Search Results

You are looking at 41 - 50 of 219 items for :

Clear All
Open access

Louise Wichmann Matthiessen, Helle Hjorth Johannesen, Kristin Skougaard, Julie Gehl and Helle Westergren Hendel

1999 EORTC recommendations. European Organization for Research and Treatment of Cancer (EORTC) PET Study Group. Eur J Cancer 1999; 35: 1773-82. 28. Boerner AR, Weckesser M, Herzog H, Schmitz T, Audretsch W, Nitz U, et al. Optimal scan time for fluorine-18 fluorodeoxyglucose positron emission tomography in breast cancer. Eur J Nucl Med 1999; 26: 226-30. 29. Caprio MG, Cangiano A, Imbriaco M, Soscia F, Di Martina G, Farina A et al. Dual-time-point [18F]-FDG PET/CT in the diagnostic evaluation of suspicious breast lesions. Radiol

Open access

Marek Dedecjus, Anna Kędzierska, Józef Kozak, Radzisław Kordek and Jan Brzeziński

References Halliday T, Baxter G : Lymphoma: pictorial review I. Eur Radiol 2003; 13: 1154-64. Thomas AG, Vaidhyanath R, Kirke R et al.: Extranodal lymphoma from head to toe: part 2, the trunk and extremities. Am J Roentgenol 2011; 197: 357-64. Lee WK, Duddalwar VA, Rouse HC et al.: Extranodal lymphoma in the thorax: cross - sectional imaging findings. Clin Radiol 2009; 64: 542-49. Podolff DA, Macapinlac HA : PET and PET/CT in management of the

Open access

Roberta Fusco, Mario Petrillo, Vincenza Granata, Salvatore Filice, Mario Sansone, Orlando Catalano and Antonella Petrillo

assess neoadjuvant treatment response. Functional approaches have been exploited by several authors because of their capability to assess the residual tissue ″vitality”. 25 - 35 FDG positron emission tomography coupled with computed tomography (PET/CT) is widely used and it is considered the best technique for early response monitoring after pCRT in LARC. 13 - 14 However, other functional approaches including dynamic contrast enhanced-MRI (DCE-MRI) and diffusion weighted imaging (DWI) have been adopted to discriminate responder by non-responder patients and complete

Open access

Sandra Schmitz, Denis Rommel, Nicolas Michoux, Renaud Lhommel, François-Xavier Hanin, Thierry Duprez and Jean-Pascal Machiels

inhibition modulates the microenvironment by vascular normalization to improve chemotherapy and radiotherapy efficacy. PLoS One 2009; 4: e6539. 16. Qayum N, Muschel RJ, Im JH, Balathasan L, Koch CJ, Patel S, et al. Tumor vascular changes mediated by inhibition of oncogenic signaling. Cancer Res 2009; 69: 6347-54. 17. Miles KA. Perfusion CT for the assessment of tumour vascularity: which protocol? Br J Radiol 2003; 76: S36-42. 18. Veit-Haibach P, Schmid D, Strobel K, Soyka JD, Schaefer NG, Haerle SK, et al. Combined PET/CT

Open access

Daryoush Shahbazi-Gahrouei, Pegah Moradi Khaniabadi, Saghar Shahbazi-Gahrouei, Amir Khorasani and Farshid Mahmoudi

, Liu R. Application of 18F-FDG PET/CT combined with carbohydrate antigen 19-9 for differentiating pancreatic carcinoma from chronic mass-forming pancreatitis in Chinese elderly. Clin Interv Aging. 2016;11:1365-1370. [29] Zheng X, Wang S, Wu L, Hou X. Microwave-assisted facile synthesis of mono-dispersed Ba/Ho co-doped nanohydroxyapatite for potential application as binary CT imaging contrast agent. Microchemical Journal. 2018;141:330-336. [30] Naha PC, Lau KC, Hsu JC, et al. Gold silver alloy nanoparticles (GSAN): an imaging probe for breast cancer

Open access

Bogdan Ştefan Creţu, Călin Dragosloveanu, Dragoş Cotor, Şerban Dragosloveanu and Cristian Ioan Stoica

fracture of metastasis in long bones. Acta Orthopaedica Scandinavica 1981;52:623-7. 11. Gary A. Ulaner; Alexandra M. Zindman; Junting Zheng; Tae Won B. Kim; John H. Healey. FDG PET/CT Assesses the Risk of Femoral Pathological Fractures in Patients With Metastatic Breast Cancer. Clinical Nuclear Medicine. 42(4):264–270, APR 2017 12. Haentjens P, Casteleyn PP, Opdecam P. Evaluation of impending fractures and indications for prophylactic fixation of metastases in long bones. Review of the literature. Acta Orthop Belg. 1993;59 Suppl 1:6-11. 13. Hansen BH

Open access

Răzvan Ene, Marian Pleniceanu, Mihnea Popa, Mihai Nica, Panti Zsombor, Bogdan Şerban and Cătălin Cîrstoiu

; 177:229-36. 8. Delva R, Pein F, Lortholary A et al. Bone metastases of colorectal cancers: apropos of 8 cases. Rev Med Interne. 1993; 14:223-8. 9. Nozue M, Oshiro Y, Kurata M et al. Treatment and prognosis in colorectal cancer patients with bone metastasis. Oncol Rep. 2002; 9:109-12. 10. Nakamoto Y, Cohade C, Tatsumi M, et al. CT Appearance of Bone Metastases Detected with FDG PET as Part of the Same PET/CT Examination. Radiology 2005;237:627-34. 11. Galasko CS. Diagnosis of skeletal metastases and assessment of response to treatment. Clin

Open access

Spasoje Popević, Zorica Šumarac, Dragana Jovanović, Dragan Babić, Mihailo Stjepanović, Snežana Jovičić, Dragana Šobić-Šaranović, Snežana Filipović, Branko Gvozdenović, Maja Omčikus, Anđela Milovanović, Jelica Videnović-Ivanov, Ana Radović, Vladimir Žugić and Violeta Mihailović-Vučinić

Severity. Respiration 2008; 76: 234–8. 18. Brunner J, Scholl-Bürgi S, Zimmerhackl LB. Chitotriosidase as a marker of disease activity in sarcoidosis. Rheumatol Int 2007; 27: 1171–2. 19. Braun JJ, Kessler R, Constantinesco A, Imperiale A. 18F-FDG PET/CT in sarcoidosis management: review and report of 20 cases. Eur J Nucl Med Mol Imaging 2008; 35: 1537–43. 20. Mostard RLM, Voo S, van Kroonenburgh MJ, Verschakelen JA, Wijnen PA, Nelemans PJ, et al. Inflammatory activity assessment by F18 FDG-PET/CT in persistent symptomatic sarcoidosis. Respir Med 2011

Open access

Iztok Caglic, Viljem Kovac and Tristan Barrett

patients with prostate cancer: a meta-analysis Clin Radiol 2008 63 387 – 95 10.1016/j.crad.2007.05.022 74 Vag T, Heck MM, Beer AJ, Souvatzoglou M, Weirich G, Holzapfel K, et al. Preoperative lymph node staging in patients with primary prostate cancer: comparison and correlation of quantitative imaging parameters in diffusion-weighted imaging and 11C-choline PET/CT. Eur Radiol 2014; 24: 1821-6. 10.1007/s00330-014-3240-8 Vag T Heck MM Beer AJ Souvatzoglou M Weirich G Holzapfel K et al Preoperative lymph node staging in patients

Open access

Vencel Somai, David Legrady and Gabor Tolnai

system ”) and a simplified smaller system (“ 1D model ”). Acquisition geometry for the full system can be set as wished, in our current setup it consists of a dodecagon with inscribed circle radius of 8.7 cm, packed on each side with an array of 39 × 81 LYSO detector pixels of 1.17 mm sided squares comparable to a small animal PET scanner similar to the Mediso nanoScan PET/CT scanner. Coincidence counting is accepted between detector pixels on opposite and next to opposite dodecagon sides (1:3 coincidence). The voxel space of the full system is divided into 128