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Pavel Tsitovich, J. Spernyak, J. Morrow (2013)
A redox-activated MRI contrast agent that switches between paramagnetic and diamagnetic states.Angewandte Chemie, 52 52
D. Norris (2003)
High field human imagingJournal of Magnetic Resonance Imaging, 18
R. Cox (1996)
AFNI: software for analysis and visualization of functional magnetic resonance neuroimages.Computers and biomedical research, an international journal, 29 3
M. McMahon, A. Gilad, Jinyuan Zhou, P. Sun, J. Bulte, P. Zijl (2006)
Quantifying exchange rates in chemical exchange saturation transfer agents using the saturation time and saturation power dependencies of the magnetization transfer effect on the magnetic resonance imaging signal (QUEST and QUESP): Ph calibration for poly‐L‐lysine and a starburst dendrimerMagnetic Resonance in Medicine, 55
Qianni Guo, Qingbin Zeng, Weiping Jiang, Xiaoxiao Zhang, Qing Luo, Xu Zhang, L. Bouchard, Maili Liu, Xin Zhou (2016)
A Molecular Imaging Approach to Mercury Sensing Based on Hyperpolarized (129)Xe Molecular Clamp Probe.Chemistry, 22 12
Xing Yang, Xiaolei Song, Sangeeta Banerjee, Yuguo Li, Youngjoo Byun, Guanshu Liu, Z. Bhujwalla, M. Pomper, M. McMahon (2016)
Developing imidazoles as CEST MRI pH sensors.Contrast media & molecular imaging, 11 4
N. Amor, Paul Zänker, P. Blümler, F. Meise, Laura Schreiber, Alexander Scholz, Jörg Schmiedeskamp, H. Spiess, Kerstin Münnemann (2009)
Magnetic resonance imaging of dissolved hyperpolarized 129Xe using a membrane-based continuous flow system.Journal of magnetic resonance, 201 1
Marie-France Penet, D. Artemov, K. Farahani, Z. Bhujwalla (2013)
MR – eyes for cancer: looking within an impenetrable diseaseNMR in Biomedicine, 26
N. Cakić, Tanja Savić, J. Stricker-Shaver, V. Truffault, C. Platas‐Iglesias, C. Mirkes, R. Pohmann, K. Scheffler, G. Angelovski (2016)
Paramagnetic lanthanide chelates for multicontrast MRI.Chemical communications, 52 59
Xiaolei Song, P. Walczak, Xiaowei He, Xing Yang, M. Pearl, J. Bulte, M. Pomper, M. McMahon, M. Janowski (2016)
Salicylic acid analogues as chemical exchange saturation transfer MRI contrast agents for the assessment of brain perfusion territory and blood–brain barrier opening after intra-arterial infusionJournal of Cerebral Blood Flow & Metabolism, 36
Jinyuan Zhou, B. Lal, D. Wilson, J. Laterra, P. Zijl (2003)
Amide proton transfer (APT) contrast for imaging of brain tumorsMagnetic Resonance in Medicine, 50
L. Shrode, H. Tapper, S. Grinstein (1997)
Role of Intracellular pH in Proliferation, Transformation, and ApoptosisJournal of Bioenergetics and Biomembranes, 29
Jae-Seung Lee, R. Regatte, A. Jerschow (2012)
Isolating chemical exchange saturation transfer contrast from magnetization transfer asymmetry under two-frequency rf irradiation.Journal of magnetic resonance, 215
Guanshu Liu, M. Moake, Y. Har-el, C. Long, Kannie Chan, A. Cardona, M. Jamil, P. Walczak, A. Gilad, G. Sgouros, P. Zijl, J. Bulte, M. McMahon (2012)
In vivo multicolor molecular MR imaging using diamagnetic chemical exchange saturation transfer liposomesMagnetic Resonance in Medicine, 67
(2016)
Synthesis and characterisation of bismacrocyclic DO3A-amide derivatives: an approach towards metalresponsive PARACEST agents
Ana Esqueda, Jorge López, Gabriel Andreu-de-Riquer, J. Alvarado-Monzón, James Ratnakar, A. Lubag, A. Sherry, Luis Leon-Rodriguez (2009)
A new gadolinium-based MRI zinc sensor.Journal of the American Chemical Society, 131 32
Ethel Ngen, A. Bar‐Shir, A. Jabłońska, Guanshu Liu, Xiaolei Song, R. Ansari, J. Bulte, M. Janowski, M. Pearl, P. Walczak, A. Gilad (2016)
Imaging the DNA Alkylator Melphalan by CEST MRI: An Advanced Approach to Theranostics.Molecular pharmaceutics, 13 9
A. Bar‐Shir, Nirbhay Yadav, A. Gilad, P. Zijl, M. McMahon, J. Bulte (2014)
Single 19F Probe for Simultaneous Detection of Multiple Metal Ions Using miCEST MRIJournal of the American Chemical Society, 137
E. Terreno, D. Castelli, S. Aime (2010)
Encoding the frequency dependence in MRI contrast media: the emerging class of CEST agents.Contrast media & molecular imaging, 5 2
A. Dagher, A. Aletras, Peter Choyke, R. Balaban (2000)
Imaging of urea using chemical exchange‐dependent saturation transfer at 1.5TJournal of Magnetic Resonance Imaging, 12
N. Oskolkov, A. Bar‐Shir, Kannie Chan, Xiaolei Song, P. Zijl, J. Bulte, A. Gilad, M. McMahon (2014)
Biophysical Characterization of Human Protamine-1 as a Responsive CEST MR Contrast AgentACS Macro Letters, 4
Jinyuan Zhou, J. Payen, David Wilson, R. Traystman, P. Zijl (2003)
Using the amide proton signals of intracellular proteins and peptides to detect pH effects in MRINature Medicine, 9
R. Chen, F. Fan, S. Kim, K. Jan, S. Usami, S. Chien (1980)
Tissue-blood partition coefficient for xenon: temperature and hematocrit dependence.Journal of applied physiology: respiratory, environmental and exercise physiology, 49 2
A. Bar‐Shir, Guanshu Liu, Kannie Chan, N. Oskolkov, Xiaolei Song, Nirbhay Yadav, P. Walczak, M. McMahon, P. Zijl, J. Bulte, A. Gilad (2014)
Human protamine-1 as an MRI reporter gene based on chemical exchange.ACS chemical biology, 9 1
J. Döpfert, Christopher Witte, L. Schröder (2014)
Fast gradient-encoded CEST spectroscopy of hyperpolarized xenon.Chemphyschem : a European journal of chemical physics and physical chemistry, 15 2
Jiadi Xu, Nirbhay Yadav, A. Bar‐Shir, Craig Jones, Kannie Chan, Jiangyang Zhang, P. Walczak, M. McMahon, P. Zijl (2014)
Variable delay multi‐pulse train for fast chemical exchange saturation transfer and relayed‐nuclear overhauser enhancement MRIMagnetic Resonance in Medicine, 71
A. Bar‐Shir, A. Gilad, Kannie Chan, Guanshu Liu, P. Zijl, J. Bulte, M. McMahon (2013)
Metal ion sensing using ion chemical exchange saturation transfer 19F magnetic resonance imaging.Journal of the American Chemical Society, 135 33
Sarina Dorazio, Abiola Olatunde, J. Spernyak, J. Morrow (2013)
CoCEST: cobalt(II) amide-appended paraCEST MRI contrast agents.Chemical communications, 49 85
F. Kogan, M. Haris, Anup Singh, K. Cai, C. Debrosse, R. Nanga, H. Hariharan, R. Reddy (2014)
Method for high‐resolution imaging of creatine in vivo using chemical exchange saturation transferMagnetic Resonance in Medicine, 71
G. Rancan, D. Castelli, S. Aime (2016)
MRI CEST at 1T with large µeff Ln3+ complexes T m3+‐HPDO3A: An efficient MRI pH reporterMagnetic Resonance in Medicine, 75
Stefan Klippel, J. Döpfert, J. Jayapaul, M. Kunth, Federica Rossella, M. Schnurr, Christopher Witte, C. Freund, L. Schröder (2014)
Cell tracking with caged xenon: using cryptophanes as MRI reporters upon cellular internalization.Angewandte Chemie, 53 2
Liu Chen, C. Howison, J. Jeffery, I. Robey, P. Kuo, M. Pagel (2014)
Evaluations of extracellular pH within in vivo tumors using acidoCEST MRIMagnetic Resonance in Medicine, 72
Kannie Chan, Guanshu Liu, P. Zijl, J. Bulte, M. McMahon (2014)
Magnetization transfer contrast MRI for non-invasive assessment of innate and adaptive immune responses against alginate-encapsulated cells.Biomaterials, 35 27
E. Oetjen (2012)
Noninvasive MRI of β-cell function using a Zn2+-responsive contrast agentYearbook of Endocrinology, 2012
Shanrong Zhang, P. Winter, Kuangcong Wu, A. Sherry (2001)
A novel europium(III)-based MRI contrast agent.Journal of the American Chemical Society, 123 7
B. Barnett, J. Ruíz-Cabello, Partha Hota, R. Liddell, P. Walczak, Valerie Howland, V. Chacko, D. Kraitchman, A. Arepally, J. Bulte (2011)
Fluorocapsules for improved function, immunoprotection, and visualization of cellular therapeutics with MR, US, and CT imaging.Radiology, 258 1
(1964)
Carbon - 13 chemical shiftsþ intramolecular hydrogen bonding
Mark Cohen (1997)
Parametric Analysis of fMRI Data Using Linear Systems MethodsNeuroImage, 6
Byunghee Yoo, M. Pagel (2008)
An overview of responsive MRI contrast agents for molecular imaging.Frontiers in bioscience : a journal and virtual library, 13
Kannie Chan, Guanshu Liu, Xiaolei Song, Heechul Kim, Tao Yu, D. Arifin, A. Gilad, J. Hanes, P. Walczak, P. Zijl, J. Bulte, M. McMahon (2012)
MRI-detectable pH nanosensors incorporated into hydrogels for in vivo sensing of transplanted cell viabilityNature materials, 12
W. Mock, Layne Morsch (2001)
Low barrier hydrogen bonds within salicylate mono-anionsTetrahedron, 57
P. Nikolaou, A. Coffey, L. Walkup, Brogan Gust, N. Whiting, Hayley Newton, I. Muradyan, M. Dabaghyan, K. Ranta, Gregory Moroz, M. Rosen, S. Patz, M. Barlow, E. Chekmenev, B. Goodson (2014)
XeNA: an automated 'open-source' (129)Xe hyperpolarizer for clinical use.Magnetic resonance imaging, 32 5
J. Döpfert, Christopher Witte, M. Kunth, L. Schröder (2013)
Sensitivity enhancement of (Hyper-)CEST image series by exploiting redundancies in the spectral domain.Contrast media & molecular imaging, 9 1
C. Farrar, J. Buhrman, Guanshu Liu, A. Kleijn, M. Lamfers, M. McMahon, A. Gilad, G. Fulci (2015)
Establishing the Lysine-rich Protein CEST Reporter Gene as a CEST MR Imaging Detector for Oncolytic Virotherapy.Radiology, 275 3
Tao Yu, Kannie Chan, Abraham Anonuevo, Xiaolei Song, Benjamin Schuster, Sumon Chattopadhyay, Qingguo Xu, N. Oskolkov, Himat Patel, L. Ensign, Peter Zjil, M. McMahon, J. Hanes (2015)
Liposome-based mucus-penetrating particles (MPP) for mucosal theranostics: demonstration of diamagnetic chemical exchange saturation transfer (diaCEST) magnetic resonance imaging (MRI).Nanomedicine : nanotechnology, biology, and medicine, 11 2
S. Aime, D. Castelli, F. Fedeli, E. Terreno (2002)
A paramagnetic MRI-CEST agent responsive to lactate concentration.Journal of the American Chemical Society, 124 32
Xiang Xu, Nirbhay Yadav, Linda Knutsson, J. Hua, R. Kalyani, Erica Hall, J. Laterra, J. Blakeley, R. Strowd, M. Pomper, P. Barker, Kannie Chan, Guanshu Liu, M. McMahon, R. Stevens, P. Zijl (2015)
Dynamic Glucose-Enhanced (DGE) MRI: Translation to Human Scanning and First Results in Glioma PatientsTomography, 1
Kannie Chan, M. McMahon, Y. Kato, Guanshu Liu, J. Bulte, Z. Bhujwalla, D. Artemov, P. Zijl (2012)
Natural D‐glucose as a biodegradable MRI contrast agent for detecting cancerMagnetic Resonance in Medicine, 68
I. Hancu, W. Dixon, M. Woods, E. Vinogradov, A. Sherry, A. Sherry, R. Lenkinski (2010)
CEST and PARACEST MR contrast agentsActa Radiologica, 51
N. Tassali, N. Kotera, C. Boutin, E. Léonce, Y. Boulard, B. Rousseau, E. Dubost, F. Taran, T. Brotin, J. Dutasta, P. Berthault (2014)
Smart detection of toxic metal ions, Pb2+ and Cd2+, using a 129Xe NMR-based sensor.Analytical chemistry, 86 3
Stephen Smith, M. Jenkinson, M. Woolrich, C. Beckmann, Timothy Behrens, H. Johansen-Berg, P. Bannister, M. Luca, I. Drobnjak, D. Flitney, R. Niazy, James Saunders, J. Vickers, Yongyue Zhang, N. Stefano, J. Brady, P. Matthews (2004)
Advances in functional and structural MR image analysis and implementation as FSLNeuroImage, 23
A. Müller-Lutz, N. Khalil, B. Schmitt, V. Jellús, G. Pentang, Georg Oeltzschner, G. Antoch, R. Lanzman, H. Wittsack (2014)
Pilot study of Iopamidol-based quantitative pH imaging on a clinical 3T MR scannerMagnetic Resonance Materials in Physics, Biology and Medicine, 27
A. Bar‐Shir, J. Bulte, A. Gilad (2015)
Molecular engineering of nonmetallic biosensors for CEST MRI.ACS chemical biology, 10 5
Nicholas Goffeney, J. Bulte, Jeff Duyn, L. Bryant, P. Zijl (2001)
Sensitive NMR detection of cationic-polymer-based gene delivery systems using saturation transfer via proton exchange.Journal of the American Chemical Society, 123 35
Byunghee Yoo, M. Pagel (2006)
A PARACEST MRI contrast agent to detect enzyme activity.Journal of the American Chemical Society, 128 43
Mikhail Shapiro, R. Ramirez, Lindsay Sperling, G. Sun, Jinny Sun, A. Pines, David Schaffer, V. Bajaj (2014)
Genetically encoded reporters for hyperpolarized xenon magnetic resonance imaging.Nature chemistry, 6 7
(2016)
Developing imidazoles as CEST MRI Copyright © 2016
P. Bandettini, A. Jesmanowicz, E. Wong, J. Hyde (1993)
Processing strategies for time‐course data sets in functional mri of the human brainMagnetic Resonance in Medicine, 30
Guanshu Liu, Xiaolei Song, Kannie Chan, M. McMahon (2013)
Nuts and bolts of chemical exchange saturation transfer MRINMR in Biomedicine, 26
Anup Singh, K. Cai, M. Haris, H. Hariharan, R. Reddy (2013)
On B1 inhomogeneity correction of in vivo human brain glutamate chemical exchange saturation transfer contrast at 7TMagnetic Resonance in Medicine, 69
R. Wu, D. Longo, S. Aime, P. Sun (2015)
Quantitative description of radiofrequency (RF) power‐based ratiometric chemical exchange saturation transfer (CEST) pH imagingNMR in Biomedicine, 28
Jeroen Pikkemaat, René Wegh, R. Lamerichs, R. Molengraaf, S. Langereis, D. Burdinski, A.Y.F. Raymond, A.Y.F. Raymond, Henk Janssen, Bas Waal, Nicolaas Willard, E. Meijer, Holger Grüll (2007)
Dendritic PARACEST contrast agents for magnetic resonance imaging.Contrast media & molecular imaging, 2 5
K. Cai, M. Haris, Anup Singh, F. Kogan, J. Greenberg, H. Hariharan, J. Detre, R. Reddy (2011)
Magnetic Resonance Imaging of GlutamateNature medicine, 18
P. Zijl, P. Zijl, Craig Jones, Craig Jones, Jimin Ren, C. Malloy, A. Sherry (2007)
MRI detection of glycogen in vivo by using chemical exchange saturation transfer imaging (glycoCEST)Proceedings of the National Academy of Sciences, 104
Xing Yang, Nirbhay Yadav, Xiaolei Song, Sangeeta Banerjee, Hannah Edelman, I. Minn, P. Zijl, M. Pomper, M. McMahon (2014)
Tuning phenols with Intra-Molecular bond Shifted HYdrogens (IM-SHY) as diaCEST MRI contrast agents.Chemistry, 20 48
P. Nikolaou, A. Coffey, L. Walkup, Brogan Gust, N. Whiting, Hayley Newton, S. Barcus, I. Muradyan, M. Dabaghyan, Gregory Moroz, M. Rosen, S. Patz, M. Barlow, E. Chekmenev, B. Goodson (2013)
Near-unity nuclear polarization with an open-source 129Xe hyperpolarizer for NMR and MRIProceedings of the National Academy of Sciences, 110
P. Zijl, Nirbhay Yadav (2011)
Chemical exchange saturation transfer (CEST): What is in a name and what isn't?Magnetic Resonance in Medicine, 65
B. Barnett, A. Arepally, P. Karmarkar, D. Qian, W. Gilson, P. Walczak, Valerie Howland, L. Lawler, Cal Lauzon, M. Stuber, D. Kraitchman, J. Bulte (2007)
Magnetic resonance–guided, real-time targeted delivery and imaging of magnetocapsules immunoprotecting pancreatic islet cellsNature Medicine, 13
Nirbhay Yadav, Craig Jones, Jiadi Xu, A. Bar‐Shir, A. Gilad, M. McMahon, P. Zijl (2012)
Detection of rapidly exchanging compounds using on‐resonance frequency‐labeled exchange (FLEX) transferMagnetic Resonance in Medicine, 68
Alex Li, F. Wojciechowski, M. Suchý, Craig Jones, R. Hudson, Ravi Menon, R. Bartha (2008)
A sensitive PARACEST contrast agent for temperature MRI: Eu3+‐DOTAM‐glycine (Gly)‐phenylalanine (Phe)Magnetic Resonance in Medicine, 59
Xiaolei Song, A. Gilad, S. Joel, Guanshu Liu, A. Bar‐Shir, Yajie Liang, M. Gorelik, J. Pekar, P. Zijl, J. Bulte, M. McMahon (2012)
CEST phase mapping using a length and offset varied saturation (LOVARS) schemeMagnetic Resonance in Medicine, 68
Jikun Li, Xinxin Feng, Wei Zhu, N. Oskolkov, Tianhui Zhou, Boo Kim, Noman Baig, M. McMahon, E. Oldfield (2016)
Chemical Exchange Saturation Transfer (CEST) Agents: Quantum Chemistry and MRI.Chemistry, 22 1
Karl Friston, A. Holmes, K. Worsley, J. Poline, C. Frith, Richard Frackowiak (1994)
Statistical parametric maps in functional imaging: A general linear approachHuman Brain Mapping, 2
A. Bar‐Shir, Yajie Liang, Kannie Chan, A. Gilad, J. Bulte (2015)
Supercharged green fluorescent proteins as bimodal reporter genes for CEST MRI and optical imaging.Chemical communications, 51 23
J. Flament, F. Geffroy, C. Médina, C. Robic, Jean-François Mayer, S. Mériaux, J. Valette, P. Robert, M. Port, D. Bihan, F. Lethimonnier, F. Boumezbeur (2013)
In vivo CEST MR imaging of U87 mice brain tumor angiogenesis using targeted LipoCEST contrast agent at 7 TMagnetic Resonance in Medicine, 69
R. Airan, A. Bar‐Shir, Guanshu Liu, G. Pelled, M. McMahon, P. Zijl, J. Bulte, A. Gilad (2012)
MRI biosensor for protein kinase A encoded by a single synthetic geneMagnetic Resonance in Medicine, 68
I. Minn, A. Bar‐Shir, Keerthi Yarlagadda, J. Bulte, P. Fisher, Hao Wang, A. Gilad, M. Pomper (2015)
Tumor‐specific expression and detection of a CEST reporter geneMagnetic Resonance in Medicine, 74
M. Mckeown, S. Makeig, Greg Brown, Tzyy-Ping Jung, S. Kindermann, Anthony Bell, T. Sejnowski (1998)
Analysis of fMRI data by blind separation into independent spatial componentsHuman Brain Mapping, 6
Story Landis, S. Amara, K. Asadullah, Chris Austin, R. Blumenstein, Eileen Bradley, R. Crystal, R. Darnell, R. Ferrante, H. Fillit, R. Finkelstein, M. Fisher, H. Gendelman, R. Golub, J. Goudreau, R. Gross, A. Gubitz, Sharon Hesterlee, D. Howells, J. Huguenard, Katrina Kelner, W. Koroshetz, D. Krainc, S. Lazic, M. Levine, M. Macleod, J. Mccall, R. Moxley, K. Narasimhan, L. Noble, S. Perrin, J. Porter, O. Steward, E. Unger, U. Utz, S. Silberberg (2012)
A call for transparent reporting to optimize the predictive value of preclinical researchNature, 490
M. McMahon, A. Gilad, M. DeLiso, Stacey Berman, J. Bulte, P. Zijl (2008)
New “multicolor” polypeptide diamagnetic chemical exchange saturation transfer (DIACEST) contrast agents for MRIMagnetic Resonance in Medicine, 60
P. Winter, K. Cai, Junjie Chen, C. Adair, G. Kiefer, Phillip Athey, P. Gaffney, C. Buff, J. Robertson, S. Caruthers, S. Wickline, G. Lanza (2006)
Targeted PARACEST nanoparticle contrast agent for the detection of fibrinMagnetic Resonance in Medicine, 56
(2014)
XeNA: an automated ‘opensource’ Xe-129 hyperpolarizer for clinical use
Guanshu Liu, A. Gilad, J. Bulte, P. Zijl, M. McMahon (2010)
High-throughput screening of chemical exchange saturation transfer MR contrast agents.Contrast media & molecular imaging, 5 3
Yubin Bai, Yanfei Wang, M. Goulian, A. Driks, I. Dmochowski (2014)
Bacterial spore detection and analysis using hyperpolarized 129Xe chemical exchange saturation transfer (Hyper-CEST) NMR.Chemical science, 5 8
Kannie Chan, Tao Yu, Yuan Qiao, Qiang Liu, Ming Yang, Himat Patel, Guanshu Liu, K. Kinzler, B. Vogelstein, J. Bulte, P. Zijl, J. Hanes, Shibin Zhou, M. McMahon (2014)
A diaCEST MRI approach for monitoring liposomal accumulation in tumors.Journal of controlled release : official journal of the Controlled Release Society, 180
M. Zaiss, B. Schmitt, P. Bachert (2011)
Quantitative separation of CEST effect from magnetization transfer and spillover effects by Lorentzian-line-fit analysis of z-spectra.Journal of magnetic resonance, 211 2
D. Longo, W. Dastrù, G. Digilio, J. Keupp, S. Langereis, S. Lanzardo, Simone Prestigio, O. Steinbach, E. Terreno, F. Uggeri, S. Aime (2011)
Iopamidol as a responsive MRI‐chemical exchange saturation transfer contrast agent for pH mapping of kidneys: In vivo studies in mice at 7 TMagnetic Resonance in Medicine, 65
L. Schröder, T. Lowery, C. Hilty, D. Wemmer, A. Pines (2006)
Molecular Imaging Using a Targeted Magnetic Resonance Hyperpolarized BiosensorScience, 314
S. Aime, L. Calabi, L. Biondi, M. Miranda, S. Ghelli, L. Paleari, Cristina Rebaudengo, E. Terreno (2005)
Iopamidol: Exploring the potential use of a well‐established x‐ray contrast agent for MRIMagnetic Resonance in Medicine, 53
Ji Zhang, Weiping Jiang, Qing Luo, Xiaoxiao Zhang, Qianni Guo, Maili Liu, Xin Zhou (2014)
Rational design of hyperpolarized xenon NMR molecular sensor for the selective and sensitive determination of zinc ions.Talanta, 122
(2009)
Magnetic resonance imaging of dissolved hyperpolarized Xe-129 using a membrane-based continuous flow system
M. Ali, Guanshu Liu, Tejas Shah, C. Flask, M. Pagel (2009)
Using two chemical exchange saturation transfer magnetic resonance imaging contrast agents for molecular imaging studies.Accounts of chemical research, 42 7
B. Goodson (2002)
Nuclear magnetic resonance of laser-polarized noble gases in molecules, materials, and organisms.Journal of magnetic resonance, 155 2
A. Bar‐Shir, Guanshu Liu, Yajie Liang, Nirbhay Yadav, M. McMahon, P. Walczak, S. Nimmagadda, M. Pomper, K. Tallman, M. Greenberg, P. Zijl, J. Bulte, A. Gilad (2013)
Transforming thymidine into a magnetic resonance imaging probe for monitoring gene expression.Journal of the American Chemical Society, 135 4
Abiola Olatunde, Sarina Dorazio, J. Spernyak, J. Morrow (2012)
The NiCEST approach: nickel(II) paraCEST MRI contrast agents.Journal of the American Chemical Society, 134 45
S. Aime, A. Barge, D. Castelli, F. Fedeli, A. Mortillaro, F. Nielsen, E. Terreno (2002)
Paramagnetic Lanthanide(III) complexes as pH‐sensitive chemical exchange saturation transfer (CEST) contrast agents for MRI applicationsMagnetic Resonance in Medicine, 47
S. Forsén, R. Hoffman, E. Hirvisalo, J. Munch‐Petersen (1963)
A New Method for the Study of Moderately Rapid Chemical Exchange Rates Employing Nuclear Magnetic Double Resonance.Acta Chemica Scandinavica, 17
A. Gilad, M. McMahon, P. Walczak, P. Winnard, V. Raman, H. Laarhoven, Cynthia Skoglund, J. Bulte, P. Zijl (2007)
Artificial reporter gene providing MRI contrast based on proton exchangeNature Biotechnology, 25
Subha Viswanathan, S. Ratnakar, K. Green, Z. Kovács, -. LuisM.DeLeón, Rodríguez, A. Sherry (2009)
Multi-frequency PARACEST agents based on europium(III)-DOTA-tetraamide ligands.Angewandte Chemie, 48 49
W. Lesniak, N. Oskolkov, Xiaolei Song, B. Lal, Xing Yang, M. Pomper, J. Laterra, S. Nimmagadda, M. McMahon (2016)
Salicylic Acid Conjugated Dendrimers Are a Tunable, High Performance CEST MRI NanoPlatform.Nano letters, 16 4
S. Aime, D. Castelli, E. Terreno (2005)
Highly sensitive MRI chemical exchange saturation transfer agents using liposomes.Angewandte Chemie, 44 34
G. Angelovski, Thomas Chauvin, R. Pohmann, N. Logothetis, É. Tóth (2011)
Calcium-responsive paramagnetic CEST agents.Bioorganic & medicinal chemistry, 19 3
J. Petrone (2016)
DNA writers attract investorsNature Biotechnology, 34
N. Cakić, Tatjana Verbić, Ratomir Jelić, C. Platas‐Iglesias, G. Angelovski (2016)
Synthesis and characterisation of bismacrocyclic DO3A-amide derivatives - an approach towards metal-responsive PARACEST agents.Dalton transactions, 45 15
S. Wolff, R. Balaban (1990)
NMR imaging of labile proton exchangeJournal of Magnetic Resonance, 86
Lubag (2011)
Noninvasive MRI of beta-cell function using a Zn2+-responsive contrast agentProc Natl Acad Sci U S A, 108
T. Stevens, K. Palaniappan, R. Ramirez, M. Francis, D. Wemmer, A. Pines (2013)
HyperCEST detection of a 129Xe‐based contrast agent composed of cryptophane‐A molecular cages on a bacteriophage scaffoldMagnetic Resonance in Medicine, 69
Sarina Dorazio, Pavel Tsitovich, Kevin Siters, J. Spernyak, J. Morrow (2011)
Iron(II) PARACEST MRI contrast agents.Journal of the American Chemical Society, 133 36
(2011)
Iopamidol as a responsive MRIchemical exchange saturation transfer contrast agent for pH mapping of kidneys: in vivo studies in mice
G. Maciel, G. Savitsky (1964)
Carbon-13 Chemical Shifts and Intramolecular Hydrogen BondingThe Journal of Physical Chemistry, 68
S. Forsén, R. Hoffman (1963)
Study of Moderately Rapid Chemical Exchange Reactions by Means of Nuclear Magnetic Double ResonanceJournal of Chemical Physics, 39
M. Rosen, T. Chupp, K. Coulter, R. Welsh, S. Swanson (1999)
Polarized 129Xe optical pumping/spin exchange and delivery system for magnetic resonance spectroscopy and imaging studiesReview of Scientific Instruments, 70
(2005)
Developing a new class of CEST reporter genes
Z. Zu, Junzhong Xu, Hua Li, E. Chekmenev, C. Quarles, M. Does, John Gore, D. Gochberg (2014)
Imaging amide proton transfer and nuclear overhauser enhancement using chemical exchange rotation transfer (CERT)Magnetic Resonance in Medicine, 72
S. Swanson, M. Rosen, K. Coulter, R. Welsh, T. Chupp (1999)
Distribution and dynamics of laser-polarized (129)Xe magnetization in vivo.Magnetic resonance in medicine, 42 6
Shanrong Zhang, Shanrong Zhang, M. Merritt, D. Woessner, R. Lenkinski, A. Sherry (2003)
PARACEST agents: modulating MRI contrast via water proton exchange.Accounts of chemical research, 36 10
P. Sun, Jinyuan Zhou, Weiyun Sun, Judy Huang, P. Zijl (2005)
Suppression of lipid artifacts in amide proton transfer imagingMagnetic Resonance in Medicine, 54
F. Nasrallah, G. Pagés, P. Kuchel, X. Golay, K. Chuang (2013)
Imaging Brain Deoxyglucose Uptake and Metabolism by Glucocest MRIJournal of Cerebral Blood Flow & Metabolism, 33
Joshua Friedman, M. McMahon, J. Stivers, P. Zijl (2010)
Indirect detection of labile solute proton spectra via the water signal using frequency-labeled exchange (FLEX) transfer.Journal of the American Chemical Society, 132 6
V. Calhoun, T. Adalı, G. Pearlson, J. Pekar (2001)
Spatial and temporal independent component analysis of functional MRI data containing a pair of task‐related waveformsHuman Brain Mapping, 13
AbstractChemical exchange saturation transfer (CEST) is a powerful new tool well suited for molecular imaging. This technology enables the detection of low concentration probes through selective labeling of rapidly exchanging protons or other spins on the probes. In this review, we will highlight the unique features of CEST imaging technology and describe the different types of CEST agents that are suited for molecular imaging studies, including CEST theranostic agents, CEST reporter genes, and CEST environmental sensors.
Topics in Magnetic Resonance Imaging – Wolters Kluwer Health
Published: Oct 1, 2016
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