Development of a flexible optical fiber based high resolution integrated PET∕MRI system.

PURPOSE The simultaneous measurement of PET and magnetic resonance imaging (MRI) is an emerging field for molecular imaging research. Although optical fiber based PET∕MRI systems have advantages on less interference between PET and MRI, there is a drawback in reducing the scintillation light due to the fiber. To reduce the problem, the authors newly developed flexible optical fiber bundle based block detectors and employed them for a high resolution integrated PET∕MRI system. METHODS The flexible optical fiber bundle used 0.5 mm diameter, 80 cm long double clad fibers which have dual 12 mm × 24 mm rectangular inputs and a single 24 mm × 24 mm rectangular output. In the input surface, LGSO scintillators of 0.025 mol.% (decay time: ∼31 ns: 0.9 mm × 1.3 mm × 5 mm) and 0.75 mol.% (decay time: ∼46 ns: 0.9 mm × 1.3 mm × 6 mm) were optically coupled in depth direction to form depth-of-interaction detector, arranged in 11 × 13 matrix and optically coupled to the fiber bundle. The two inputs of the bundle are bent for 90°, bound to one, and are optically coupled to a Hamamatsu 1-in. square position sensitive photomultiplier tube. RESULTS Light loss due to the fiber bundle could be reduced and the performance of the block detectors was improved. Eight optical fiber based block detectors (16 LGSO blocks) were arranged in a 56 mm diameter ring to form a PET system. Spatial resolution and sensitivity were 1.2 mm full-width at half-maximum and 1.2% at the central field-of-view, respectively. Sensitivity change was less than 1% for 2 °C temperature changes. This PET system was integrated with a 0.3 T permanent magnet MRI system which has 17 cm diameter hole at the yoke area for insertion of the PET detector ring. There was no observable interference between PET and MRI. Simultaneous imaging of PET and MRI was successfully performed for small animal studies. CONCLUSIONS The authors confirmed that the developed high resolution PET∕MRI system is promising for molecular imaging research.

[1]  Tadashi Watabe,et al.  Development of a Si-PM-based high-resolution PET system for small animals , 2010, Physics in medicine and biology.

[2]  Axel Thielscher,et al.  Assessment of MR compatibility of a PET insert developed for simultaneous multiparametric PET/MR imaging on an animal system operating at 7 T , 2011, Magnetic resonance in medicine.

[3]  G. Delso,et al.  Performance Measurements of the Siemens mMR Integrated Whole-Body PET/MR Scanner , 2011, The Journal of Nuclear Medicine.

[4]  Yiping Shao,et al.  PET and NMR dual acquisition (PANDA): applications to isolated, perfused rat hearts , 1997, NMR in biomedicine.

[5]  Kotaro Minato,et al.  A Multi-Slice Dual Layer MR-Compatible Animal PET System , 2009 .

[6]  Eiji Sugiyama,et al.  Interference between PET and MRI sub-systems in a silicon-photomultiplier-based PET/MRI system , 2011, Physics in medicine and biology.

[7]  H. Murayama,et al.  A block detector for a multislice, depth-of-interaction MR-compatible PET , 2005, IEEE Transactions on Nuclear Science.

[8]  Eiji Sugiyama,et al.  Design and performance from an integrated PET/MRI system for small animals , 2010, Annals of nuclear medicine.

[9]  David J. Schlyer,et al.  Preliminary studies of a simultaneous PET/MRI scanner based on the RatCAP small animal tomograph , 2007 .

[10]  S. Cherry,et al.  Simultaneous acquisition of multislice PET and MR images: initial results with a MR-compatible PET scanner. , 2006, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[11]  S. Cherry,et al.  Simultaneous in vivo positron emission tomography and magnetic resonance imaging , 2008, Proceedings of the National Academy of Sciences of the United States of America.

[12]  Stan Majewski,et al.  Simultaneous MRI and PET imaging of a rat brain. , 2006, Physics in medicine and biology.

[13]  Ciprian Catana,et al.  Simultaneous PET-MRI: a new approach for functional and morphological imaging , 2008, Nature Medicine.

[14]  Ciprian Catana,et al.  Performance test of an LSO-APD detector in a 7-T MRI scanner for simultaneous PET/MRI. , 2006, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[15]  Jae Sung Lee,et al.  Initial Results of Simultaneous PET/MRI Experiments with an MRI-Compatible Silicon Photomultiplier PET Scanner , 2012, The Journal of Nuclear Medicine.

[16]  Seiichi Yamamoto,et al.  A temperature-dependent gain control system for improving the stability of Si-PM-based PET systems , 2011, Physics in medicine and biology.

[17]  Simon R. Cherry,et al.  Development of a PET detector system compatible with MRI/NMR systems , 1997 .

[18]  Simon R. Cherry,et al.  Design of a small animal MR compatible PET scanner , 1998, 1998 IEEE Nuclear Science Symposium Conference Record. 1998 IEEE Nuclear Science Symposium and Medical Imaging Conference (Cat. No.98CH36255).

[19]  S. Cherry,et al.  Simultaneous PET and MR imaging , 1997, Physics in medicine and biology.