Liver Flashcards
In which abdominal regions does the liver lie?
Right hypochondriac region, epigastric, extends slightly into left hypochondriac region.
What ligament divides the liver into anatomical left and right lobes?
Falciform ligament.
What structures surround the caudate lobe?
IVC and a fossa created by the ligamentum venosum.
Where is the caudate lobe located?
Visceral surface of right lobe, upper aspect.
What structures surround the quadrate lobe?
The gall bladder and a fossa created by the ligamentum teres.
What structure gives the impression on the visceral surface of the left lobe?
It is the gastric impression, so the stomach.
What 2 impressions are there on the visceral surface of the right lobe?
The renal impression from the right kidney and the hepatic impression from the hepatic flexure.
What structures are found at the porta hepatis?
The portal triad - common hepatic duct, hepatic artery and the hepatic portal vein. Nerves and lymph vessels too.
What structure lies most anterior in the portal triad and which most posterior?
The common hepatic duct lies the most anteriorly. The hepatic portal vein is the most posterior (DAV).
What is Calot’s triangle?
An anatomic space bordered by the inferior border of the liver superiorly, the cystic duct laterally and the common hepatic duct medially.
What nerves innervate the liver?
Parasympathetic and sympathetic stimulation comes from the celiac plexus. The anterior vagal trunk also gives rise to a hepatic branch.
What kinds of proteins does the liver synthesise?
- Plasma proteins.
- Clotting factors.
- Complement factors.
What are the main functions of Albumin?
- Maintains capillary oncotic pressure.
2. Allows binding and transport of large hydrophobic compounds e.g. bilirubin, hormones, fatty acids.
Why might liver failure result in oedema?
Liver failure may mean less albumin is produced and so you get hypoalbuminaemia. This means the capillary oncotic pressure is reduced and H2O accumulates in the interstitial space - oedema.
Why are complement factors important?
They form an important part of the immune system that responds to pathogens.
What is transamination?
The transfer of an alpha-amino group from an amino acid to a keto-acid.
What enzymes catalyse transamination and where are they found?
Aminotransferases, found in the cytosol and mitochondria.
What is anabolic nitrogen balance?
A positive balance; nitrogen intake is greater than nitrogen loss.
What are the products of transamination?
An alpha-keto acid that can go on to the krebs cycle, and glutamate.
What is oxidative deamination?
Amino acid catabolism that results in the liberation of the amino group as free ammonia.
What is the catalyst in oxidative deamination?
Glutamate dehydrogenase.
Where does the ammonia from oxidative deamination go on to?
The urea cycle.
What is nitrogen balance?
A measure of the equilibrium of protein turnover; nitrogen balance = nitrogen intake - nitrogen loss.
What is catabolic nitrogen balance?
A negative balance; nitrogen loss is greater than intake.
How much nitrogen should an adult intake daily?
0.8g/Kg body weight.
What is the glucose-alanine cycle?
A series of reactions in which amino groups and carbons from muscle are transported to the liver.
Glucose-alanine cycle: What reactions take place in muscle?
Glucose is converted to pyruvate via glycolysis. Pyruvate is then converted into alanine via transamination (glutamate -> alpha ketogluterate).
Glucose-alanine cycle: What reactions take place in the liver?
Alanine is converted to pyruvate via oxidative deamination. NH3 from this reaction goes on to the urea cycle. The pyruvate is converted into glucose via gluconeogenesis.
Where does Arginine come from for the urea cycle?
Diet or protein breakdown.
What is the product(s) of the urea cycle?
Urea.
Briefly describe the urea cycle.
Arginine is converted to Ornithine and Urea is produced. Ornithine is converted into Citrulline using ammonia and CO2. Citrulline is converted into Arginine using ammonia.
What does 1 turn of the urea cycle consume?
3 ATP and 4 high energy nucleotides.
If you’re deficient in the enzymes involved in the urea cycle what might happen?
Ammonia levels in the blood will increase.
What is the danger of ammonia levels in the blood being too high?
Increased ammonia crosses the blood-brain-barrier. It is converted to glutamate and so you get a decrease in alpha-ketogluterate. This means less oxaloacetate and so the Krebs cycle stops resulting in cell damage and neural cell death.
Why might increased ammonia levels mean the Krebs cycle stops?
The ammonia is converted into glutamate, this means less oxaloacetate is produced and so the Krebs cycle stops - cell damage and death.
What is the absorptive state of glucose regulation?
- Ingested nutrients are absorbed from the GI tract into the blood.
- Some nutrients are catabolised and used and the remainder are stored for future use.
What is the post-absorptive state of glucose regulation?
- Nutrients are no longer absorbed from the GI tract.
- Nutrient stores must supply the energy requirements of the body.
Name 4 mechanisms of producing glucose in order to maintain blood glucose levels.
- Glycogenolysis.
- Gluconeogenesis.
- Lipolysis.
- Proteolysis.
What is the most common substrate for gluconeogensis?
Pyruvate.
How many ATP molecules are consumed per molecule of glucose formed in gluconeogenesis?
6.
What is Ferritin?
The storage form of iron. Main source is found in the liver.
What are the fat soluble vitamins?
ADEK.
Where is vitamin A stored? How long can stores last?
Stored in Ito cells in space of Disse. The stores can prevent deficiency for 10 months.
How long can liver storage of vitamin D last?
3-4 months.
What is the function of vitamin D?
Increases calcium reabsorption from the intestinal tract.
What is the function of vitamin E?
Antioxidant.
What is the function of vitamin K?
Necessary for the production of clotting factors.
What is the function of vitamin B12?
Promotes growth and RBC formation and maturation.
What might happen if you’re deficient in intrinsic factor?
Less B12 is absorbed and so you may develop pernicious anaemia.
How much glycogen is stored in the liver?
200g (150g in muscle).
What is the importance of glycogen stores?
Storage form of glucose. Ensures blood glucose levels are maintained.
Name 3 types of lipoprotein and state where they’re formed.
- HDL - formed in the liver.
- LDL - formed in the plasma.
- VLDL - synthesised in hepatocytes.
What is the function of lipoproteins?
To transport cholesterol through the blood.
What cholesterol is ‘good cholesterol’?
HDL.
Give 3 functions of lipids.
- Energy reserves.
- Structural - part of cell membrane.
- Hormone metabolism.
Triacylglycerols are incorporated with cholesterol and apolipoproteins to form what?
Chylomicrons.
What is the function of lipoprotein lipase?
Hydrolyses triglycerides in lipoproteins into 3 fatty acids and glycerol.
Briefly describe the mechanism of fat catabolism?
- CoA binds to the end of a fatty acid chain: fatty acyl CoA.
- ATP -> AMP + 2Pi.
- Fatty acyl CoA is a substrate for beta-oxidation.
- Acetyl CoA is split off from FA and 2H+ are transferred to coenzymes.
- H+ enter OP and another CoA attaches to repeat the cycle.
What is the function of hepatic lipase?
It is expressed in the liver and adrenal glands. It converts IDL (intermediate density lipoprotein) into LDL.
Approximately how much bile does the liver produce daily?
500ml.
What stimulates CCK?
The presence of lipids in the duodenum.
What does CCK induce?
Gall bladder contraction and the release of bile. The sphincter of Oddi opens.
Where are bile salts reabsorbed?
In the terminal ileum.
What circulation returns bile salts to the liver?
Enterohepatic.
What is the first phase of pancreatic secretion?
The buffer phase.
Exocrine pancreas: what is secreted in the buffer phase? What is its function?
HCO3- rich secretion. This protects the duodenal mucosa from gastric acid and buffers material entering the duodenum to a suitable pH for enzyme action.
