Gross Anatomy. Henryk Dancygier. Chapter Outline. Descriptive Anatomy



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Gross Anatomy Henryk Dancygier 2 Chapter Outline Descriptive Anatomy...11 Functional Anatomy...13 References...14 The present review of gross anatomy of the liver begins with a short discussion of the traditional descriptive anatomy, helpful in the physical examination of the patient [4, 5]. Modern approaches to liver anatomy emphasize functional aspects. Therefore the outline on descriptive anatomy is followed by a review on functional anatomy [1 3]. The functional approach is based on the concept of liver units, segments, which are each composed of an autonomous blood supply and biliary drainage. The knowledge of these functional segments is particularly important when dissecting small space occupying lesions or when removing segments of the liver for transplantation. Modern imaging modalities, such as ultrasound, computed tomography and magnetic resonance imaging are capable of non-invasively visualizing these segments. Descriptive Anatomy The exsanguinated normal liver of a healthy adult weighs approximately 1.3 1.5 kg. It accounts for about 2% of body weight in adults, and 5% of body weight in children. The soft, parenchymal organ is situated in the right upper quadrant of the abdominal cavity. It lies directly beneath the diaphragm in the right hypochondriac region and is protected by the rib cage. The lateral aspect of the left liver lobe reaches the left hypo chondriac region. During expiration the upper edge of the right liver lobe corresponds to the fourth intercostal space. The lower (anterior) liver margin courses obliquely upwards and crosses the right costal arch at the level of the 9th costal cartilage. The left liver lobe abuts the liver area of the anterior abdominal wall directly beneath the xiphoid process of the sternum. H. Dancygier, Clinical Hepatology, DOI: 10.1007/978-3-540-93842-2_2, Springer-Verlag Berlin Heidelberg 2010 11

12 2 Gross Anatomy Fig. 2.1 Diaphragmatic surface of the liver Fig. 2.2 Visceral surface of the liver The diaphragmatic surface of the liver (facies diaphragmatica) (Fig. 2.1) is convex, and its cranial part shows a shallow impression (impressio cardiaca) that corresponds to the diaphragmatic cardiac saddle. Strong diaphragmatic muscle fibers may cause depressions of the cranial liver surface, called diaphragmatic grooves. The slightly concave inferior, visceral surface of the liver (facies visceralis) (Fig. 2.2) is in contact with the stomach, duodenum, colon, right kidney and right adrenal gland, which create flat impressions of the inferior surface. In the sagittal plane the liver has a cuneiform aspect with a sharp lower margin, margo inferior. The posterior aspect of the diaphragmatic liver surface is rounded and merges without a sharp boundary with the visceral hepatic surface. A tongueshaped inferior extension of the lateral aspect of the right liver lobe is termed Riedel s lobe. The entire surface of the liver is covered by a thin connective tissue capsule, Glisson s capsule, which lies just beneath a layer of flat peritoneal mesothelial cells. Extensions of the capsular fibrous tissue are continuous with the connective tissue within the liver. Most of the liver surface is covered by peritoneum, except for the site of attachment of the gallbladder, the fossa vesicae felleae, and a small area on the posterior surface, area nuda, that adheres firmly to the diaphragm. A peritoneal fold forms the falciform ligament, ligamentum falciforme, that divides the diaphragmatic surface of the liver into a right and left half, but not into different functional segments. The falciform ligament connects the liver to the diaphragm and to the anterior abdominal wall. At the site of the attachment of the liver to the diaphragm, area nuda, it branches into the right and left coronary ligament, ligamentum coronarium hepatis dextrum et sinistrum. The left coronary ligament is a thin, very short mesenteric plate, that ends with a free margin, the left triangular ligament (ligamentum triangulare sinistrum). It connects the connective tissue of the posterior margin of the left liver lobe to the diaphragm. The right coronary ligament merges its anterior fold with the parietal peritoneum of the diaphragm, with its posterior fold with the hepatorenal ligament (ligamentum hepatorenale). The free margin of the right coronary ligament is called the right triangular ligament (ligamentum triangulare dextrum). During embryonic development the falciform ligament

Functional Anatomy 13 contains the umbilical vein. After birth the vein atrophies, leaving behind the ligamentum teres, which runs along the free inferior border of the falciform ligament to the inferior surface of the liver. Here, at the boundary between the right and left liver lobe, it causes a compression of the liver, the incisura ligamenti teretis. In portal hypertensive states the umbilical vein may become recanalized again. The incisura continues on the visceral face of the liver as a fissure, the fissura umbilicalis, that in its posterior segment contains the venous ligament, ligamentum venosum, with the obliterated venous duct (ductus venosus). Anteriorly on the inferior surface of the right liver lobe, the quadrangular quadrate lobe (lobus quadratus) is found. It is demarcated medially by the fissure of the ligamentum teres, laterally by the gall bladder area and posteriorly by the porta hepatis. The medial posterior part of the right liver lobe, the lobus caudatus, is separated from the quadrate lobe by the porta hepatis. The porta hepatis on the visceral liver surface is the area where the portal vein and the hepatic artery enter and the bile ducts leave the liver. The hepatoduodenal ligament connects the duodenum to the porta hepatis and contains the common hepatic, the cystic, and the main common bile duct, the hepatic artery with its right and left branches, the portal vein, lymphatics and nerves. In the hepatoduodenal ligament the main common bile duct is usually found anteriorly and to the right, the portal vein medially, and the hepatic artery dorsally and to the left. Many anatomical variants, however, do occur. Functional Anatomy The three main hepatic vein branches divide the liver into four sectors, each of which is supplied by a portal vein branch. The liver is further sub-divided into eight segments according to the course of portal and hepatic vein branches. Hepatic veins and portal vein branches are intertwined like the digits of two hands (Fig. 2.3). An imaginary plane through the middle hepatic vein divides the liver into a right and left part (not identical to the right and left lobe described above). The right and left part of liver are completely independent units, receiving separate arterial and venous blood supplies and biliary drainage. The right and left hepatic vein sub-divide each part into an anterior and a posterior sector. With its right and left main branch, the portal vein supplies the right and left part of the liver, respectively. Each main portal vein branch further divides to supply the anterior and posterior sectors of the right and left part of the liver. With one exception (see below) in each sector, a further vascular Fig. 2.3 Segmental anatomy of the liver. Hepatic veins (blue) and large portal vein branches (red) are interdigitating. Each of the four sectors, sub-divided by the main branches of the hepatic vein is supplied by a portal venous branch. Further ramifications of the portal triad subdivide the sectors into eight independent segments, each with its own blood supply and biliary drainage

14 2 Gross Anatomy subdivision supplies two segments. Each segment possesses its own vascular supply and biliary drainage. In Fig. 2.3 the segmental anatomy of the liver is depicted. The right liver is made up of the right-posterior sector with segments 6 (inferior) and 7 (superior), and the right-anterior sector with segments 5 (inferior) and 8 (superior). The left liver consists of the left-anterior sector with segments 4 (medial) and 3 (lateral), which are separated by the umbilical fissure. The left-posterior sector is the sole sector having one segment only (segment 2). Segment 1 is the caudate lobe. It has a unique position, receiving its portal venous blood from the right and left portal vein branches, and having its venous outflow drain directly to the retrohepatic inferior vena cava, thus bypassing the hepatic veins. This exceptional anatomical position of the caudate lobe attains clinical significance in hepatic venous outflow tract disorders, such as Budd-Chiari syndrome (see Chapter 59). References 1. Bismuth H (1982) Surgical anatomy and anatomical surgery of the liver. World J Surg 6: 3 9 2. Bismuth H, Majno PE, Kunstlinger F (1999) Macroscopic anatomy of the liver. In: Bircher J, Benhamou JP, McIntyre N, Rizzetto M, Rodes J (eds) Oxford Textbook of Clinical Hepatology, 2nd edn. Oxford University Press, Oxford, pp 3 11 3. Couinaud C (1957) Le foie. Etudes anatomiques et chirurgicales. Masson, Paris 4. Schiebler TH, Schmidt W, Zilles K (1999) Anatomie. 8. Auflage. Springer Verlag, Berlin/Heidelberg/New York 5. Starck D, Frick H (1967) Repetitorium anatomicum. 11. Auflage. Georg Thieme Verlag, Stuttgart

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