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Anatomy & Physiology

(MCQ) Not true about islets of langerhans? A- b cells secrete insulin and is evenly distributed B- A cells secrete glucagon predominant in body and tail C-D cells secrete somatostain D-F cells secrete PP and is predominant in head of pancreas

Explanation:

F cells - PP = Uncinate process [not head]

(MCQ) First endocrine cells to appear in embryo ?

  • A- A cells
  • B- B cells
  • C- C cells
  • D- D cells

(MCQ) Not true about development of pancreas

  • A- Pancreas begins development during 4-5th week of gestation
  • B-Ventral bud appears first and form uncinate process
  • C- Dorsal bud develops into body and tail of pancreas
  • D-clockwise rotation occurs during 4-8 week of gestatation

(MCQ) Duct of Wirsung is formed by? A- Dorsal pancreatic bud along with proximal portion of ventral pancreatic bud B- Dorsal pancreatic bud along with distal portion of ventral pancreatic bud C- Ventral pancreatic bud along with distal portion of dorsal pancreatic bud D-Ventral pancreatic bud along with proximal portion of dorsal pancreatic bud

Explanation:

  • Ductal development:
    • Duct of Wirsung: ventral pancreatic bud+ distal part of Dorsal pancreatic bud β€’
    • Duct of Santorini: Proximal portion of dorsal pancreatic bud
  • Pancreas development
    • PDX1 and PTF1a-induce pancreatic differentiation
    • Dorsal pancreatic bud- Suppression of sonic hedgehog pathway
    • Ventral pancreatic bud- cardiogenic mesenchyme-lack of FGF- leads to ventral pancreas development by default

(MCQ) Genes responsible for endocrine differentiation in pancreas ?

A-PDX1 B- PTF1 C-NEORG3 D-None of these

Genetics:

  • NEORG 3- earliest marker specific to endocrine differentiation(NOTCH SIGNAL PATHWAY)
  • PDX1- earliest marker for pancreatic progenitors ; Required for B cells functions
  • PTF-1- promotor of acinar fate

  • PAX4-endocrine differentiation

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Genes involved in Early Liver, Bile Duct and Pancreas Development:

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(MCQ) No of sphincters in Sphincter of Oddi at ampulla = 3 or 4 controversial

  • Accd to Blumgart = 3 Sphincters:
    • Sphincter of Oddi
    • Sphincter of choledochus of Boyden
    • Sphincter pancreaticus

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Blood supply of Pancreas

(MCQ) β€’ Arteria pancreatica magma (greater pancreatic artery) is a branch of ? A - Splenic artery B-SMA C-GDA D-Left gastric artery

Inferior pancreatic artery = transverse pancreatic artery

Inferior pancreatic artery = transverse pancreatic artery

  • Blood supply :
    • GDA---SPDA----Anterior & Posterior
    • SMA- IPDA ----Anterior & Posterior
    • Splenic artery- Greater pancreatic artery, transverse pancreatic artery, dorsal pancreatic artery, caudal pancreatic artery

Uncinate Process:

(MCQ) Not true about uncinate process of pancreas ?

A- Develops from ventral pancreas B- Related to SMA medially C-Posteriorly related to left kidney, left renal vein and adrenal gland D-All of above

Explanation:

  • Medially = SMV and laterally SMA

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ENDOCRINE FUNCTION:

INSULIN SECRETION:

(MCQ) All of following increases insulin secretion except ?

  • A-GIP
  • B-Ach
  • C-leptin
  • D-glutamate

Explanation:

  • Stimulate insulin secretion:
    • Glucose, amino acid (arginine, glutamate)
    • Incretins = GIP and GLP 1
    • Ach ( non neuronal pathway)
  • Inhibit insulin secretion:
    • Sympathetic pathway : Substance P, VIP, neurotensin
    • Somatostatin, amylin, leptin, pancreastatin
  • GLUT 1 and GLUT 3 in beta cells in human
  • Acute pancreatitis and diabetes
  • 15% develop within 12 month of AP
  • Independent from severity of pancreatitis
  • 40% risk after hospitalization for first episode

(MCQ) Not a function of insulin ? A- lipogenesis B-Protein synthesis C-hepatic gluconeogenesis D-glycogenesis

Explanation:

  • Insulin- energy storage
  • uptake of amino acid and glucose
  • Decrease lipolysis
  • Glycogenesis

INCRETIN:

(MCQ) Not true about incretins ?

  • A- secreted by L cells of small intestine in response to rise in plasma glucose
  • B-GLP-1 stimulates insulin and inhibits glucagon secretion
  • C- gastric emptying is decreased
  • D-All of above

Explanation:

  • Incretins are secreted due to enteric response of glucose [not secreted by IV glucose]
  • 2 incretins:
    • GIP = K cells of duodenum ; Inhibit gastric acid and Pepsin secretion
    • GLP 1 =L cells of ileum, colon, rectum ; inhibit P. Glucagon release & Increase food transit time in stomach
  • Stimulate insulin in response to enteral stimulation
  • Enteral stimulation > parenteral stimulation
  • inhibit gastric emptying
  • Inhibit glucagon secretion
  • Gliptins ( Sitagliptin) GLP-1 analogue in management of DM

EXOCRINE FUNCTION:

(MCQ) true about exocrine function of pancreas?

A-S cells in duodenum secrete secretin which primarly stimulate acinar cells to secrete pancreatic enzymes B-CCK is stimulated by I cells of duodenum and jejunum in response to acidic chyme C- Pancreatic enzyme secretion is primarly stimulated by sympathetic stimulation D-DNAse, RNAse and amylase does not require activation in duodenum

Explanation:

  • Cephalic phase, gastric phase, intestinal phase
  • Secretin -
    • S cells of duodenum
    • centroacinar and ductal cells to release fluid and bicarbonate, increases blood flow.
    • Lesser extent on acinar secretion (enzymes)
  • CCK-
    • I cells of duodenum and jejunum
    • CCK---neurons--- Ach---M1 &M3 receptors----enzyme secretion
    • Fatty acids, and amino acids stimulate I cells
    • Enzymes Secretion = acinar cell stimulation
  • Active form :
    • DNAse, RNAse, Amylase and lipase
    • only 4 enzymes are secreted in active form