Magnetic resonance cholangiopancreatography (MRCP)

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Magnetic resonance cholangiopancreatography (MRCP) is a non-invasive imaging technique to visualize the intra and extrahepatic biliary tree and pancreatic ductal system.

It can provide the diagnostic range equivalent to the ERCP and so it can replace the ERCP in high risk patients to avoid significant morbidity.

Indications

MRCP can be used to evaluate various conditions of the pancreaticobiliary ductal system, some of which are:

identification of congenital anomalies of the cystic and hepatic ducts
post-surgical biliary anatomy and complications
pancreas divisum
anomalous pancreaticobiliary junction
choledocholithiasis
biliary strictures
chronic pancreatitis
pancreatic cystic lesions
trauma to biliary system

Physics

The technique exploits the fluid which is present in the biliary and pancreatic ducts as an intrinsic contrast medium by acquiring the images using heavily T2 weighted sequences. Since the fluid-filled structures in the abdomen have a long T2 relaxation time as compared to the surrounding soft tissue, these structures appear hyperintense against the surrounding non-fluid-containing tissues on a heavily T2 weighted sequence and can easily be distinguished.

Technique and protocols

No exogenous contrast medium is administered to the patient.

Fasting for 4 hours prior to the examination is required to reduce gastroduodenal secretions, reduce bowel peristalsis (and related motion artifact) and to promote distension of the gallbladder. MRCP is performed on a 1.5 T or superior MRI system, using a phased-array body coil.

All protocols obtain heavily T2-weighted sequences. Most commonly obtained sequences are:

RARE: rapid acquisition and relaxation enhancement
FRFSE: fast-recovery fast spin-echo coronal oblique 3D respiratory triggered
HASTE: half-Fourier acquisition single shot turbo spin echo-axial 2D breath hold sequence which provide superior images and can be performed in single breath hold (<20 s) and a fat-suppressed sequence
additional sequence which can be acquired to evaluate the duct wall is a fat suppressed T1 GRE sequence

For optimal visualisation of ducts, acquired images are reformatted in different planes using multiplanar reconstruction (MPR) and maximum intensity projection (MIP).

The advantage of FRFSE, as a 3D technique, is the ability to perform multiplanar reconstructions. However, despite respiratory triggering, this sequence is often prone to motion artifact.

Technical modifications

With the evolution of MRCP, modified techniques came into existence. Commonly applied modified MRCP techniques are:

secretin-stimulated MRCP
- secretin (administered intravenously) causes exocrine secretion of the pancreas, dilating the pancreatic duct and improving its visualisation; indications include ¹:
  - detection/characterisation of pancreatic duct anomalies or strictures
  - characterising communications between the pancreatic duct and pseudocysts/fistulas
  - characterising pancreatic and sphincter of Oddi dysfunction
functional MRCP
- intravenous administration of MR lipophilic paramagnetic contrast agents which are then excreted by the hepatobiliary system
negative oral contrast to 'null' the duodenum
- commercially available agents
- natural products which are rich in manganese (e.g. pineapple or blueberry juice) shorten the T2 relaxation time

Practical points

Artifacts related to technique and reconstruction, and motion or susceptibility artifacts due to metal clips and gas, may give rise to poor spatial resolution and limited interpretation. Reviewing thin section and multiple planes may help overcome some of these issues ⁶.

-<p><strong>Magnetic resonance cholangiopancreatography (MRCP) </strong>is a non-invasive imaging technique to visualize the <a title="Biliary tree anatomy" href="/articles/biliary-tree-anatomy">intra and extrahepatic biliary tree</a> and <a href="/articles/pancreatic-ducts">pancreatic ductal</a> system.</p><p>It can provide the diagnostic range equivalent to the <a href="/articles/ercp">ERCP</a> and so it can replace the ERCP in high risk patients to avoid significant morbidity.</p><h4>Indications</h4><p>MRCP can be used to evaluate various conditions of the pancreaticobiliary ductal system, some of which are:</p><ul>
+<p><strong>Magnetic resonance cholangiopancreatography (MRCP) </strong>is a non-invasive imaging technique to visualize the <a href="/articles/biliary-tree-anatomy">intra and extrahepatic biliary tree</a> and <a href="/articles/pancreatic-ducts">pancreatic ductal</a> system.</p><p>It can provide the diagnostic range equivalent to the <a href="/articles/ercp">ERCP</a> and so it can replace the ERCP in high risk patients to avoid significant morbidity.</p><h4>Indications</h4><p>MRCP can be used to evaluate various conditions of the pancreaticobiliary ductal system, some of which are:</p><ul>
-</ul><h4>Physics</h4><p>The technique exploits the fluid which is present in the biliary and pancreatic ducts as an intrinsic contrast medium by acquiring the images using heavily T2 weighted sequences. Since the fluid-filled structures in the abdomen have a long T2 relaxation time as compared to the surrounding soft tissue, these structures appear hyperintense against the surrounding non-fluid-containing tissues on a heavily T2 weighted sequence and can easily be distinguished.</p><h4>Technique and protocols</h4><p>No exogenous <a title="Contrast medium" href="/articles/contrast-medium">contrast medium</a> is administered to the patient.</p><p>Fasting for 4 hours prior to the examination is required to reduce gastroduodenal secretions, reduce bowel peristalsis (and related motion artifact) and to promote distension of the gallbladder. MRCP is performed on a 1.5 T or superior MRI system, using a phased-array body coil.</p><p>All protocols obtain heavily T2-weighted sequences. Most commonly obtained sequences are:</p><ul>
+</ul><h4>Physics</h4><p>The technique exploits the fluid which is present in the biliary and pancreatic ducts as an intrinsic contrast medium by acquiring the images using heavily T2 weighted sequences. Since the fluid-filled structures in the abdomen have a long T2 relaxation time as compared to the surrounding soft tissue, these structures appear hyperintense against the surrounding non-fluid-containing tissues on a heavily T2 weighted sequence and can easily be distinguished.</p><h4>Technique and protocols</h4><p>No exogenous <a href="/articles/contrast-medium">contrast medium</a> is administered to the patient.</p><p>Fasting for 4 hours prior to the examination is required to reduce gastroduodenal secretions, reduce bowel peristalsis (and related motion artifact) and to promote distension of the gallbladder. MRCP is performed on a 1.5 T or superior MRI system, using a phased-array body coil.</p><p>All protocols obtain heavily T2-weighted sequences. Most commonly obtained sequences are:</p><ul>
~~-<li>additional sequence which can be acquired to evaluate the duct wall is a fat suppressed T1 <a title="GRE MRI" href="/articles/gradient-echo-sequences-1">GRE</a> sequence</li>~~
-</ul><p>For optimal visualisation of ducts, acquired images are reformatted in different planes using <a href="/articles/multiplanar-reformation-mpr">multiplanar reconstruction (MPR)</a> and <a href="/articles/maximum-intensity-projection">maximum intensity projection (MIP)</a>.</p><p>The advantage of FRFSE, as a 3D technique, is the ability to perform multiplanar reconstructions. However, despite <a title="respiratory trigger" href="/articles/respiratory-trigger">respiratory triggering</a>, this sequence is often prone to motion artifact.</p><h5>Technical modifications</h5><p>With the evolution of MRCP, modified techniques came into existence. Commonly applied modified MRCP techniques are:</p><ul>
+<li>additional sequence which can be acquired to evaluate the duct wall is a fat suppressed T1 <a href="/articles/gradient-echo-sequences-1">GRE</a> sequence</li>
+</ul><p>For optimal visualisation of ducts, acquired images are reformatted in different planes using <a href="/articles/multiplanar-reformation-mpr">multiplanar reconstruction (MPR)</a> and <a href="/articles/maximum-intensity-projection">maximum intensity projection (MIP)</a>.</p><p>The advantage of FRFSE, as a 3D technique, is the ability to perform multiplanar reconstructions. However, despite <a href="/articles/respiratory-trigger">respiratory triggering</a>, this sequence is often prone to motion artifact.</p><h5>Technical modifications</h5><p>With the evolution of MRCP, modified techniques came into existence. Commonly applied modified MRCP techniques are:</p><ul>
-</ul><h4>Practical points</h4><p><a title="Artifacts encountered in MRI" href="/articles/mri-artifacts-1">Artifacts</a> related to technique and reconstruction, and <a title="Motion artifact" href="/articles/motion-artifact-2">motion</a> or <a title="Magnetic susceptibility artifacts" href="/articles/magnetic-susceptibility-artifact">susceptibility artifacts</a> due to metal clips and gas, may give rise to poor spatial resolution and limited interpretation.</p>
+</ul><h4>Practical points</h4><p><a href="/articles/mri-artifacts-1">Artifacts</a> related to technique and reconstruction, and <a href="/articles/motion-artifact-2">motion</a> or <a href="/articles/magnetic-susceptibility-artifact">susceptibility artifacts</a> due to metal clips and gas, may give rise to poor spatial resolution and limited interpretation. Reviewing thin section and multiple planes may help overcome some of these issues <sup>6</sup>.</p>

References changed:

6. Bruno P.C. Vidal, Daniel Lahan-Martins, Thiago J. Penachim, Marco Alexandre M. Rodstein, Patrícia P. Cardia, Adilson Prando. MR Cholangiopancreatography: What Every Radiology Resident Must Know. (2020) RadioGraphics. 40 (5): 1263-1264. <a href="https://doi.org/10.1148/rg.2020200030">doi:10.1148/rg.2020200030</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/32870770">Pubmed</a> <span class="ref_v4"></span>

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