Pancreas

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Pancreas
Illu pancrease.jpg
Illu pancreas duodenum.jpg
1: Head of pancreas
2: Uncinate process of pancreas
3: Pancreatic notch
4: Body of pancreas
5: Anterior surface of pancreas
6: Inferior surface of pancreas
7: Superior margin of pancreas
8: Anterior margin of pancreas
9: Inferior margin of pancreas
10: Omental tuber
11: Tail of pancreas
12: Duodenum
Gray's subject #251 1199
Artery Inferior pancreaticoduodenal artery, Superior pancreaticoduodenal artery
Vein Pancreaticoduodenal veins
Nerve Pancreatic plexus, celiac ganglia, vagus[1]
Precursor pancreatic buds

The pancreas is a pinkish white glandular organ found in vertebrates near the stomach and small intestine.The pancreas is the second largest gland,after the liver,that is connected to the digestive tract. It is one of the few organs that has both an exocrine and an endocrine function. Its exocrine function involves the secretion of bicarbonate and digestive enzymes into the small intestine. Its endocrine function involves the regulation of blood sugar levels by secreting the hormones insulin , glucagon and somatostatin directly into the blood. The endocrine portion of this organ consists of about 1 million islets of Langerhans , amounting to only 1-3 percent of the organ weight. The majority of cells are exocrine and secrete one to three liters of digestive fluid per day.

History

The pancreas was discovered by Herophilus (335-280 B.C.E.), a Greek anatomist and surgeon. A few hundred years later, Ruphos, another Greek anatomist, gave the pancreas its name. The term "pancreas" is derived from the Greek pan,meaning "all", and kreas,meaning "flesh". [2]

The main duct of the pancreas was described in the 17th century by Dr. Wirsung. Claude Bernard discovered,in 1846, that the pancreas had a role in the digestion of fats in rabbits. In 1889 ,Reginald Fitz discovered pancreatitis as a disease. In 1922,Banting and Best made the Nobel- prize - winning discovery that the pancreas contained a substance that could cure diabetes in dogs.Hyperinsulinism due to a tumor of the islet cells was first reported in 1927. In 1940, Dr. O. Whipple performed the first pancreaticoduodenectomy (Busnardo et al.1983).

Anatomy

In human beings, the pancreas is a 6-10 inch elongated organ weighing 65 to 160 grams and lying in the abdominal cavity . It lies posterior to the stomach, anterior to the kidneys and empties into the duodenum portion of the small intestine.

The human pancreas can be divided into five regions: (1) the head,which touches the duodenum,(2) the body,which lies at the level of second lumbar vertebrae of the spine (3) The tail ,which extends towards the spleen,(4) the uncinate process and (5) the pancreatic notch,which is formed at the bend of the head and body

The pancreatic duct or duct of Wirsung runs the length of the pancreas and empties into the duodenum at the ampulla of Vater. The common bile duct usually joins the pancreatic duct at or near this point.

Many people also have a small accessory duct, the duct of Santorini, which extends from the main duct more upstream (towards the tail) to the duodenum, joining it more proximally than the ampulla of Vater.

Blood supply

The pancreas is supplied arterially by the pancreaticoduodenal arteries:

  • the superior mesenteric artery provides the inferior pancreaticoduodenal arteries
  • the gastroduodenal artery provides the superior pancreaticoduodenal artery

Venous drainage is via the pancreaticoduodenal veins which end up in the portal vein. The splenic vein passes posterior to the pancreas but is said to not drain the pancreas itself. The portal vein is formed by the union of the superior mesenteric vein and splenic vein posterior to the neck of the pancreas. In some people (some books say 40% of people), the inferior mesenteric vein also joins with the splenic vein behind the pancreas (in others it simply joins with the superior mesenteric vein instead).

Nerve supply

The pancreas receives neural innervation from the vagus (cranial X). This is part of the autonomic parasympathetic supply. The role of the vagus is to stimulate secretion of the pancreatic digestive juices.

Autonomic sympathetic nerves to the pancreas derive from the celiac ganglionic plexus ,the superior mesenteric plexus and the hepatic plexus. These plexuses lie outside the pancreas and send postganglionic fibers into the pancreatic cells. The sympathetic nerves inhibit the production of digestive enzymes (Berne et al. 1996).

The innervation of the pancreas is comprised of both an intrinsic component composed of neurons of the enteric nervous system within the pancreas consisting of many intrapancreatic ganglia and an extrinsic component made of neurons lying outside the digestive tract and belonging to the sympathetic and parasympathetic systems

Many different neurotransmitters have been found within the pancreas including acetylcholine,epinephrine,norepinephrine,serotonin,nitric oxide and others (Salvioli et al. 2002).

Microscopic anatomy

When the pancreas is sliced and stained and then viewed with a microscope, it is easy to distinguish many different types of cells that correspond to different pancreatic functions. The microscopic appearance of the pancreas shows a series of islands (the Islets of Langerhans) consisting of small cells packed closely together ,surrounded by much larger and less dense acinar cells. The islands have an endocrine function and the surrounding cells have an exocrine function.


File:Pancreas.jpg
endocrine and exocrine pancreas


Appearance Region Function
centralized islands(islets of Langerhans) endocrine pancreas secretes hormones that regulate blood glucose levels
surrounding acinar cells exocrine pancreas produces enzymes and bicarbonate

The acinar cells of the pancreas are arranged in such a way as to form a compound acinous gland. The smallest unit is the lobule, which is composed of single layers of acinar cells dumping their contents into a tubule which is closed at one end. These lobules drain into larger intercalated ducts which drain into larger intralobular ducts,which drain into extralobular ducts. These join one of the two main ducts; the larger duct of Wirsung or the smaller duct of Santorini.

There are two types of exocrine cells lining each lobule. The cells at the closed end of the tube are called acinar cells. As the lobule merges with the intercalated duct the centroacinar cells predominate. The acinar cells have a pyramidal shape and contain a high concentration of enzymes in the form of zymogen storage granules. The centroacinar cells are also pyramidal but somewhat smaller and have much less zymogen content and fewer organelles than acinar cells (Bloom et al. 1972).

The cells that line the ducts are of the simple columnar type and are believed to be the source of the aqueous bicarbonate rich secretions.

Function

Endocrine function

There are four main types of cells in the islets of Langerhans. They are relatively difficult to distinguish using standard staining techniques, but they can be classified by their secretion:

Name of cells Product % of islet cells Representative function
beta cells Insulin and Amylin 50-80% lower blood sugar
alpha cells Glucagon 15-20% raise blood sugar
delta cells Somatostatin 3-10% inhibit endocrine pancreas
gamma cells Pancreatic polypeptide 1% inhibit exocrine pancreas

The islets are a compact collection of endocrine cells arranged in clusters and cords that are crisscrossed by a dense network of capillaries. The capillaries are lined by layers of endocrine cells in direct contact with them by either cytoplasmic processes or by direct apposition. The cells release their hormones,without ducts,directly into the capillaries.

Insulin is a polypeptide containing two chains of amino acids joined together by two disulfide bridges, with a total of 51 amino acids.

  • It helps to transport glucose into skeletal muscle and liver.
  • it is produced when blood sugar exceeds the 50 mg/deciliter level
  • average production is 1.0 to 2.5 mg/day
  • it stimulates skeletal muscle and liver to convert glucose to a storage form called glycogen
  • it stimulates fat cells to synthesize fat
  • it acts on the hypothalamus to reduce appetite

Amylin is another polypeptide secreted by the beta cells . It is slightly smaller than insulin with 37 amino acids . It works to supplement the actions of insulin.

  • it inhibits the secretion of glucagon
  • it lowers the level of glucose in the blood
  • it slows the emptying of the stomach into the intestine
  • it sends a signal of satiety to the brain

Glucagon is a polypeptide containing 29 amino acids.

  • it is released into the blood in response to a blood glucose level falling below 80 mg/deciliter
  • it acts primarily on the liver to stimulate glucose production by breaking down glycogen and converting protein and fat into glucose
  • glucagon secretion is inhibited by amylin (Bowen 2002).

The endocrine function of the pancreas is to produce important hormones including insulin, glucagon and somatostatin and export them to the blood supply on demand.

Somatostatin is a polypeptide secreted by the delta cells and consists of 12 amino acids. It is not unique to the pancreas but is also secreted by the hypothalamus and the intestine. The intestine secretes a form consisting of 28 amino acids. It works to inhibit the secretion of several other hormones. Its main action in the pancreas is to inhibit the secretion of both insulin and glucagon in addition to supressing the exocrine secretions of the pancreas (Bowen 2002).

Pancreatic polypeptide is secreted by the gamma cells and consists of 36 amino acids. It is produced in response to chewing and swallowing food . It probably acts to reduce appetite (Taylor et al. 1982).

Exocrine function

There are two main types of exocrine pancreatic secretions: (1) the aqueous alkaline type, which is rich in bicarbonate ions and (2) the enzyme rich type.

Secretion Cell producing it Primary signal
bicarbonate ions duct cells Secretin
digestive enzymes (pancreatic amylase, trypsin, chymotrypsin, etc.) acinar cells CCK

Secretin and cholecystokinin (CCK) are two hormones released by the mucosal cells of the duodenum , whose effect on the pancreas is to stimulate the production of aqueous alkaline and enzymatic secretions respectively.

The aqueous alkaline component of bicarbonate ions from the pancreas is at a much higher concentration than plasma (hypertonic) and varies from 70 meq./L. to more than 100 meq./L. As it flows down the ducts toward the duodenum, water enters the ducts to make the bicarbonate concentration isotonic. At the same time,chloride ions migrate into the ducts and bicarbonate ions migrate out.The alkaline bicarbonate eventually empties into the duodenum to neutralize the acids received from the stomach.

Although chloride ion migration into the pancreatic ducts may seem to be of minor importance, it is now known that a defect in the chloride channel that prevents this migration causes a disease known as cystic fibrosis. The pancreatic ducts and the lung airways become clogged with mucus and result in difficulty in breathing and digesting fats(Berne et al.1996).

Once the proper pH has been achieved in the duodenum then enzymes can be delivered to digest proteins,fats,carbohydrates and nucleic acids. The proteolytic enzymes are usually released into the pancreatic ducts as inactive forms and then become activated by enzymes once they are inside the duodenum. Some important protein cleaving enzymes are listed as their inacive form followed by the active form :

  • trypsinogen becomes trypsin
  • chymotrypsinogen becomes chymotrypsin
  • procarboxypeptidase becomes carboxypeptidase

Trypsinogen becomes activated to trypsin by (enteropeptidaseenterokinase)produced in the duodenum. The trypsin that has formed then activates more trypsinogen as well as chymotrpsinogen and procarboxypeptidase.

Some starch digesting enzymes are alpha amylase and pancreatic amylase that are released into pancreatic ducts in their active form.

Lipid digesting enzymes are called lipases and some of these include:

  • triacyl glycerol hydrolase
  • cholesterol ester hydrolase
  • phospholipase A2

Another category of enzymes produced by the pancreas are the nucleases. Ribonuclease digests RNA and deoxyribonuclease digests DNA.


Diseases of the pancreas

Due to the importance of its enzyme contents, injury to the pancreas is potentially very dangerous. A puncture of the pancreas generally requires prompt surgical intervention.

  • Diabetes mellitus
  • tumours both benign and cancerous
    • Carcinoma of the pancreas
    • Insulinoma
    • Glucagonoma
  • Cystic fibrosis
  • Exocrine pancreatic insufficiency
  • Hemosuccus pancreaticus, or bleeding from or through the pancreatic duct
  • Pancreatitis
  • Pancreatic pseudocyst

Diabetes and the Pancreas

A new discovery might have important implications for treatment of diabetes. Drs. Michael Salter and Hans Dosch at the Toronto Hospital for Sick Children injected capsaicin into mice with type 1 diabetes , in an attempt to destroy malfunctioning pancreatic pain neurons. Almost immediately, the mice began producing insulin normally! This treatment reduced the development of diabetes in these mice by 80%, suggesting a link between neuropeptides and the development of diabetes. When the researchers injected the pancreas of the diabetic mice with sensory neuropeptide , they were cured overnight of diabetes for as long as 4 months. Also, insulin resistance (characteristic of type 2 diabetes) was reduced. These research results are in the process of being confirmed, and their applicability to human beings will have to be established (Blackwell 2006).

Additional images

References
ISBN links support NWE through referral fees

  • Berne,R.M. and M.N.Levy. 1996. Principles of Physiology,second edition,published by Mosby - Year Book,Inc.,St.Louis,MO.
  • Blackwell,T. 2006. Diabetes breakthrough:Toronto scientists cure disease in mice[[1]]
  • Bloom,W. and D.W.Fawcett. 1972. A Textbook of Histology,tenth edition,pp.727-742. W.B.Saunders Co.,Philadelphia.
  • Bowen,R. 2002. The Endocrine Pancreas: Introduction and Index[[2]]
  • Busnardo, A.C.,L.J. DiDio ,R.T. Tidrick ,N.R. Thomford. 1983 .History of the Pancreas. Am J Surg. 146(5):539-50.
  • Salvioli,B.,M.Bovara1, G.Barbara, F.O. De Ponti, V.Stanghellini, M. Tonini, S.Guerrini, C. Cremon, M.Degli Esposti, M.Koumandou, R. Corinaldesi, C. Sternini, R. De Giorgio. 2002.'Neurology and Neuropathology of the Pancreatic Innervation'. endocrinJOP. J. Pancreas (Online) 3(2):26-33.
  • Taylor,I.L. and M.Feldman. 1982. Effect of cephalic-vagal stimulation on insulin, gastric inhibitory polypeptide, and pancreatic polypeptide release in humans.Journal of Clinical Endocrinology & Metabolism 55 : 1114-1117.[[3]]


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  1. Physiology at MCG 6/6ch2/s6ch2_30
  2. Harper, Douglas. Pancreas. Online Etymology Dictionary. Retrieved April 4, 2007.