Hypertrophied column of Bertin
Updates to Article Attributes
A column of Bertin is the extension of renal cortical tissue which separates the pyramids, and as such are normal structures. They become of radiographic importance when they are unusually enlarged and may be mistaken for a renal mass (renal pseudotumour).
Nomenclature of such enlarged columns is a little confusing, sometimes referred to as septa (although this may also refer to normal columns). Ideally, the term hypertrophied column of Bertin or prominent column of Bertin should be used to avoid confusion.
Epidemiology
Columns of Bertin are present in ~50% of the healthy population and in 20% are bilateral. Double columns of Bertin in one kidney are less common, occurring in only 4% 5.
Hypertrophied columns of Bertin are more commonly bilateral, occuringoccurring in 60% 5.
Embryology
The kidneys are formed from the fusion of multiple lobules, each containing a central core of medullary tissue surrounded by a mantle of the cortex. Fusion of adjacent lobules leads to cortical tissue remaining between the pyramids, each column formed by the fusion of two layers of cortex 2. They are thus located beneath fetal lobulations (usually not visible in adults).
Radiographic features
Key to correct identification of a hypertrophied column of Bertin is that fact that it is in continuity with, and of similar appearance to, normal renal cortical parenchyma, and that the renal outline is preserved.
They are usually located in the mid-portion of the kidney and are more commonly found on the left side 4.
Plain filmIntravenous urography
During intravenous urography, the septa of Bertin may mimic a mass by splaying and distorting the calyces. The renal outline, however, is normal (which is usually not the case when a renal cell carcinoma is present) and a slight indentation overlying the column may be seen representing the location of previous fetal lobulation.
Invariably the diagnosis should be confirmed with CT or MRI.
Ultrasound
Appearances on ultrasound can be confusing, however, in general, the echogenicity of the pseudomass is homogeneous and continuous with renal cortex. The mass has been described as "splitting" or "indenting" the renal sinus.
Often the diagnosis should be confirmed with CT or MRI, or more recently with contrast enhanced-enhanced sonography, demonstrating similar enhancement as the normal cortex.
CT and MRI
CT and MRI are definitive demonstrating the hypertrophied column to have imaging features identical to that of the adjacent normal cortex.
On non-contrast CT they appear isodense to normal parenchyma and, following administration of contrast, enhance uniformly with renal cortex, and remain isodense to normal parenchyma on delayed images.
Similarly on MRI they appear isointense to cortex on all sequences and enhance similarly 4.
History and etymology
It is named after Exupere Joseph Bertin, French anatomist who initially described such morphology in renal anatomy in 1744 2-3.
Differential diagnosis
The differential is essentially that of all renal masses and renal pseudotumours, and includes:
-
renal cell carcinoma (RCC)
- usually distorts renal outline
- altered vascularity or enhancement
-
transitional cell carcinoma of the renal pelvis
- usually irregular and infiltrating
- enhances less vividly than cortex on CT and MRI
-
renal sinus cyst
- does not enhance during nephrogenic phase
- no internal echoes or vascularity
- duplex collecting system with a cortical septum
-<p>A <strong>column of Bertin</strong> is the extension of renal cortical tissue which separates the pyramids, and as such are normal structures. They become of radiographic importance when they are unusually enlarged and may be mistaken for a renal mass (<a href="/articles/renal-pseudotumour">renal pseudotumour</a>).</p><p>Nomenclature of such enlarged columns is a little confusing, sometimes referred to as septa (although this may also refer to normal columns). Ideally the term <strong>hypertrophied column of Bertin</strong> or <strong>prominent column of Bertin</strong> should be used to avoid confusion.</p><h4>Epidemiology</h4><p>Columns of Bertin are present in ~50% of the healthy population and in 20% are bilateral. Double columns of Bertin in one <a href="/articles/kidneys">kidney</a> are less common, occurring in only 4% <sup>5</sup>.</p><p>Hypertrophied columns of Bertin are more commonly bilateral, occuring in 60% <sup>5</sup>. </p><h4>Embryology</h4><p>The <a href="/articles/kidneys">kidneys</a> are formed from the fusion of multiple lobules, each containing a central core of medullary tissue surrounded by a mantle of cortex. Fusion of adjacent lobules leads to cortical tissue remaining between the pyramids, each column formed by the fusion of two layers of cortex <sup>2</sup>. They are thus located beneath fetal lobulations (usually not visible in adults).</p><h4>Radiographic features</h4><p>Key to correct identification of a hypertrophied column of Bertin is that fact that it is in continuity with, and of similar appearance to, normal renal cortical parenchyma, and that the renal outline is preserved.</p><p>They are usually located in the mid-portion of the kidney and are more commonly found on the left side <sup>4</sup>.</p><h5>Plain film urography</h5><p>During intravenous urography septa of Bertin may mimic a mass by splaying and distorting the calyces. The renal outline however is normal (which is usually not the case when a <a href="/articles/renal-cell-carcinoma-1">renal cell carcinoma</a> is present) and a slight indentation overlying the column may be seen representing location of previous fetal lobulation.</p><p>Invariably the diagnosis should be confirmed with CT or MRI.</p><h5>Ultrasound</h5><p>Appearances on ultrasound can be confusing, however in general the echogenicity of the pseudomass is homogeneous and continuous with renal cortex. The mass has been described as "splitting" or "indenting" the renal sinus.</p><p>Often the diagnosis should be confirmed with CT or MRI, or more recently with contrast enhanced sonography, demonstrating similar enhancement as normal cortex. </p><h5>CT and MRI</h5><p>CT and MRI are definitive demonstrating the hypertrophied column to have imaging features identical to that of adjacent normal cortex.</p><p>On non-contrast CT they appear isodense to normal parenchyma and, following administration of contrast, enhance uniformly with renal cortex, and remain isodense to normal parenchyma on delayed images. </p><p>Similarly on MRI they appear isointense to cortex on all sequences and enhance similarly <sup>4</sup>.</p><h4>History and etymology</h4><p>It is named after <strong>Exupere Joseph Bertin</strong>, French anatomist who initially described such morphology in renal anatomy in 1744 <sup>2-3</sup>.</p><h4>Differential diagnosis</h4><p>The differential is essentially that of all <a href="/articles/renal-masses">renal masses</a> and <a href="/articles/renal-pseudotumour">renal pseudotumours</a>, and includes:</p><ul>- +<p>A <strong>column of Bertin</strong> is the extension of renal cortical tissue which separates the pyramids, and as such are normal structures. They become of radiographic importance when they are unusually enlarged and may be mistaken for a renal mass (<a href="/articles/renal-pseudotumour">renal pseudotumour</a>).</p><p>Nomenclature of such enlarged columns is a little confusing, sometimes referred to as septa (although this may also refer to normal columns). Ideally, the term <strong>hypertrophied column of Bertin</strong> or <strong>prominent column of Bertin</strong> should be used to avoid confusion.</p><h4>Epidemiology</h4><p>Columns of Bertin are present in ~50% of the healthy population and in 20% are bilateral. Double columns of Bertin in one <a href="/articles/kidneys">kidney</a> are less common, occurring in only 4% <sup>5</sup>.</p><p>Hypertrophied columns of Bertin are more commonly bilateral, occurring in 60% <sup>5</sup>. </p><h4>Embryology</h4><p>The <a href="/articles/kidneys">kidneys</a> are formed from the fusion of multiple lobules, each containing a central core of medullary tissue surrounded by a mantle of the cortex. Fusion of adjacent lobules leads to cortical tissue remaining between the pyramids, each column formed by the fusion of two layers of cortex <sup>2</sup>. They are thus located beneath fetal lobulations (usually not visible in adults).</p><h4>Radiographic features</h4><p>Key to correct identification of a hypertrophied column of Bertin is that fact that it is in continuity with, and of similar appearance to, normal renal cortical parenchyma, and that the renal outline is preserved.</p><p>They are usually located in the mid-portion of the kidney and are more commonly found on the left side <sup>4</sup>.</p><h5>Intravenous urography</h5><p>During intravenous urography, the septa of Bertin may mimic a mass by splaying and distorting the calyces. The renal outline, however, is normal (which is usually not the case when a <a href="/articles/renal-cell-carcinoma-1">renal cell carcinoma</a> is present) and a slight indentation overlying the column may be seen representing the location of previous fetal lobulation.</p><p>Invariably the diagnosis should be confirmed with CT or MRI.</p><h5>Ultrasound</h5><p>Appearances on ultrasound can be confusing, however, in general, the echogenicity of the pseudomass is homogeneous and continuous with renal cortex. The mass has been described as "splitting" or "indenting" the renal sinus.</p><p>Often the diagnosis should be confirmed with CT or MRI, or more recently with contrast-enhanced sonography, demonstrating similar enhancement as the normal cortex. </p><h5>CT and MRI</h5><p>CT and MRI are definitive demonstrating the hypertrophied column to have imaging features identical to that of the adjacent normal cortex.</p><p>On non-contrast CT they appear isodense to normal parenchyma and, following administration of contrast, enhance uniformly with renal cortex, and remain isodense to normal parenchyma on delayed images. </p><p>Similarly on MRI they appear isointense to cortex on all sequences and enhance similarly <sup>4</sup>.</p><h4>History and etymology</h4><p>It is named after <strong>Exupere Joseph Bertin</strong>, French anatomist who initially described such morphology in renal anatomy in 1744 <sup>2-3</sup>.</p><h4>Differential diagnosis</h4><p>The differential is essentially that of all <a href="/articles/renal-masses">renal masses</a> and <a href="/articles/renal-pseudotumour">renal pseudotumours</a>, and includes:</p><ul>
-<a href="/articles/duplex-collecting-system">duplex collecting system </a>with cortical septum</li>- +<a href="/articles/duplex-collecting-system">duplex collecting system </a>with a cortical septum</li>