Download - Lecture 2 ESS_3rd semester
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Lecture 2 ESS_3rd semester
MICROSCOPIC STRUCTURE OF LIVER, GALLBLADDER, GALL DUCTS, AND PANCREAS
OVERVIEW OF DEVELOPMENT OF THE ALIMENTARY CANAL
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MICROSCOPIC STRUCTURE OF LIVER
- is the largest gland of the body- is of endodermal origin- it consists of the connective tissue, parenchyma, and blood vessels
connective tissue – 2 sites:- fibroconnective capsule (capsule of Glisson) – on the surface of liver
- interstitial connective tissue within parechyma - is poor in amount distinct is in portal areas (portal canals) – sites where usually meet 3 hepatic lobules (structural units of the parenchyma) portal areas have triangular shape (triangles of Glisson)
portal area contains triad of Glisson: - interlobular vein (from v. portae) - interlobular artery (from hepatic artery)- bile duct
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Parenchyma hepatic lobules (lobules of a central vein) and intrahepatic bile ducts
lobules are polyhedral prisms of 1 to 2 mm high nad wide in cross sections lobules usually show hexagonal profile with a central vein in their centres
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hepatic lobule consists of hepatic cell plates (cords of Remak) alternating with sinusoidshepatic cell plates are made up of 1 or 2 rows of hepatocytes among them run bile canaliculi
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hepatocytes are mostly polygonal and often binucleate cellsthe cytoplasm is eosinophilic and slightly granular. The plasma membranes of two adjacent hepatocytes are smooth except the surfaces limited the bile canaliculi and perisinusoidal spaces.
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hepatic sinusoids = thin vascular channels d. cca 20 m, length of 500 mor more, branched
empty into a central vein
lined with endothelium + phagocytic Kupffer cells
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Kupffer cells
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bile canaliculi diameter cca 1-2 m
surrounded with plasmalemmas of adjacent hepatocytes
begin blindly near the central vein and run to the periphery of the lobule open into the canals of Hering
Intrahepatic bile ducts: canals of Herringcanals of Herringinterlobular bile ductsinterlobular bile ducts
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Blood circulation of the liver
2 circulations - nutritive one (hepatic artery) - oxygenated bood - functional one (portal vein) - venous blood rich in
absorbed productsdivision of blood streams - 20 to 30 % of blood flows nutritive through circulation
- 80-70 % of blood flows through functional circul.blood of both circulations meets at the level of hepatic sinusoids
hepatic artery interlobular artery interlobular arterioles proper (portal areas) (surface of hepatic lobules
interlobular interlobular venules HEPATIC SINUSOIDS veins(portal areas) (surface of hepatic lobules
vena portae
hepatic veins sublobular veins central veins
inferior vena cava
Functional circulation
Nutritive circulation
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Hepatic lobus (lobule of a central vein)
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Concept of a portal lobule
portal lobule - has triangular shapeits centre is formed by a portal area andtissue draining bile into bile duct of that portal area
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Zones of hepatic acinus:1.zone of permanent activity2.transient zone3.quiescent zone
Extrahepatic biliary passages
right + left hepatic ductcommon hepatic ductcystic duct
common bile duct (d. choledochus)
gallbladder - 3 layers- mucosa- muscular l.- serous coat (partly also adventitia)
Wall:1.simple columnar epithelium 2.lamina basalis3.dense collagen conn. tissue
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wall of the gallblader
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MICROSCOPIC STRUCTURE OF PANCREAS
- gland of 120 -130 g
- it lies in the concavity of the duodenum (head, body and tail)
- pancreas consists of
a) connective tissue - capsule + septae
b) parenchyma – exocrine + endocrine glandular tissue
lobules - serous acini + ducts
- islets of endocrine cells (islets of Langerhans)
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Exocrine pancreas : serous acini + ducts
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Endocrine pancreas: islets of Langerhans
A cells, B cells, D cells, PP cells - pancreatic polypeptide
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StomodeumOropharyngeal
membrane
Primitive gutforegut
midguthindgut
Cloacal membrane
Proctodeum
ventral mesenteriumdorsal mesenterium
OVERVIEW OF DEVELOPMENT OF THE ALIMENTARY CANAL
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Frontal view of the alimentary canal (5th week)
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Branchial apparatus of the embryo and its fate
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Development of pharynx, esophagus and stomach
Pharynx - constitutes after completion of the branchial apparatus development, when process of separation of branchiogenic organs was finished
Esophagus - ventrally proliferates respiratory diverticulum, initially very short, by 7 th week - final length
Stomach - appears as fusigorm dilatation of the caudal part of the foregut
is suspended by ventral and dorsal mesogastrium
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Stomach5th week - dorsal wall grows rapidly than vetral - major and lesser curvatures
6th week - undergoes rotation movement according to axis:A/longitudinalmajor c. to the left (right side becomes the dorsal sidelesser c. to the right (lect side becomes the ventral side
B/ sagittalcardiac part moves inferiorlypyloris part moves rather superiorly
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Development of the intestine
midgut + hindgut
midgut elongates to form 2 loops:
- duodenal loop - C - shaped
- midgut loop - U - shaped cranial limb caudal limb(jejunoileal) (ileocaecal)
by primitive flexure of the coli
hindgut - precloacal portion - cloaca
Duodenumdevelops from duodenal loop, that rotates around the longitudinal axis to the right,
rotation is connected with dislocation of mesenteries
between the 5th and 6th w. comes to obliteration of the duodenal lumen, recanalization in the 8th w.
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Development of the midgut loop
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Development of the hindgut
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Development of the liver and biliary apparatus
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Development of the pancreas
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