Functional renal imaging with 18 F-FDS PET in rat models of renal disorders

Functional renal imaging with 18F-FDS PET in rat models of renal disorders Rudolf A. Werner1,2,3, Hiroshi Wakabayashi1,4, Xinyu Chen1,3, Mitsuru Hirano1,3, Tetsuya Shinaji1,3, Constantin Lapa1, Steven P. Rowe2, Mehrbod S. Javadi2 and Takahiro Higuchi1,3,5 1. Department of Nuclear Medicine, University Hospital Würzburg, Würzburg, Germany; 2. Division of Nuclear Medicine and Molecular Imaging, The Russell H. Morgan Department of Radiology and Radiological Science, Johns Hopkins University School of Medicine, Baltimore, MD, United States; 3. Comprehensive Heart Failure Center, University Hospital Würzburg, Würzburg, Germany 4. Department of Nuclear Medicine, Kanazawa University, Kanazawa, Japan; 5. Department of Bio Medical Imaging, National Cerebral and Cardiovascular Research Center, Suita, Osaka, Japan.

[1]  L. Marzilli,et al.  Monoanionic 99mTc-tricarbonyl-aminopolycarboxylate complexes with uncharged pendant groups: Radiosynthesis and evaluation as potential renal tubular tracers. , 2017, Nuclear medicine and biology.

[2]  J. Berlin,et al.  Phase 3 Trial of 177Lu‐Dotatate for Midgut Neuroendocrine Tumors , 2017, The New England journal of medicine.

[3]  M. Blaufox PET Measurement of Renal Glomerular Filtration Rate: Is There a Role in Nuclear Medicine? , 2016, Journal of Nuclear Medicine.

[4]  R. Hustinx,et al.  Non-invasive approaches in the diagnosis of acute rejection in kidney transplant recipients, part II: omics analyses of urine and blood samples , 2016, Clinical kidney journal.

[5]  R. Hicks,et al.  Gallium-68 EDTA PET/CT for Renal Imaging. , 2016, Seminars in nuclear medicine.

[6]  A. Buck,et al.  The impact of 177Lu-octreotide therapy on 99mTc-MAG3 clearance is not predictive for late nephropathy , 2016, Oncotarget.

[7]  M. Javadi,et al.  Initial Preclinical Evaluation of 18F-Fluorodeoxysorbitol PET as a Novel Functional Renal Imaging Agent , 2016, The Journal of Nuclear Medicine.

[8]  M. Donald Blaufox,et al.  Renal background correction and measurement of split renal function: The challenge , 2016, European Journal of Nuclear Medicine and Molecular Imaging.

[9]  M. Lipowska,et al.  Synthesis and evaluation of 99mTc(CO)3(FEDA): a new dual-purpose 99mTc/18F renal imaging agent , 2015 .

[10]  N. Hardcastle,et al.  Short communication: timeline of radiation-induced kidney function loss after stereotactic ablative body radiotherapy of renal cell carcinoma as evaluated by serial 99mTc-DMSA SPECT/CT , 2014, Radiation oncology.

[11]  Jonas Björk,et al.  Measuring GFR: a systematic review. , 2014, American journal of kidney diseases : the official journal of the National Kidney Foundation.

[12]  Andrew T. Taylor Radionuclides in Nephrourology, Part 2: Pitfalls and Diagnostic Applications , 2014, The Journal of Nuclear Medicine.

[13]  H. Biersack,et al.  Accurate assessment of long-term nephrotoxicity after peptide receptor radionuclide therapy with 177Lu-octreotate , 2014, European Journal of Nuclear Medicine and Molecular Imaging.

[14]  C. Quarles,et al.  Assessment of renal function in mice with unilateral ureteral obstruction using 99mTc-MAG3 dynamic scintigraphy , 2012, BMC Nephrology.

[15]  A. Singh,et al.  Animal models of acute renal failure , 2012, Pharmacological reports : PR.

[16]  George M. Segall,et al.  Status of and Trends in Nuclear Medicine in the United States , 2011, The Journal of Nuclear Medicine.

[17]  Martin Gotthardt,et al.  Image-Quality Assessment for Several Positron Emitters Using the NEMA NU 4-2008 Standards in the Siemens Inveon Small-Animal PET Scanner , 2010, Journal of Nuclear Medicine.

[18]  S. Textor Current approaches to renovascular hypertension. , 2009, The Medical clinics of North America.

[19]  S. Gambhir,et al.  The Synthesis of 18F-FDS and Its Potential Application in Molecular Imaging , 2008, Molecular Imaging and Biology.

[20]  Sanjiv Sam Gambhir,et al.  AMIDE: a free software tool for multimodality medical image analysis. , 2003, Molecular imaging.

[21]  Division on Earth Guide for the Care and Use of Laboratory Animals , 1996 .

[22]  K. P. Barefield,et al.  Improved formulas for the estimation of renal depth in adults. , 1993, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[23]  P W Blue,et al.  Methods for measuring GFR with technetium-99m-DTPA: an analysis of several common methods. , 1990, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[24]  N. Kurtzman,et al.  Renal tubular function in glycerol-induced acute renal failure. , 1980, Kidney international.

[25]  Homer W. Smith,et al.  RENAL EXCRETION OF HEXITOLS (SORBITOL, MANNITOL, AND DULCITOL) AND THEIR DERIVATIVES (SORBITAN, ISOMANNIDE, AND SORBIDE) AND OF ENDOGENOUS CREATININE-LIKE CHROMOGEN IN DOG AND MAN , 1940 .

[26]  Z. Szabo,et al.  Future direction of renal positron emission tomography. , 2006, Seminars in nuclear medicine.

[27]  D. D. Mcgavi MEASUREMENT OF GLOMERULAR FILTRATION-RATE. , 1965, Lancet.