Hepatic veins

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Hepatic veins
Volume rendering of an abdominal CT, with hepatic veins annotated by arrows. The aorta and branches is seen in center.
The hepatic veins are the veins of the liver, two of which are shown in this diagram.
Details
Precursorvitelline veins
Drains fromLiver
SourceHepatic portal vein
Drains toinferior vena cava
ArteryHepatic artery
Identifiers
Latinvenae hepaticae
MeSHD006503
TA98A12.3.09.005
TA24994
FMA14337
Anatomical terminology

In human anatomy, the hepatic veins are the veins that drain venous blood from the liver into the inferior vena cava (as opposed to the hepatic portal vein which conveys blood from the gastrointestinal organs to the liver[1]: 1212 ). There are usually three large upper hepatic veins draining from the left, middle, and right parts of the liver, as well as a number (6-20) of lower hepatic veins.[2] All hepatic veins are valveless.[3]

Structure

All the hepatic veins drain into the inferior vena cava. The hepatic veins are divided into an upper and a lower group.[2]

Upper group

The upper group consists of three hepatic veins[2] - the right, middle, and left hepatic veins[1]: 1212  - draining the central veins from the right, middle, and left regions of the liver and are larger than the lower group of veins.[2] The veins of the upper group drain into the suprahepatic part of the inferior vena cava (i.e. part superior to the liver).[1]: 1212 

Right hepatic vein

The right hepatic vein is the longest and largest of all the hepatic veins. It drains the liver segments VI and VII in their entirety, and variably participates in the drainage of segments V and VIII; the extent of drainage of the latter two segments by the right hepatic veins as opposed to the middle hepatic vein and possible variant accessory veins determines the calibre of the right hepatic vein. It arises anteriorly near the inferior border of the liver, coursing along the right portal fissure to drain into the inferior vena cava near the superior margin of the caudate lobe. It usually reaches the inferior vena cava as a single vessel, but sometimes drains into it as two separate trunks.[1]: 1212 

Middle hepatic vein

The middle hepatic vein drains the central portion of the liver, draining segments IV, V, and VIII. The middle hepatic vein most often joins the left hepatic vein to form a short common trunk to drain jointly into the inferior vena cava; the middle hepatic vein drains into the inferior vena cava as a separate vessel in less than 10% of individuals.[1]: 1212 

Left hepatic vein

The left hepatic vein usually drains liver segments II and III, and occasionally also segment IV. The umbilical fissue vein is a major tributary of the left hepatic vein.[1]: 1213  The left hepatic vein most often forms a short common trunk with the middle hepatic vein before these jointly drain into the inferior vena cava.[1]: 1212 

Lower group

The lower group consists of 6-20 smaller hepatic veins which drain the right lobe and the caudate lobe, are in contact with the hepatic tissue, and are valveless.[2] All veins of the lower group drain into the retrohepatic part of the inferior vena cava (i.e. part posterior to the liver).[1]: 1212 

The lower group consists of 1-5 veins draining the liver segment I, and may consist of (inconsistently present) accessory inferior hepatic vein, accessory middle right hepatic vein, and several smaller retrohepatic veins draining the right lobe of the liver.[1]: 1213 

Clinical significance

The hepatic veins (and their variant anatomy) are relevant in liver resection and transplantation, and in Budd–Chiari syndrome.[1]

Budd–Chiari syndrome is a condition caused by blockage of the hepatic veins, such as by a blood clot. It presents with a "classical triad" of abdominal pain, ascites, and liver enlargement. It occurs in 1 out of a million individuals. The syndrome can be fulminant, acute, chronic, or asymptomatic.[citation needed] The independent lower veins draining the liver segment I directly into the inferior vena cava are unaffected by obstruction of the large hepatic veins, leading to compensatory hypertrophy.[1]: 1213 

The hepatic veins may be connected with the portal veins in a TIPS procedure.[citation needed]

Additional images

  • Animated Volume rendered CT scan of abdominal and pelvic blood vessels.
    Animated Volume rendered CT scan of abdominal and pelvic blood vessels.
  • Posterior abdominal wall, after removal of the peritoneum, showing kidneys, suprarenal capsules, and great vessels. (Hepatic veins labeled at center top.)
    Posterior abdominal wall, after removal of the peritoneum, showing kidneys, suprarenal capsules, and great vessels. (Hepatic veins labeled at center top.)
  • Human embryo with heart and anterior body-wall removed to show the sinus venosus and its tributaries.
    Human embryo with heart and anterior body-wall removed to show the sinus venosus and its tributaries.
  • Longitudinal section of a hepatic vein.
    Longitudinal section of a hepatic vein.
  • Hepatic vein
    Hepatic vein
  • Normal spectral Doppler waveform of hepatic venous flow
    Normal spectral Doppler waveform of hepatic venous flow

References

  1. ^ a b c d e f g h i j k Gray's anatomy : the anatomical basis of clinical practice. Susan Standring (Forty-second ed.). [New York]. 2021. ISBN 978-0-7020-7707-4. OCLC 1201341621.{{cite book}}: CS1 maint: location missing publisher (link) CS1 maint: others (link)
  2. ^ a b c d e Albert, Daniel; et al. (2012). Dorland's illustrated medical dictionary (32nd ed.). Philadelphia, PA: Saunders/Elsevier. p. 2040. ISBN 978-1-4160-6257-8.
  3. ^ "Hepatic Veins". www.meddean.luc.edu. Retrieved 2023-07-04.

External links