FATTY LIVER
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Transcript of FATTY LIVER
Fatty liver refers to the deposition of excess
triglycerides in the liver cells.
The normal concentration of lipids in liver is
around 5%.
Liver is not storage organ for fat.
In the normal liver, Kupffer cells contain lipids
in the form of droplets.
In fatty liver, droplets of triacylglycerols are
found in the entire cytoplasm of hepatic cells.
Causes impairment in metabolic functions of
liver.
Fatty liver is associated with fibrotic changes
& cirrhosis.
Causes of fat deposition in liver:
Mobilization of NEFA from adipose tissue.
Excess synthesis of fatty acid from glucose.
Reduced removal of fat from liver:
Toxic injury to liver.
Secretion of VLDL needs synthesis of apo B-100
& apo C.
Decreased oxidation of fat by hepatic cells.
The capacity of liver to take up the fatty acids
from blood, exceeds its capacity for excretion
as VLDL.
This leads to the overproduction of
triacylglycerols & their accumulation in liver.
Fatty liver can occur in diabetes mellitus &
starvation due to increased lipolysis in adipose
tissue.
Alcoholism & high fat diet are associated with
increased mobilization of fatty acids & cause
fatty liver.
Alcohol also inhibits fatty acid oxidation &
promotes fat synthesis & its deposition.
Excess calorie intake:
Excess calories, either carbohydrates or as
fats, are deposited as fat.
Obesity may be accompanied by fatty liver.
In toxic injury to the liver due to poisoning by
compounds like carbon tetrachloride, arsenic,
lead, etc.
Inhibit protein synthesis & causes fatty liver.
lmpaired synthesis of lipoproteins:
The synthesis of very low density lipoproteins
(VLDL) actively takes place in liver.
VLDL formation requires phospholipids &
apoprotein B.
Impaired lipoprotein synthesis may be due to:
Defect in phospholipid synthesis.
A block in apoprotein formation.
A failure in the formation/secretion of
lipoprotein.
Fatty liver due to impairment in phospholipid
synthesis is studied in detail.
Dietary deficiency of lipotropic factors such as
choline, betaine, inositol etc.
Deficiency of essential fatty acids leads to a
decreased formation of phospholipids.
Lipoprotein synthesis & their secretion require
ATP.
Decrease in the availability of ATP.
Pyridoxine & pantothenic acid deficiency also
impairs lipoprotein formation.
Deficiency of vitamin E is associated with fatty
liver.
Selenium acts as a protective in nature.
Certain hormones like ACTH, insulin, thyroid
hormones, adrenocorticoids promote
deposition of fat in liver.
NAFLD is the most common liver disease,
where fat is accumulated in hepatocytes.
High fat diet & uncontrolled diabetes mellitus
are the most common causes.
As the disease progresses, inflammatory
reaction occurs, which is termed as NASH.
Fat molecules infiltrate the cytoplasm of the cell
(fatty infiltration).
These are seen as fat droplets in the cytoplasm
The nucleus is pushed to a side of the cell.
Ultimately the hepatic cell is lysed.
As a healing process, fibrous tissue is laid
down, causing fibrosis of liver or cirrhosis.
These are the substances required for the
normal mobilisation of fat from liver.
The deficiency of these factors may result in
fatty liver.
Important lipotropic factors:
Choline, Betaine, Methionine & Inositol.
Folic acid, vitamin B12, glycine & serine also
serve as lipotropic factors.
Choline & inositol are components of
phospholipids & required for their synthesis.
The other lipotropic factors are concerned
with transmethylation reactions & ultimately,
the synthesis of choline.
Severe protein deficiency (e.g.kwashiorkor)
causes fatty liver.
Due to a defect in the synthesis of choline as a
result of insufficient amino acid (methionine)
supply.
Vitamin E & selenium give protection due to
their anti-oxidant effect.
Omega 3 fatty acids have a protective effect
against fatty liver.
Decreased phospholipid synthesis.
Impaired formation of lipoprotein membrane.
Reduced synthesis of carnitine due to
insufficient supply of methyl groups.
Impairment in fatty acid oxidation.