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ASCITIS

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The word ascites is of Greek origin (askos) and means bag or sac. ... the pelvis, fluid accumulates in the rectovesical pouch and then spills into the ... – PowerPoint PPT presentation

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Title: ASCITIS


1
ASCITIS
  • PRESENTED BY
  • DR.SUJAPILLAI
  • II MD
    REPERTORY
  • GHMC CALICUT

2
DEFINITION
  • The word ascites is of Greek origin (askos) and
    means bag or sac.
  • Ascites (also known as peritoneal cavity fluid,
    peritoneal fluid excess, hydroperitoneum or more
    archaically as abdominal dropsy) is an
    accumulation of fluid in the peritoneal cavity.

3
  • Healthy men have little or no intraperitoneal
    fluid, but women may normally have as much as 20
    mL, depending on the phase of their menstrual
    cycle.

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5
CLASSIFICATION
  • Grade 1 mild, only visible on ultrasound
  • Grade 2 detectable with flank bulging and
    shifting dullness
  • Grade 3 directly visible, confirmed with fluid
    thrill.

6
PATHOPHYSIOLOGY
  • The accumulation of ascitic fluid represents a
    state of total-body sodium and water excess, but
    the event that initiates the unbalance is
    unclear.
  • Three theories of ascites formation have been
    proposed underfilling, overflow, and peripheral
    arterial vasodilation.

7
  • The underfilling theory suggests that the primary
    abnormality is inappropriate sequestration of
    fluid within the splanchnic vascular bed due to
    portal hypertension and a consequent decrease in
    effective circulating blood volume.
  • This activates the plasma renin, aldosterone, and
    sympathetic nervous system, resulting in renal
    sodium and water retention

8
  • The overflow theory suggests that the primary
    abnormality is inappropriate renal retention of
    sodium and water in the absence of volume
    depletion.
  • This theory was developed in accordance with the
    observation that patients with cirrhosis have
    intravascular hypervolemia rather than
    hypovolemia.

9
  • The most recent theory, the peripheral arterial
    vasodilation hypothesis, includes components of
    both of the other theories.
  • It suggests that portal hypertension leads to
    vasodilation, which causes decreased effective
    arterial blood volume.
  • As the natural history of the disease progresses,
    neurohumoral excitation increases, more renal
    sodium is retained, and plasma volume expands.
  • This leads to overflow of fluid into the
    peritoneal cavity.
  • The vasodilation theory proposes that
    underfilling is operative early and overflow is
    operative late in the natural history of
    cirrhosis.

10
  • Ascitic fluid can accumulate as a transudate or
    an exudate. Amounts of up to 25 liters are
    possible.
  • Roughly, transudates are a result of increased
    pressure in the portal vein (gt8 mmHg, usually
    around 20 mmHg e.g. due to cirrhosis
  • Transudates have low protein (lt30g/L), low LDH,
    high pH, normal glucose, and fewer than 1 white
    cell per 1000 mm³.
  • while exudates are actively secreted fluid due to
    inflammation or malignancy.
  • As a result, exudates are high in protein, high
    in lactate dehydrogenase, have a low pH (lt7.30),
    a low glucose level, and more white blood cells.

11
Etiology based upon serum - ascites albumin
gradient.
  • High albumin gradient(gt1.1 g/dl)
  • Cirrhosis
  • Alcoholic hepatitis
  • Cardiac ascites
  • Massive liverMetastases
  • Fulminant hepatic failure
  • Hepatic vein thrombosis (Budd-Chiari syndrome)
  • Portal vein thrombosis
  • Veno-occlusive disease
  • Acute fatty liver of pregnancy
  • Myxedema
  • Low albumin gradient(lt1.1 g/dl).
  • Peritoneal carcinomatosis
  • Tuberculosis
  • Biliary ascites without cirrhosis
  • Nephrotic syndromeAscites associated with
    connective tissue disease
  • Ascites associated with bowel ischemia/infarction.

12
SYMPTOMS
  • Mild ascites is hard to notice, but severe
    ascites leads to abdominal distension.
  • Patients with ascites generally will complain of
    progressive abdominal heaviness and pressure as
    well as shortness of breath due to mechanical
    impingement on the diaphragm.

13
  • Other signs of ascites may be present due to its
    underlying etiology, in portal hypertension ( due
    to cirrhosis or fibrosis of the liver) patients
    may also complain of leg swelling, bruising,
    gynecomastia, hematemesis, or mental changes due
    to encephalopathy.
  • Those with ascites due to cancer (peritoneal
    carcinomatosis) may complain of chronic fatigue
    or weight loss.
  • Those with ascites due to heart failure may also
    complain of shortness of breath as well as
    wheezing and exercise intolerance

14
EXAMINATION
  • Look at the patient, both lying down and standing
    up. The shape of the abdomen often suggests
    fluid. On lying down, the flanks are full but on
    standing the fluid accumulates in the lower
    abdomen.

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17
SIGNS
  • Ascites is detected on physical examination of
    the abdomen by visible bulging of the flanks in
    the reclining patient ("flank bulging")
  • "shifting dullness" (difference in percussion
    note in the flanks that shifts when the patient
    is turned on the side)
  • "fluid thrill" or "fluid wave" (tapping or
    pushing on one side will generate a wave-like
    effect through the fluid that can be felt in the
    opposite side of the abdomen)

18
  • The liver may be difficult to palpate if a large
    amount of ascites is present, but if palpable,
    the liver is often found to be enlarged.
  • Elevated jugular venous pressure may suggest a
    cardiac origin of ascites.
  • A firm nodule in the umbilicus, the so-called
    Sister Mary Joseph nodule, is not common but
    suggests peritoneal carcinomatosis originating
    from gastric, pancreatic, or hepatic primary
    malignancy.
  • A pathologic left-sided supraclavicular node
    (Virchow node) suggests the presence of upper
    abdominal malignancy.
  • Patients with cardiac disease or nephrotic
    syndrome may have anasarca.

19
INVESTIGATIONS
  • LABORATORY STUDIES
  • In patients with new-onset ascites of unknown
    origin, peritoneal fluid should be sent for cell
    count, albumin level, culture, total protein,
    Gram stain, and cytology.

20
  • CHEST AND PLAIN ABDOMINAL X-RAY
  • . In 80 of patients with ascites, the lateral
    liver edge is medially displaced from the
    thoracoabdominal wall (Hellmer sign).
  • . In the pelvis, fluid accumulates in the
    rectovesical pouch and then spills into the
    paravesical fossa. The fluid produces symmetric
    densities on both sides of the bladder, which is
    termed a "dog's ear" or "Mickey Mouse"
    appearance.

21
  • Ultrasonography
  • Real-time ultrasonography is the easiest and
    most sensitive technique for the detection of
    ascitic fluid. Volumes as small as 5-10 mL can
    routinely be visualized.

22
  • Computed tomography (CT) scanning
  • Ascites is demonstrated well on CT scan images.

23
Other Tests
  • Laparoscopy may be valuable for the diagnosis
    of otherwise unexplained cases, especially if
    malignant ascites is suspected.

24
  • Abdominal paracentesis
  • Abdominal paracentesis is the most rapid and
    perhaps the most cost-effective method of
    diagnosing the cause of ascites formation.

25
Differential Diagnosis
  • The obese patient with a lax anterior abdominal
    wall may have a protuberant umbilicus (everted
    umbilicus sign)
  • Metastases to the liver - in this case the firm
    liver holds the abdomen outward.
  • Gaseous distention due to bowel obstruction
  • Large pelvic mass
  • Massive hepatosplenomegaly as in
    lympho-proliferative conditions.

26
  • Abdominal distention from the above causes can
    usually be distinguished from ascites by
    examination and percussion of the flanks.
  • In ascites, the fluid falls into the lateral and
    lower peritoneal spaces when the patient is
    supine, giving bulging flanks and flank dullness.
  • The absence of flank dullness on careful
    examination of a patient with abdominal
    distention excludes ascites with 90 accuracy.

27
MANAGEMENT
  • Salt restriction
  • Salt restriction is the initial treatment, which
    allows diuresis (production of urine) since the
    patient now has more fluid than salt
    concentration. Salt restriction is effective in
    about 15 of patients. A no added salt diet
    restricted to lt90 mmol/day (5.2 g of salt/day) is
    useful, especially in cirrhosis but is unlikely
    to be effective in other aetiologies such as
    malignancy

28
  • Diuretics
  • Monitoring diuresis Diuresis can be monitored by
    weighing the patient daily. The goal is weight
    loss of no more than 1.0 kg/day for patients with
    both ascites and peripheral edema and no more
    than 0.5 kg/day for patients with ascites
    alone.If daily weights cannot be obtained,
    diuretics can also be guided by the urinary
    sodium concentration.

29
  • Serum sodium 126-135 mmol/l with normal serum
    creatinine continue diuretics but watch
    electrolytes regularly (do not fluid restrict).
  • Serum sodium 121-125 mmol/l with normal serum
    creatinine stop diuretics or continue diuretics
    cautiously at lower dose and watch electrolytes
    frequently.
  • Serum sodium 121-125 mmol/l with elevated serum
    creatinine (gt150µmmol/l or gt120 µmmol/l and
    rising) stop diuretics and give volume
    expansion.

30
  • Only fluid restrict patients who are not
    dehydrated, not receiving diuretics and in whom
    creatinine is normal.

31
  • Avoiding alcohol is important in pancreatitis and
    cirrhosis of any aetiology, not just alcoholic.

32
  • Bed rest is not recommended for uncomplicated
    ascites. Theoretically, the upright position in
    those with ascites will aggravate
    renin-angiotensin-aldosterone/sympathetic nervous
    system activation, reducing glomerular filtration
    rate and sodium excretion and response to
    diuretics.
  • Bed rest leads to muscle atrophy and other
    complications and may have the paradoxical
    opposite effect, actually extending stays in
    hospital.

33
Therapeutic paracentesis
  • Patients with large ascites generally benefit
    from therapeutic paracentesis.
  • This needs to be a sterile procedure.
  • Paracentesis of lt5 litres of uncomplicated
    ascites should be followed by plasma expansion
    with synthetic plasma expander i.e. 150-200 ml of
    gelofusine or haemacce.
  • Larger volume paracenteses should be be followed
    by volume expansion, using 8 g albumin per litre
    of ascitic fluid removed.

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35
SURGICAL MANAGEMENT
  • Surgical treatment may be required for malignancy
    and some patients may be suitable for liver
    transplantation.
  • Transjugular intrahepatic portosystemic shunt
    (TIPS) can be used in patients with refractory
    ascites needing frequent paracentesis (gt3/month).

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37
PROGNOSIS
  • Ambulatory patients with an episode of cirrhotic
    ascites have a 3-year mortality rate of 50.
  • The development of refractory ascites carries a
    poor prognosis, with a 1-year survival rate of
    less than 50.
  • Whilst therapeutic paracentesis and TIPS are not
    thought to improve long term survival without
    transplantation significantly for most patients
    with cirrhosis.
  • In malignancy ascites tends to suggest widespread
    disease and a poor prognosis.

38
REFERENCES
  • Harrisons Textbook of Medicine.
  • Hutchisons Clinical Methods.
  • Davidsons Textbook of Medicine.
  • www.emedicine.com
  • www.mdlinx.com

39
THANK YOU
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