layers of silicon detectors, segmented into 1 3 1 mm 2 pads, each pad equivalent to an independent p 1 nn1 diode. A proper matching of events in silicon with events of the external ring can be achieved with a good timing resolution. To estimate the timing performance, measurements were performed on a simplified model probe, consisting of a single 1-mm thick detector with 256 square pads (1.4 mm side), coupled with two VATAGP7s, application-specific integrated circuits. The detector material and electronics are the same that will be used for the final probe. The model was exposed to 511 keV annihilation photons from an 22 Na source, and a scintillator (LYSO)-PMT assembly was used as a timing reference. Results were compared with the simulation, consisting of four parts: (i) GEANT4 implemented realistic tracking of electrons excited by annihilation photon interactions in silicon, (ii) calculation of propagation of secondary ionisation (electron-hole pairs) in the sensor, (iii) estimation of the shape of the current pulse induced on surface electrodes and (iv) simulation of the first electronics stage. A very good agreement between the simulation and the measurements were found. Both indicate reliable performance of the final probe at timing windows down to 20 ns.

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A prototype of very high-resolution small animal PET scanner using silicon pad detectors

Cited by 36 publications

References 13 publications

A new PET resolution measurement method through Monte-Carlo simulations

A new PET resolution measurement method through Monte-Carlo simulations

Optimization of silicon detector layout and associated front-end electronics for timing performance of a silicon PET through simulation

Timing performance of the silicon PET insert probe

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