Liver

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The liver plays a major role in metabolism and has a number of functions, including glycogen storage, decomposition of red blood cells, plasma protein synthesis, hormone production, and detoxification.

Gross anatomy

The liver is an irregular, wedge-shaped organ that lies below the diaphragm in the right upper quadrant of the abdominal cavity and is in close approximation with the stomach and the gallbladder. It is largely covered by the costal cartilages.

The liver is almost entirely covered by visceral peritoneum and is associated with a number of peritoneal ligaments including the falciform ligament. ~~The~~An area of the posterior liver ~~not~~is adjacent to the dorsal body wall, and is not covered by peritoneum ~~is called the bare~~("bare area").

The liver is described as having two surfaces, diaphragmatic and visceral, sharply demarcated anteriorly by the inferior margin:

diaphragmatic surface: smooth peritoneal area that faces superiorly and anteriorly and includes the bare area
visceral surface: faces inferiorly and posteriorly and is covered by peritoneum ⁶

Segmental anatomy

Traditionally, the liver was divided into four anatomical lobes. However, this has been superseded by the use of the Couinaud classification which divides the liver into eight functional units.

Blood supply

The liver receives a dual blood supply from the portal vein and hepatic arteries. The hepatic portal vein supplies ~~~ 75~~~75% of the liver's blood supply by volume and carries venous blood drained from the spleen, gastrointestinal tract, and its associated organs.

The hepatic arteries supply arterial blood to the liver and account for the remainder of its blood flow. The hepatic arterial system supplies the biliary system.

Oxygen is provided from both sources; approximately half of the liver's oxygen demand is met by the hepatic portal vein, and half is met by the hepatic arteries.

Nerve supply

The liver is supplied by sympathetic and parasympathetic fibres from the hepatic nerve plexus, which travel with branches of the hepatic artery and portal vein to the liver. Within the liver the nerve fibres accompany the portal triad. Sympathetic fibres are derived from the coeliac plexus and parasympathetic fibres are derived from the anterior and posterior vagal trunks ⁵.

Variant anatomy

lobar variation
- Riedel lobe
- agenesis of the right hepatic lobe
- agenesis of the left hepatic lobe
- accessory hepatic lobes / ectopic liver tissue
pseudolipoma of the Glisson capsule

accessory hepatic sulci

-<p>The <strong>liver</strong> plays a major role in metabolism and has a number of functions, including glycogen storage, decomposition of red blood cells, plasma protein synthesis, hormone production, and detoxification.</p><h4>Gross anatomy</h4><p>The liver is an irregular, wedge-shaped organ that lies below the <a href="/articles/diaphragm">diaphragm</a> in the right upper quadrant of the <a href="/articles/abdominal-cavity">abdominal cavity</a> and is in close approximation with the <a href="/articles/stomach">stomach</a> and the <a href="/articles/gallbladder">gallbladder</a>. It is largely covered by the costal cartilages.</p><p>The liver is almost entirely covered by visceral peritoneum and is associated with a number of <a href="/articles/peritoneal-ligaments">peritoneal ligaments</a> including the <a href="/articles/falciform-ligament">falciform ligament</a>. The area of the liver not covered by peritoneum is called the bare area.</p><p>The liver is described as having two surfaces, diaphragmatic and visceral, sharply demarcated anteriorly by the inferior margin:</p><ul>
+<p>The <strong>liver</strong> plays a major role in metabolism and has a number of functions, including glycogen storage, decomposition of red blood cells, plasma protein synthesis, hormone production, and detoxification.</p><h4>Gross anatomy</h4><p>The liver is an irregular, wedge-shaped organ that lies below the <a href="/articles/diaphragm">diaphragm</a> in the right upper quadrant of the <a href="/articles/abdominal-cavity">abdominal cavity</a> and is in close approximation with the <a href="/articles/stomach">stomach</a> and the <a href="/articles/gallbladder">gallbladder</a>. It is largely covered by the costal cartilages.</p><p>The liver is almost entirely covered by visceral peritoneum and is associated with a number of <a href="/articles/peritoneal-ligaments">peritoneal ligaments</a> including the <a href="/articles/falciform-ligament">falciform ligament</a>. An area of the posterior liver is adjacent to the dorsal body wall, and is not covered by peritoneum ("bare area").</p><p>The liver is described as having two surfaces, diaphragmatic and visceral, sharply demarcated anteriorly by the inferior margin:</p><ul>
-</ul><h5>Segmental anatomy</h5><p>Traditionally, the liver was divided into four anatomical lobes. However, this has been superseded by the use of the <a href="/articles/couinaud-classification">Couinaud classification</a> which divides the liver into eight functional units.</p><h4>Blood supply</h4><p>The liver receives a dual blood supply from the <a href="/articles/portal-vein">portal vein</a> and <a href="/articles/common-hepatic-artery">hepatic arteries</a>. The hepatic portal vein supplies ~ 75% of the liver's blood supply by volume and carries venous blood drained from the spleen, gastrointestinal tract, and its associated organs. The hepatic arteries supply arterial blood to the liver and account for the remainder of its blood flow. Oxygen is provided from both sources; approximately half of the liver's oxygen demand is met by the hepatic portal vein, and half is met by the hepatic arteries.</p><h4>Nerve supply</h4><p>The liver is supplied by sympathetic and parasympathetic fibres from the hepatic nerve plexus, which travel with branches of the hepatic artery and portal vein to the liver. Within the liver the nerve fibres accompany the portal triad. Sympathetic fibres are derived from the coeliac plexus and parasympathetic fibres are derived from the anterior and posterior vagal trunks <sup>5</sup>. </p><h4>Variant anatomy</h4><ul>
+</ul><h5>Segmental anatomy</h5><p>Traditionally, the liver was divided into four anatomical lobes. However, this has been superseded by the use of the <a href="/articles/couinaud-classification">Couinaud classification</a> which divides the liver into eight functional units.</p><h4>Blood supply</h4><p>The liver receives a dual blood supply from the <a href="/articles/portal-vein">portal vein</a> and <a href="/articles/common-hepatic-artery">hepatic arteries</a>. The hepatic portal vein supplies ~75% of the liver's blood supply by volume and carries venous blood drained from the spleen, gastrointestinal tract, and its associated organs.</p><p>The hepatic arteries supply arterial blood to the liver and account for the remainder of its blood flow. The hepatic arterial system supplies the biliary system.</p><p>Oxygen is provided from both sources; approximately half of the liver's oxygen demand is met by the hepatic portal vein, and half is met by the hepatic arteries.</p><h4>Nerve supply</h4><p>The liver is supplied by sympathetic and parasympathetic fibres from the hepatic nerve plexus, which travel with branches of the hepatic artery and portal vein to the liver. Within the liver the nerve fibres accompany the portal triad. Sympathetic fibres are derived from the coeliac plexus and parasympathetic fibres are derived from the anterior and posterior vagal trunks <sup>5</sup>. </p><h4>Variant anatomy</h4><ul>
+<li>lobar variation<ul>
+<li><a href="/articles/agenesis-of-the-right-hepatic-lobe">agenesis of the right hepatic lobe</a></li>
+<li><a href="/articles/agenesis-of-the-left-hepatic-lobe">agenesis of the left hepatic lobe</a></li>
+<li>
+<a title="accessory hepatic lobes" href="/articles/accessory-hepatic-lobes">accessory hepatic lobes</a> / ectopic liver tissue</li>
+</ul>
+</li>
+<li><a href="/articles/accessory-hepatic-sulci">accessory hepatic sulci</a></li>