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Your search keyword '"McMurry, Thomas J."' showing total 49 results
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49 results on '"McMurry, Thomas J."'

3. Synthesis and evaluation of a high relaxivity manganese(II)-based MRI contrast agent

Author

Troughton, Jeffrey S., Greenfireld, Mathew T., Greenwood, Jacklyn M., Dumas, Stephane, Witheoff, Andrea, Wang, Jufeng, Spiller, Marga, McMurry, Thomas J., and Caravan, Pater

Subjects
Blood plasma -- Composition, Chemical reactions -- Evaluation, Manganese -- Chemical properties, Chemistry
Abstract

The manganese complex(II) exhibits high relaxivity in blood plasma because it binds to serum albumin. It has a fast water exchange rate, which enables high resolution imaging of blood vessels in vivo.

Published
2004

4. The interaction of MS-325 with human serum albumin and its effect on proton relaxation rates

Author

Caravan, Peter, Cloutier, Normand J., Greenfield, Matthew T., McDermid, Sarah A., Horrocks, William DeW., Jr, McMurry, Thomas j, Dunham, Stephen U., Bulte, Jeff W.M., Amedio, John C., Jr., Looby, Richard J., and Supkowski, Ronald M.

Subjects
Protons -- Research, Magnetic resonance imaging -- Research, Serum albumin -- Research, Chemistry
Abstract

MS-325 functions by binding to human serum albumin (HSA) in plasma, binding to HSA serves to prolong plasma half-life, retain the agent in the blood pool, and increase the relaxation rate of water protons in plasma. The results suggest that MS-325 binds primarily to site II on HSA, the relaxivity of MS-325 when bound to HSA is shown to be site dependent.

Published
2002

5. Gadolinium(III) chelates as MRI contrast agents: structure, dynamics, and applications

Author

Caravan, Peter, Ellison, Jeffrey J., McMurry, Thomas J., and Lauffer, Randall B.

Subjects
Inorganic compounds, Gadolinium, Contrast media -- Research, Magnetic resonance imaging -- Equipment and supplies, Chemistry
Abstract

The structure, physical properties, macromolecular conjugates, and applications of gadolinium are described. Gadolinium is used as a contrast agent in MRI imaging because it has magnetic properties.

Published
1999

8. EP-2104R: a fibrin-specific gadolinium-based MRI contrast agent for detection of thrombus

Author

Overoye-Chan, Kirsten, Koerner, Steffi, Looby, Richard J., Kolodziej, Andrew F., Zech, Stephan G., Qing Deng, Chasse, Jaclyn M., McMurry, Thomas J., and Caravan, Peter

Subjects
Fibrin -- Chemical properties, Gadolinium -- Chemical properties, Magnetic resonance imaging -- Research, Protein binding -- Research, Chemistry
Abstract

EP-2104R is an MRI contrast agent that is designed to detect thrombus by binding to the protein fibrin, present in all thrombi. Strong fibrin binding, fibrin selectivity and high molecular relaxivity have enabled EP-2104R to detect blood clots in vivo.

Published
2008

9. Albumin binding, relaxivity, and water exchange kinetics of the diastereoisomers of MS-325, a gadolinium(III)-based magnetic resonance angiography contrast agent

Author

Caravan, Peter, Parigi, Giacomo, Chasse, Jaclyn M., Cloutier, Normand J., Ellison, Jeffrey J., Lauffer, Randall B., Luchinat, Claudio, McDermid, Sarah A., Spiller, Marga, and McMurry, Thomas J.

Subjects
Gadolinium -- Structure, Nuclear magnetic resonance spectroscopy -- Analysis, Serum albumin -- Properties, Ultrafiltration -- Analysis, Magnetic resonance angiography -- Analysis, Chemistry
Abstract

The diastereoisomers of amphiphilic gadolinium complex MS-325 are shown as contrast agents for magnetic resonance angiography (MRA). The differences in the relaxivity in human serum albumin (HSA) between the two isomers are attributed to the differing water exchange rates.

Published
2007

17. Cover Picture: When are Two Waters Worse Than One? Doubling the Hydration Number of a Gd–DTPA Derivative Decreases Relaxivity (Chem. Eur. J. 20/2005)

Author

Caravan, Peter, primary, Amedio, John C., additional, Dunham, Stephen U., additional, Greenfield, Matthew T., additional, Cloutier, Normand J., additional, McDermid, Sarah A., additional, Spiller, Marga, additional, Zech, Stephan G., additional, Looby, Richard J., additional, Raitsimring, Arnold M., additional, McMurry, Thomas J., additional, and Lauffer, Randall B., additional

Published
2005
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18. When are Two Waters Worse Than One? Doubling the Hydration Number of a Gd–DTPA Derivative Decreases Relaxivity

Author

Caravan, Peter, primary, Amedio, John C., additional, Dunham, Stephen U., additional, Greenfield, Matthew T., additional, Cloutier, Normand J., additional, McDermid, Sarah A., additional, Spiller, Marga, additional, Zech, Stephan G., additional, Looby, Richard J., additional, Raitsimring, Arnold M., additional, McMurry, Thomas J., additional, and Lauffer, Randall B., additional

Published
2005
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19. The Effect of a Phosphodiester Linking Group on Albumin Binding, Blood Half-Life, and Relaxivity of Intravascular Diethylenetriaminepentaacetato Aquo Gadolinium(III) MRI Contrast Agents

Author

McMurry, Thomas J., primary, Parmelee, David J., additional, Sajiki, Hironao, additional, Scott, Daniel M., additional, Ouellet, Hillori S., additional, Walovitch, Richard C., additional, Tyeklár, Zoltán, additional, Dumas, Stéphane, additional, Bernard, Paul, additional, Nadler, Samuel, additional, Midelfort, Katarina, additional, Greenfield, Matthew, additional, Troughton, Jeffrey, additional, and Lauffer, Randall B., additional

Published
2002
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23. MS-325: A small-molecule vascular imaging agent for magnetic resonance imaging

Author

Lauffer, Randall B., primary, Parmelee, David J., additional, Ouellet, Huillori S., additional, Dolan, Robert P., additional, Sajiki, Hironao, additional, Scott, Daniel M., additional, Bernard, Paul J., additional, Buchanan, Erin M., additional, Ong, Karen Y., additional, Tyeklár, Zoltán, additional, Midelfort, Katarina S., additional, McMurry, Thomas J., additional, and Walovitch, Richard C., additional

Published
1996
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25. Lead(II) complexes of 1,4,7,10-tetraazacyclododecane-N,N′,N″,N‴-tetraacetate: solution chemistry and application to tumor localization with 203Pb labeled monoclonal antibodies

Author

Pippin, C.Greg, primary, McMurry, Thomas J., additional, Brechbiel, Martin W., additional, McDonald, Michael, additional, Lambrecht, Richard, additional, Milenic, Diane, additional, Roselli, Mario, additional, Colcher, David, additional, and Gansow, Otto A., additional

Published
1995
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33. Enzyme-Activated Gd.

Author

Nivorozhkin, Alexander L., Kolodziej, Andrew F., Caravan, Peter, Greenfield, Matthew T., Lauffer, Randall B., and McMurry, Thomas J.

Published
2001
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46. When are two waters worse than one? Doubling the hydration number of a Gd-DTPA derivative decreases relaxivity.

Author

Caravan P, Amedio JC Jr, Dunham SU, Greenfield MT, Cloutier NJ, McDermid SA, Spiller M, Zech SG, Looby RJ, Raitsimring AM, McMurry TJ, and Lauffer RB

Subjects
Contrast Media, Magnetic Resonance Imaging, Magnetic Resonance Spectroscopy, Ultrafiltration, Gadolinium DTPA chemistry, Water chemistry
Abstract

The synthesis of a novel ligand, based on N-methyl-diethylenetriaminetetraacetate and containing a diphenylcyclohexyl serum albumin binding group (L1) is described and the coordination chemistry and biophysical properties of its Gd(III) complex Gd-L1 are reported. The Gd(III) complex of the diethylenetriaminepentaacetate analogue of the ligand described here (L2) is the MRI contrast agent MS-325. The effect of converting an acetate to a methyl group on metal-ligand stability, hydration number, water-exchange rate, relaxivity, and binding to the protein human serum albumin (HSA) is explored. The complex Gd-L1 has two coordinated water molecules in solution, that is, [Gd(L1)(H2O)2]2- as shown by D-band proton ENDOR spectroscopy and implied by 1H and 17O NMR relaxation rate measurements. The Gd-H(water) distance of the coordinated waters was found to be identical to that found for Gd-L2, 3.08 A. Loss of the acetate group destabilizes the Gd(III) complex by 1.7 log units (log K(ML) = 20.34) relative to the complex with L2. The affinity of Gd-L1 for HSA is essentially the same as that of Gd-L2. The water-exchange rate of the two coordinated waters on Gd-L1 (k(ex) = 4.4x10(5) s(-1)) is slowed by an order of magnitude relative to Gd-L2. As a result of this slow water-exchange rate, the observed proton relaxivity of Gd-L1 is much lower in a solution of HSA under physiological conditions (r1(obs) = 22.0 mM(-1) s(-1) for 0.1 mM Gd-L1 in 0.67 mM HSA, HEPES buffer, pH 7.4, 35 degrees C at 20 MHz) than that of Gd-L2 (r1(obs) = 41.5 mM(-1) s(-1)) measured under the same conditions. Despite having two exchangeable water molecules, slow water exchange limits the potential efficacy of Gd-L1 as an MRI contrast agent.

Published
2005
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47. Gadolinium meets medicinal chemistry: MRI contrast agent development.

Author

Zhang Z, Nair SA, and McMurry TJ

Subjects
Chelating Agents chemistry, Drug Design, Humans, Liver Diseases diagnosis, Molecular Structure, Organometallic Compounds chemistry, Vascular Diseases diagnosis, Contrast Media chemistry, Gadolinium chemistry, Magnetic Resonance Imaging methods, Radiopharmaceuticals chemistry
Abstract

Magnetic resonance imaging (MRI) contrast agents are utilized adjunctively to enhance the contrast between normal and abnormal structures on MRI scans. Along with the rapid evolution of the field has come a new appreciation for the medicinal chemistry of this unique class of metallopharmaceuticals. The efficacy of MRI agents is a complex function of chemical, biophysical, and pharmacological properties, which must be married in a package of exquisite safety. This report illustrates the wide range of medicinal chemistry relevant to existing agents that are either approved or in clinical development, as well as concepts, which may result in exciting new pharmaceuticals in the future.

Published
2005
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49. Enzyme-Activated Gd 3+ Magnetic Resonance Imaging Contrast Agents with a Prominent Receptor-Induced Magnetization Enhancement.

Author

Nivorozhkin AL, Kolodziej AF, Caravan P, Greenfield MT, Lauffer RB, and McMurry TJ

Abstract

Clinically relevant relaxivity enhancement of a magnetic resonance imaging (MRI) contrast agent has been achieved by using prodrug Gd 3+ complexes (see picture, DTPA=diethylenetriaminepentaaceto). Enzymatic cleavage of lysine residues from the prodrug exposes a group that has a high affinity to human serum albumin and promotes enhanced relaxivity, thus enabling the detection of targets at submicromolar concentrations., (© 2001 WILEY-VCH Verlag GmbH, Weinheim, Fed. Rep. of Germany.)

Published
2001
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