Black boundary artifact
Updates to Article Attributes
Black boundary artifact, also known as India ink artifact or type 2 chemical shift artifact, is an artificially-created black line located at fat-water interfaces such as those between muscle and fat. This results in a sharp delineation of the muscle-fat boundary lending the image an appearance as if someone has outlined these interfaces with ink that is sometimes visually appealing but not an anatomical structure.
This artifact occurs in gradient echo (GE) sequences as a result of selecting an echo time (TE) in which the fat and water spins (located in the same voxel at an interface) are out of phase, cancelling each other. At 1.5 T, the 3.5 ppm difference in frequency between water and saturated fat results in cancellation of spins at 4.5 ms multiples, starting at about 2.3 ms; for example at 6.8 ms, 11.3 ms, and 15.9 ms. This artifact does not occur with spin echo (SE) sequences as the spins are rephased by the 180o refocusing gradient.
Case 1 is a coronal image through the upper body with an echo time of 7 ms. A black line is seen surrounding the muscles of the shoulder girdle as well as around the liver.
Remedy
To avoid this artifact:
- choose TEs close to 4.5 ms, 9 ms, 13.6 ms
- fat suppression can be used
- use SE sequence instead of GE
Terminology
Black boundary artifact has several other synonyms, including chemical shift artifact of the 2nd kind, phase cancellation artifact, edging artifact,and black line artifact.
Applications
Aids in the diagnosis of benign conditions 3:
- lipomatous hypertrophy of the interatrial septum
- focal pancreatic fat
- fat-rich renal angiomyolipoma
Aids in the identification of inflammation 3:
-<p><strong>Black boundary artifact</strong>, also known as <strong>India ink artifact</strong> or <strong>type 2 </strong><strong>chemical shift artifact</strong>, is an artificially-created black line located at fat-water interfaces such as those between muscle and fat. This results in a sharp delineation of the muscle-fat boundary lending the image an appearance as if someone has outlined these interfaces with ink that is sometimes visually appealing but not an anatomical structure. </p><p>This artifact occurs in <a href="/articles/gradient-echo-sequences-1">gradient echo (GE) sequences</a> as a result of selecting an <a href="/articles/echo-time">echo time (TE)</a> in which the fat and water spins (located in the same voxel at an interface) are out of phase, cancelling each other. At 1.5 T, the 3.5 ppm difference in frequency between water and saturated fat results in cancellation of spins at 4.5 ms multiples, starting at about 2.3 ms; for example at 6.8 ms, 11.3 ms, and 15.9 ms. This artifact does not occur with <a href="/articles/spin-echo-sequences">spin echo (SE) sequences</a> as the spins are rephased by the 180<sup>o</sup> refocusing gradient.</p><p>Case 1 is a coronal image through the upper body with an echo time of 7 ms. A black line is seen surrounding the muscles of the shoulder girdle as well as around the liver.</p><h5>Remedy</h5><p>To avoid this artifact:</p><ul>- +<p><strong>Black boundary artifact</strong>, also known as <strong>India ink artifact</strong> or <strong>type 2 </strong><strong>chemical shift artifact</strong>, is an artificially-created black line located at fat-water interfaces such as those between muscle and fat. This results in a sharp delineation of the muscle-fat boundary lending the image an appearance as if someone has outlined these interfaces with ink that is sometimes visually appealing but not an anatomical structure. </p><p>This artifact occurs in <a href="/articles/gradient-echo-sequences-1">gradient echo (GE) sequences</a> as a result of selecting an <a href="/articles/echo-time">echo time (TE)</a> in which the fat and water spins (located in the same voxel at an interface) are out of phase, cancelling each other. At 1.5 T, the 3.5 ppm difference in frequency between water and saturated fat results in cancellation of spins at 4.5 ms multiples, starting at about 2.3 ms; for example at 6.8 ms, 11.3 ms, and 15.9 ms. This artifact does not occur with <a href="/articles/spin-echo-sequences">spin echo (SE) sequences</a> as the spins are rephased by the 180<sup>o</sup> refocusing gradient.</p><h5>Remedy</h5><p>To avoid this artifact:</p><ul>
-</ul><h4>Terminology</h4><p>Black boundary artifact has several other synonyms, including <strong>chemical shift artifact </strong><strong>of the 2<sup>nd</sup> kind</strong>, <strong>phase cancellation artifact</strong>, <strong>edging artifact</strong>,<strong> </strong>and <strong>black line artifact</strong>.</p>- +</ul><h4>Terminology</h4><p>Black boundary artifact has several other synonyms, including <strong>chemical shift artifact </strong><strong>of the 2<sup>nd</sup> kind</strong>, <strong>phase cancellation artifact</strong>, <strong>edging artifact</strong>,<strong> </strong>and <strong>black line artifact</strong>.</p><h4>Applications</h4><p>Aids in the diagnosis of benign conditions <sup>3</sup>:</p><ul>
- +<li><a title="Lipomatous hypertrophy of the interatrial septum (LHIS)" href="/articles/lipomatous-hypertrophy-of-the-inter-atrial-septum-1">lipomatous hypertrophy of the interatrial septum</a></li>
- +<li>focal pancreatic fat</li>
- +<li>fat-rich <a title="Renal angiomyolipoma" href="/articles/renal-angiomyolipoma">renal angiomyolipoma</a>
- +</li>
- +</ul><p>Aids in the identification of inflammation <sup>3</sup>:</p><ul>
- +<li><a title="Acute pancreatitis" href="/articles/acute-pancreatitis">acute pancreatitis</a></li>
- +<li><a title="Mesenteric panniculitis" href="/articles/sclerosing-mesenteritis-1">mesenteric panniculitis</a></li>
- +<li><a title="Omental infarction" href="/articles/omental-infarction">omental infarction</a></li>
- +</ul>
References changed:
- 3. Shetty AS, Sipe AL, Zulfiqar M, Tsai R, Raptis DA, Raptis CA, Bhalla S. In-Phase and Opposed-Phase Imaging: Applications of Chemical Shift and Magnetic Susceptibility in the Chest and Abdomen. (2019) Radiographics : a review publication of the Radiological Society of North America, Inc. 39 (1): 115-135. <a href="https://doi.org/10.1148/rg.2019180043">doi:10.1148/rg.2019180043</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/30547731">Pubmed</a> <span class="ref_v4"></span>
Tags changed:
- rg_39_1_edit