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GASTROINTESTINAL FUNCTION

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Title: GASTROINTESTINAL FUNCTION


1
GASTROINTESTINAL FUNCTION
2
THE STOMACH
3
  • A) Helicobacterpylori infection is one of the
    major cause of peptic ulcer, the ulcer results
    from weakening of the protective mucous coating
    of the stomach and duodenum.
  • The organism protects itself from gastric acidity
    by secretion of the urease enzyme which convert
    the acidic media into more neutral environment.

4
  • Tests for H. pylori infection
  • 1- Urea breath test is a non-invasive and
    reliable test that depends on the urease activity
    of the organism to detect active Infection.
  • The patient is given by mouth either 13C- or
    14C-labeIled urea and urease (produced by H.
    pylori) if present, hydrolyses urea into ammonia
    and isotopically labeled carbon dioxide.
  • Carbon dioxide is absorbed from the gut and
    subsequently expired in the breath where it can
    be detected and quantified..
  • This test is used both for the identification of
    patients with active infection and for
    establishing the effectiveness of treatment.

5
  • 2- Serological tests Patients infected with H.
    pylori develop antibodies to the organism that
    can be detected in the laboratory using
    enzyme-linked immunosorbent assays (ELlSAs).
  • These serological tests are less reliable in
    confirming the eradication of the organism
    because of the slow reduction in antibody titers.
  • Faecal antigen testing Enzyme immunoassays can
    be used to detect the presence of H. pylori in
    stool specimens.

6
  • B) Gastrin production
  • Gastrin is a polypeptide released by gastric
    antrum and duodenum and is a potent stimulator of
    gastric acid production.
  • Its release is inhibited by low gastric pH , and
    its circulating levels are increased in patients
    with chronic hypochlorhydria.
  • So, plasma gastrin may be elevated in cases of
    decreased HCL production in the stomach such as
    due to gastritis, treatment with H2 antagonists,
    proton pump inhibitors, pernicious anemia or
    previous vagotomy.

7
  • The most important clinical application for the
    measurement of gastrin is in the investigation of
    patients with gastric acid hyper secretion
    thought to be caused by a gastrinoma
    (Zollinger-Ellison syndrome).

8
  • Zollinger-Ellison syndrome
  • This syndrome is due to a gastrinoma, that is,
    neoplasia may be due to either
  • a) pancreatic gastrin-producing cells (common)
  • b) gastric gastrin-producing cells
  • About 60 of gastrinomas are malignant and 30
    occur as part of the MEN syndrome type 1.
  • Increased gastrin production leads to chronic
    hypersecretion of gastric acid, which in turn
    causes peptic ulceration and sometimes diarrhea
    and fat malabsorption leading to steatorrhoea.

9
  • The steatorrhoea is believed to be due to
    inhibition of pancreatic lipase by the high H
    concentration in the intestinal lumen.
  • In some patients simple duodenal ulcer or
    diarrhea only may be the presenting feature.

10
  • The diagnosis of gastrinoma is based on the
    detection of elevated fasting plasma gastrin in
    association with high gastric acid secretion.
  • Patients should not be receiving proton pump
    inhibitors or H2 receptor blocker at the time of
    measurement.
  • Provocative testing may be necessary in about 15
    of patients where the basal plasma gastrin
    concentration is normal or only slightly
    increased and gastrinoma is suspected.
  • In this provocative test secretin is injected IV,
    which usually produces a 2-fold increase in
    plasma gastrin in patients with gastrinoma. while
    no change occurs in patients with G-cell
    hyperplasia

11
THE PANCREAS
12
  • Many factors can result in acute pancreatitis but
    most commonly gallstones or alcoholism is the
    major ones vascular and Infective causes have
    also been recognized.
  • Plasma amylase activity measurements is the test
    most commonly used for diagnosis of acute
    pancreatitis.
  • Plasma calcium may fall considerably in severe
    cases of acute pancreatitis, but sometimes not
    for a few days it probably falls as a result of
    the formation of insoluble calcium salts of fatty
    acids in areas of fat necrosis.

13
  • Amylase in plasma arises mainly from the pancreas
    and the salivary glands.
  • Plasma P-isoamylase activity is a more sensitive
    and more specific lest than total amylase for the
    detection of acute pancreatitis, but total plasma
    amylase activity is most often measured and is
    usually, but not always, greatly increased in
    acute pancreatitis.
  • Plasma amylase activities greater than 10 times
    the normal value are virtually diagnostic of
    acute pancreatitis.

14
  • Maximum values of more than five times the upper
    reference limit are found in about 50 of cases,
    but are not diagnostic of acute pancreatitis, as
    this high values sometimes may be encountered in
    mesenteric infarction and acute biliary tract
    disease, as well as in acute parotitis.
  • Smaller and more transient increases may occur
    in
  • - perforated peptic ulcer, or after Injection of
    morphine and other drugs that cause spasm of the
    sphincter of Oddi.
  • Plasma amylase activity usually returns to normal
    level within 3-5 days.

15
THE SMALL INTESTINE
16
  • In small intestinal disease, absorptive function
    may be diminished, and permeability is often
    increased.
  • There are biochemical tests that assess
    absorptive function and intestinal permeability,
    but endoscopy and biopsy has greatly reduced the
    need to perform such tests.
  • They may be used to monitor the response to
    therapy (e.g. the response of patients with
    celiac disease to a gluten- free diet)

17
  • A) Tests of carbohydrate absorption
  • 1- Xylose absorption test
  • D-Xylose, is rapidly absorbed from the small
    intestine and excreted in the urine little is
    metabolized in the liver.
  • Its concentration in blood or excretion in urine
    following a standard oral dose of xylose has been
    used to investigate the intestine's ability to
    absorb monosaccharide.
  • Impaired absorption and excretion of xylose
    occurs in patients with disease of the small
    intestine but low values may also be observed in
    patients who have bacterial colonization of the
    small intestine, since the bacteria may
    metabolize xylose.
  • Also, low urinary values occur in patients with
    renal disease, due to impaired excretion of
    xylose.

18
  • 2- Disacchartdase deficiency
  • Disaccharidase deficiency is most commonly
    presented as intolerance to one or more of the
    disaccharides - lactose, maltose or sucrose.
  • The defect may be congenital or acquired.
  • Disaccharidase activity can be measured in small
    intestinal mucosa biopsy specimens.
  • This is the most reliable way of specifically
    diagnosing small intestinal disaccharidase
    deficiency.

19
  • B) Tests for amino acid absorption
  • Certain specific disorders of amino acid
    transport affect both intestinal and renal
    epithelial transport.
  • In Hartnup disease, there is impaired transport
    of neutral amino acids, and deficiency of some
    essential amino acids (especially tryptophan) may
    occur.
  • In cystinuria , the dibasic amino acids (cystine,
    ornithine, arginine and lysine) are affected
    however, there is no associated nutritional
    defect, despite the fact that lysine is an
    essential amino acid.
  • These disorders are investigated by examining the
    pattern of amino acids excreted in the urine by
    chromatography.

20
  • C) Tests for fat absorption
  • Efficient digestion and absorption of fat
    requires both effective emulsification and
    solubilization of fats this function is done
    mainly by bile acids.
  • Cholic acid and chenodeoxycholic acid are the
    primary bile acids formed in the liver from
    cholesterol, conjugated with glycine and taurin
    and then excreted in bile.
  • Most are reabsorbed unchanged in the terminal
    ileum back to the liver where they are
    re-excreted in bile (enterohepatic circulation).

21
  • Approximately one-quarter of primary bile acids
    conjugates are deconjugated by intestinal
    bacteria but are subsequently reabsorbed and
    completely reconjugated in the liver.
  • The secondary bile acid deoxycholic acid, formed
    by bacterial action on cholic acid in the gut is
    also absorbed in the terminal ileum and
    conjugated with glycine or taurine in the liver
    prior to being excreted in bile.

22
  • Bile acids must be present in the upper small
    intestine in high concentrations sufficient to
    allow digestion of fat containing meal.
  • Fat malabsorbtion results from low intestinal
    bile acids and salts.
  • Fat-soluble vitamins (A, D, E and K) also are
    affected by the presence of bile acids and salts.
  • Malabsorption of fat-soluble vitamins, which is
    most commonly manifested as vitamin D deficiency
    occurs in conditions causing fat malabsorption.

23
  • Determination of fat absorption
  • Triglyceride (triolein) breath test
  • Following digestion and absorption of an oral
    dose of 14C-triolein (the marker is in the
    fatty acid component), part of the fatty acid is
    metabolized to 14CO2, which is then excreted in
    expired air.
  • A high 14CO2 excretion is associated with normal
    fat absorption, whereas 14CO2 excretion is low in
    patients with fat malabsorption.

24
ILEAL FUNCTION
25
  • Bile acid malabsorption can be detected by the
    measurement of the serum 7a-hydroxy-4-cholesten-3-
    one, an intermediate in the bile acid
    biosynthetic pathway, which is increased in the
    presence of increased bile acid turnover.
  • The test is not widely available at present, but
    it can replace the expensive 75Se-homotaurocholat
    e (75Se-HCAT) test in which the percentage
    retention of an oral dose of this synthetic
    gamma-emitting bile salt is estimated by whole
    body scanning, 7 days after its administration.

26
Carcinoid tumours and the carcinoid syndrome
27
  • They arise in the gut or in tissues derived from
    the embryological foregut (e.g. the bronchus or
    thyroid).
  • Ileum and the ileocaeccal region are the
    commonest sites.
  • The tumours produce vasoactive amines which,
    because of the venous drainage of the tumours,
    are usually carried directly to the liver and
    there inactivated.
  • Symptoms are only likely to occur either when the
    tumour has metastasized to the liver, or the
    tumour drains into the systemic circulation (e.g.
    bronchial adenoma of the carcinoid type).

28
  • Most carcinoid tumours secrete excessive amount
    of 5-hydroxytryptamine (5-HT serotonin), which
    is metabolized and excreted in urine as 5-hydroxy
    indole acetic acid (5-HIAA).
  • Atypical carcinoid tumours secrete excessive
    amounts of 5-hydroxytryptophan (5-HTP) and
    relatively little 5-HT they may secrete
    histamine.
  • Whereas only about 1 of dietary tryptophan is
    normally metabolized to 5-HTP, and 5-HIAA, in the
    carcinoid syndrome, as much as 60 of dietary
    tryptophan is metabolized along this
    hydroxyindole pathway.

29
  • The carcinoid syndrome is usually associated with
    tumours of the terminal ileum and extensive
    secondary deposits in the liver.
  • The main features include flushing attacks,
    abdominal colic and diarrhea, and dyspnoea,
    sometimes associated with asthmatic attacks.
  • Carcinoid tumours can give rise to severe
    hypoproteinaemia and edema, even in the absence
    of cardiac complications.

30
  • There may also be signs of niacin deficiency, due
    to major diversion of tryptophan metabolism away
    from pathway leading to niacin production.
  • Some carcinoid tumours produce ACTH or ACTH like
    peptides, and may cause Cushing's syndrome in the
    absence of the symptoms commonly associated with
    the carcinoid syndrome

31
  • Biochemical investigation of 5-HT metabolism
  • Measurement of 5-HIAA excretion in a 24 hour
    urine sample is the most widely performed
    investigation.
  • Bananas and tomatoes contain large amounts of
    5-HT they should not be eaten the day before or
    during the urine collection.
  • Timing of urine collection if attacks are
    frequent, the time of starting the collection is
    unimportant. If attacks are less often than
    daily, the patient should be instructed to wait
    and begin the collection when the next attack
    occurs.
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