Dialysis machine - PowerPoint PPT Presentation

1 / 17
About This Presentation
Title:

Dialysis machine

Description:

Dialysis machine What is dialysis machine Dialysis machine is a electro-mechanical-hydraulics device which helps us to remove the unwanted particles (Eg.- – PowerPoint PPT presentation

Number of Views:4382
Avg rating:3.0/5.0
Slides: 18
Provided by: kims159
Category:
Tags: dialysis | machine

less

Transcript and Presenter's Notes

Title: Dialysis machine


1
Dialysis machine
2
What is dialysis machine
  • Dialysis machine is a electro-mechanical-hydrauli
    cs device which helps us to remove the unwanted
    particles (Eg.- K, Na, CL-, Calcium, Magnesium
    etc.) from the patients blood through hollow
    fiber artificial dialyzer.

3
Principle of dialysis
  • Dialysis works on the principles of the diffusion
    and osmosis of solutes and fluid across a
    semi-permeable membrane. Blood flows by one side
    of a semi-permeable membrane, and a dialysate or
    fluid flows by the opposite side. Smaller solutes
    and fluid pass through the membrane. The blood
    flows in one direction and the dialysate flows in
    the opposite. The concentrations of undesired
    solutes (for example potassium, calcium, and
    urea) are high in the blood, but low or absent in
    the dialysis solution and constant replacement of
    the dialysate ensures that the concentration of
    undesired solutes is kept low on this side of the
    membrane. The dialysis solution has levels of
    minerals like potassium and calcium that are
    similar to their natural concentration in healthy
    blood. For another solute, bicarbonate, dialysis
    solution level is set at a slightly higher level
    than in normal blood, to encourage diffusion of
    bicarbonate into the blood, to neutralise the
    metabolic acidosis that is often present in these
    patients.

4
Types of dialysis
  • Hem filtration
  • Peritoneal dialysis
  • Hemo-dialysis

5
Hem filtration
  • Hemofiltration is a similar treatment to
    hemodialysis, but it makes use of a different
    principle. The blood is pumped through a dialyzer
    or "hemofilter" as in dialysis, but no dialysate
    is used. A pressure gradient is applied as a
    result, water moves across the very permeable
    membrane rapidly, facilitating the transport of
    dissolved substances, importantly ones with large
    molecular weights, which are cleared less well by
    hemodialysis. Salts and water lost from the blood
    during this process are replaced with a
    "substitution fluid" that is infused into the
    extracorporeal circuit during the treatment.
    Hemodiafiltration is a term used to describe
    several methods of combining hemodialysis and
    hemofiltration in one process.

6
Peritoneal dialysis
7
Working principle of peritoneal dialysis
  • In peritoneal dialysis, a sterile solution
    containing minerals and glucose is run through a
    tube into the peritoneal cavity, the abdominal
    body cavity around the intestine, where the
    peritoneal membrane acts as a semipermeable
    membrane. The dialysate is left there for a
    period of time to absorb waste products, and then
    it is drained out through the tube and discarded.
    This cycle or "exchange" is normally repeated 4-5
    times during the day,
  • (sometimes more often overnight with an automated
    system). Ultrafiltration occurs via osmosis the
    dialysis solution used contains a high
    concentration of glucose, and the resulting
    osmotic pressure causes fluid to move from the
    blood into the dialysate. As a result, more fluid
    is drained than was instilled. Peritoneal
    dialysis is less efficient than hemodialysis, but
    because it is carried out for a longer period of
    time the net effect in terms of removal of waste
    products and of salt and water are similar to
    hemodialysis. Peritoneal dialysis is carried out
    at home by the patient and it requires
    motivation. Although support is helpful, it is
    not essential. It does free patients from the
    routine of having to go to a dialysis clinic on a
    fixed schedule multiple times per week, and it
    can be done while travelling with a minimum of
    specialized equipment.

8
Hemodialysis
9
Principle of hemodialysis
  • In hemodialysis, the patient's blood is pumped
    through the blood compartment of a dialyzer,
    exposing it to a semipermeable membrane. The
    cleansed blood is then returned via the circuit
    back to the body. Ultrafiltration occurs by
    increasing the hydrostatic pressure across the
    dialyzer membrane. This usually is done by
    applying a negative pressure to the dialysate
    compartment of the dialyzer. This pressure
    gradient causes water and dissolved solutes to
    move from blood to dialysate, and allows removal
    of several litres of excess fluid during a
    typical 3 to 5 hour treatment. In the US,
    hemodialysis treatments are typically given in a
    dialysis center three times per week

10
How to know dialysis is required
  • The decision to initiate dialysis or
    hemofiltration in patients with renal failure can
    depend on several factors, which can be divided
    into acute or chronic indications.
  • Acute indications for dialysis/hemofiltration
  • Hyperkalemia
  • Metabolic acidosis
  • Fluid overload (which usually manifests as
    pulmonary edema)
  • Uremic Serositis complications, such as uremic
    pericarditis and uremic encephalopathy
  • And in patients without renal failure, acute
    poisoning with a dialysable drug, such as
    lithium, or aspirin
  • Chronic indications for dialysis
  • Symptomatic renal failure
  • Low glomerular filtration rate (GFR) (RRT often
    recommended to commence at a GFR of less than
    10-15 mls/min/1.73m2)

11
What is AV fistula
12
Phenomenon of AV fistula
  • AV (arteriovenous) fistulas are recognized as the
    preferred access method. To create a fistula, a
    vascular surgeon joins an artery and a vein
    together through anastomosis. Since this bypasses
    the capillaries, blood flows rapidly through the
    fistula. One can feel this by placing one's
    finger over a mature fistula. This is called
    feeling for "thrill" and produces a distinct
    'buzzing' feeling over the fistula. Fistulas are
    usually created in the nondominant arm and may be
    situated on the hand (the 'snuffbox' fistula'),
    the forearm (usually a radiocephalic fistula, or
    so-called Brescia-Cimino fistula, in which the
    radial artery is anastomosed to the cephalic
    vein), or the elbow (usually a brachiocephalic
    fistula, where the brachial artery is anastomosed
    to the cephalic vein). A fistula will take a
    number of weeks to mature, on average perhaps 4-6
    weeks. During treatment, two needles are inserted
    into the fistula, one to draw blood and one to
    return it.

13
AV GRAFT
14
What is dialyzer
15
Principle of dialyzer
  • The dialyzer is the piece of equipment that
    actually filters the blood. Almost all dialyzers
    in use today are of the hollow-fiber variety. A
    cylindrical bundle of hollow fibers, whose walls
    are composed of semi-permeable membrane, is
    anchored at each end into potting compound (a
    sort of glue). This assembly is then put into a
    clear plastic cylindrical shell with four
    openings. One opening or blood port at each end
    of the cylinder communicates with each end of the
    bundle of hollow fibers. This forms the "blood
    compartment" of the dialyzer. Two other ports are
    cut into the side of the cylinder. These
    communicate with the space around the hollow
    fibers, the "dialysate compartment." Blood is
    pumped via the blood ports through this bundle of
    very thin capillary-like tubes, and the dialysate
    is pumped through the space surrounding the
    fibers. Pressure gradients are applied when
    necessary to move fluid from the blood to the
    dialysate

16
Block diagram of dialysis
17
Basic function of dialysis
  • The hemodialysis machine pumps the patient's
    blood and the dialysate through the dialyzer. The
    newest dialysis machines on the market are highly
    computerized and continuously monitor an array of
    safety-critical parameters, including blood and
    dialysate flow rates dialysis solution
    conductivity, temperature, and pH and analysis
    of the dialysate for evidence of blood leakage or
    presence of air. Any reading that is out of
    normal range triggers an audible alarm to alert
    the patient-care technician who is monitoring the
    patient. Manufacturers of dialysis machines
    include companies such as Fresenius, Gambro,
    Baxter, B. Braun, and Bellco.
Write a Comment
User Comments (0)
About PowerShow.com