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| | | | | | | Searchterm 'paramagnetic' was also found in the following services: | | | | |
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Contrast agent with a preferential intracellular distribution.
Intracellular agents (such as manganese derivatives and ultrasmall superparamagnetic iron oxide), exhibit a flow- and metabolism-dependent uptake. These properties may allow delayed imaging, similar to isotopic methods.
Phospholipid liposomes are rapidly sequestered by the cells in the reticuloendothelial system (RES), primarily in the liver. For imaging of the liver, liposomes may be labeled with MR contrast medium, both positive (T1-shortening) paramagnetic media, and negative (T2-shortening) super paramagnetic media.
Several other nonliposome MR contrast media are also taken up by the RES, e.g.:
Other MR contrast agents accumulate selectively in the hepatocytes, e.g.:
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Paramagnetic materials attract and repel like normal magnets when subject to a magnetic field. This alignment of the atomic dipoles with the magnetic field tends to strengthen it, and is described by a relative magnetic permeability greater than unity. Paramagnetism requires that the atoms individually have permanent dipole moments even without an applied field, which typically implies a partially filled electron shell. In pure Paramagnetism (without an external magnetic field), these atomic dipoles do not interact with one another and are randomly oriented in the absence of an external field, resulting in zero net moment.
Paramagnetic materials in magnetic fields will act like magnets but when the field is removed, thermal motion will quickly disrupt the magnetic alignment. In general, paramagnetic effects are small ( magnetic susceptibility of the order of 10 -3 to 10 -5).
In MRI, gadolinium (Gd) one of these paramagnetic materials is used as a contrast agent. Through interactions between the electron spins of the paramagnetic gadolinium and the water nuclei nearby, the relaxation rates (T1 and T2) of the water protons are increased (T1 and T2 times are decreased), causing an increase in signal on T1 weighted images.
See also contrast agents, magnetism, ferromagnetism, superparamagnetism, and diamagnetism. | | | | • View the DATABASE results for 'Paramagnetism' (11).
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| | | | • View the DATABASE results for 'Combination Oral Contrast Agents' (3).
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| | | Searchterm 'paramagnetic' was also found in the following services: | | | | |
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Contrast agents are chemical substances introduced to the anatomical or functional region being imaged, to increase the differences between different tissues or between normal and abnormal tissue, by altering the relaxation times. MRI contrast agents are classified by the different changes in relaxation times after their injection.
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Negative contrast agents (appearing predominantly dark on MRI) are small particulate aggregates often termed superparamagnetic iron oxide ( SPIO). These agents produce predominantly spin spin relaxation effects (local field inhomogeneities), which results in shorter T1 and T2 relaxation times.
SPIO's and ultrasmall super paramagnetic iron oxides ( USPIO) usually consist of a crystalline iron oxide core containing thousands of iron atoms and a shell of polymer, dextran, polyethyleneglycol, and produce very high T2 relaxivities. USPIOs smaller than 300 nm cause a substantial T1 relaxation. T2 weighted effects are predominant.
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A special group of negative contrast agents (appearing dark on MRI) are perfluorocarbons ( perfluorochemicals), because their presence excludes the hydrogen atoms responsible for the signal in MR imaging.
The design objectives for the next generation of MR contrast agents will likely focus on prolonging intravascular retention, improving tissue targeting, and accessing new contrast mechanisms. Macromolecular paramagnetic contrast agents are being tested worldwide. Preclinical data shows that these agents demonstrate great promise for improving the quality of MR angiography, and in quantificating capillary permeability and myocardial perfusion.
Ultrasmall superparamagnetic iron oxide ( USPIO) particles have been evaluated in multicenter clinical trials for lymph node MR imaging and MR angiography, with the clinical impact under discussion. In addition, a wide variety of vector and carrier molecules, including antibodies, peptides, proteins, polysaccharides, liposomes, and cells have been developed to deliver magnetic labels to specific sites. Technical advances in MR imaging will further increase the efficacy and necessity of tissue-specific MRI contrast agents.
See also Adverse Reaction and Nephrogenic Systemic Fibrosis.
See also the related poll result: ' The development of contrast agents in MRI is' | | | | | | | | | | | • View the DATABASE results for 'Contrast Agents' (122).
| | | • View the NEWS results for 'Contrast Agents' (25).
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Brain imaging method may aid mild traumatic brain injury diagnosis Tuesday, 16 January 2024 by parkinsonsnewstoday.com | | |
A Targeted Multi-Crystalline Manganese Oxide as a Tumor-Selective Nano-Sized MRI Contrast Agent for Early and Accurate Diagnosis of Tumors Thursday, 18 January 2024 by www.dovepress.com | | |
FDA Approves Gadopiclenol for Contrast-Enhanced Magnetic Resonance Imaging Tuesday, 27 September 2022 by www.pharmacytimes.com | | |
How to stop using gadolinium chelates for magnetic resonance imaging: clinical-translational experiences with ferumoxytol Saturday, 5 February 2022 by www.ncbi.nlm.nih.gov | | |
Estimation of Contrast Agent Concentration in DCE-MRI Using 2 Flip Angles Tuesday, 11 January 2022 by pubmed.ncbi.nlm.nih.gov | | |
Manganese enhanced MRI provides more accurate details of heart function after a heart attack Tuesday, 11 May 2021 by www.news-medical.net | | |
Gadopiclenol: positive results for Phase III clinical trials Monday, 29 March 2021 by www.pharmiweb.co | | |
Gadolinium-Based Contrast Agents Hypersensitivity: A Case Series Friday, 4 December 2020 by www.dovepress.com | | |
Polysaccharide-Core Contrast Agent as Gadolinium Alternative for Vascular MR Monday, 8 March 2021 by www.diagnosticimaging.com | | |
Water-based non-toxic MRI contrast agents Monday, 11 May 2020 by chemistrycommunity.nature.com | | |
New method to detect early-stage cancer identified by Georgia State, Emory research team Friday, 7 February 2020 by www.eurekalert.org | | |
Researchers Brighten Path for Creating New Type of MRI Contrast Agent Friday, 7 February 2020 by www.newswise.com | | |
Manganese-based MRI contrast agent may be safer alternative to gadolinium-based agents Wednesday, 15 November 2017 by www.eurekalert.org | | |
Sodium MRI May Show Biomarker for Migraine Friday, 1 December 2017 by psychcentral.com | | |
A natural boost for MRI scans Monday, 21 October 2013 by www.eurekalert.org | | |
For MRI, time is of the essence A new generation of contrast agents could make for faster and more accurate imaging Tuesday, 28 June 2011 by scienceline.org |
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Categories of negative oral contrast agents:
Negative oral contrast media are usually based on super paramagnetic particles and act by inducing local field inhomogeneities, which results in shortening of both T1 and T2 relaxation times. Superparamagnetic contrast agents have predominant T2 weighted effects.
Biphasic contrast media are agents that have different signal intensities on different sequences, depending on the concentration at which they are used.
Suitable materials for oral contrast agents should have little or no absorption by the stomach or intestines, complete excretion, no motion or susceptibility artifacts, affordability, and uniform marking of the gastrointestinal tract.
Benefits of negative oral contrast agents are the reduction of ghosting artifacts caused by the lack of signal. Super paramagnetic iron oxides produce also in low concentrations a noticeable signal loss; but can generate susceptibility artifacts especially in gradient echo sequences. Perfluorochemicals do not dilute in the bowel because they are not miscible with water.
High cost, poor availability, and limited evaluations of side effects are possible disadvantages.
Negative oral contrast agents are used e.g., in MRCP, where the ingestion of 600-900 ml of SPIO cancels out the signal intensity of the lumen (in addition after the injection of a gadolinium-based contrast medium, the enhancement of the inflammatory tissues is clearer seen), and in MR abdominal imaging of Crohn's disease in combination with mannitol.
| | | | • View the DATABASE results for 'Negative Oral Contrast Agents' (7).
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