Gadolinium

Changed by Francesco Sciacca, 18 Jul 2019

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Gadolinium (chemical symbol Gd) is a metallic element that can be chelated into paramagnetic complexes for use as gadolinium contrast media.

Chemistry

Basic chemistry

Gadolinium is a silvery rare earth metal, and a member of the lanthanides, with the atomic number 64 and an atomic weight of 157.25.

Electronic configuration (neutral atom): [Xe] 4f7 5d1 6s2

Electronic configuration Gd3+: [Xe] 4f7 (Hund

Gd3+, in according to Hund's rule of maximum(maximum multiplicity -), contains seven unpaired electrons) and is thus strongly paramagnetic.4

Applied chemistry

The gadolinium ion is useful as an MRI agent because it has seven unpaired electrons, which is the greatest number of unpaired electron spins possible for an atom, conferring on it a very large magnetic moment 3.

Gadolinium molecules shorten spin-lattice relaxation time (T1) of voxels in which they are present. As a result, on T1-weighted images they have a brighter signal. This can have a number of uses:

Excretion 

Most gadolinium contrast agents are excreted through the renal system and therefore have a prolonged half-life in renal failure. It is important to note that the dissociated gadolinium ion is not naturally excreted from the body and instead tends to accumulate in the tissues.

Toxicity

There is a recognised association between gadolinium contrast medium administration and nephrogenic systemic fibrosis (NSF) in patients with renal failure 2. More recently concern has arisen of deposition of gadolinium in various tissues in the body (e.g. dentate nucleus of the cerebellum, globus pallidus) however, the clinical significance of these depositions is still unknown 4.

Experimental work supports the theory that the toxicity relates to free gadolinium ions dissociating themselves from their chelated ligands and that different contrast agents have different stabilities in solution.

History and etymology

Gadolinium was discovered in 1880 by Jean Charles Galissard de Marignac (1817-1894), a Swiss chemist 1,2. But the element was named after the mineral gadolinite, itself named after Johan Gadolin (1760-1852), a Finnish chemist, who made his name by being the first to extract the rare earth elements in the 1790s 3.

  • -<p><strong>Gadolinium </strong>(chemical symbol <strong>Gd</strong>) is a metallic element that can be chelated into paramagnetic complexes for use as <a href="/articles/gadolinium-contrast-agents">gadolinium contrast media</a>.</p><h4>Chemistry</h4><h5>Basic chemistry</h5><p>Gadolinium is a silvery rare earth metal, and a member of the lanthanides, with the atomic number 64 and an atomic weight of 157.25.</p><p>Electronic configuration (neutral atom): [Xe] 4f7 5d1 6s2</p><p>Electronic configuration Gd<sup>3+</sup>: [Xe] 4f7 (Hund's rule of maximum multiplicity - seven unpaired electrons).</p><h5>Applied chemistry</h5><p>The gadolinium ion is useful as an MRI agent because it has seven unpaired electrons, which is the greatest number of unpaired electron spins possible for an atom, conferring on it a very large magnetic moment <sup>3</sup>.</p><p>Gadolinium molecules shorten <a href="/articles/t1-weighted-image">spin-lattice relaxation time</a> (T1) of <a href="/articles/voxel">voxels</a> in which they are present. As a result, on <a href="/articles/t1-weighted-image">T1-weighted images</a> they have a brighter signal. This can have a number of uses:</p><ul>
  • +<p><strong>Gadolinium </strong>(chemical symbol <strong>Gd</strong>) is a metallic element that can be chelated into paramagnetic complexes for use as <a href="/articles/gadolinium-contrast-agents">gadolinium contrast media</a>.</p><h4>Chemistry</h4><h5>Basic chemistry</h5><p>Gadolinium is a silvery rare earth metal, and a member of the lanthanides, with the atomic number 64 and an atomic weight of 157.25.</p><p>Electronic configuration (neutral atom): [Xe] 4f7 5d1 6s2</p><p>Electronic configuration Gd<sup>3+</sup>: [Xe] 4f7</p><p>Gd<sup>3+</sup>, in according to Hund's rule (maximum multiplicity), contains seven unpaired electrons and is thus strongly paramagnetic.<sup>4</sup></p><h5>Applied chemistry</h5><p>The gadolinium ion is useful as an MRI agent because it has seven unpaired electrons, which is the greatest number of unpaired electron spins possible for an atom, conferring on it a very large magnetic moment <sup>3</sup>.</p><p>Gadolinium molecules shorten <a href="/articles/t1-weighted-image">spin-lattice relaxation time</a> (T1) of <a href="/articles/voxel">voxels</a> in which they are present. As a result, on <a href="/articles/t1-weighted-image">T1-weighted images</a> they have a brighter signal. This can have a number of uses:</p><ul>

References changed:

  • 4. International Atomic Energy Agency. Diagnostic Radiology Physics. (2013) ISBN: 9789201310101 - <a href="http://books.google.com/books?vid=ISBN9789201310101">Google Books</a>

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