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Angiography

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Title: Angiography


1
Angiography
2
Outlines
  • Introduction
  • X-ray aniography
  • CT angiography
  • Ultrasound angiography
  • MR angiography
  • Neuclear angiography

3
Introductionwhat is angiography?
  • An imaging technique used to visualize the blood
    vessels

4
When to be used?
  • One of the reasons is to detect atherosclerotic
    (plaque) disease in a blood vessel

5
Angiography imaging system
  • Contrast agent
  • Catheter
  • Cathetarization lab

6
Outlines
  • Introduction
  • X-ray aniography
  • CT angiography
  • Ultrasound angiography
  • MR angiography
  • Neuclear angiography

7
X-ray angiography
8
How does it work?
  • Injecting contrast agent to blood stream
  • Acquiring high contrast images .
  • Excellent resolution (100 µm).
  • visualize blood vessels and organs of the body

9
X-ray angiography image
10
X-ray angiography image
11
Why is x-ray angiography done

12
Why x-ray angiography is done?
  • X-ray angiography is performed to specifically
    image and diagnose diseases of the blood vessels
    of the body, including the brain and heart.
  • Therapeutic Angiographic Procedures.

13
  • X-ray angiography is performed to specifically
    image and diagnose diseases of the blood vessels
    of the body, including the brain and heart.

14
  • X-ray angiography is performed to specifically
    image and diagnose diseases of the blood vessels
    of the body, including the brain and heart.
  • Therapeutic Angiographic Procedures.

15
Contrast Agent
  • Maximum contrast for minimum administrated dose.
  • iodine Based contrast agent
  • Iodine based contrast media are usually
    classified as ionic or non-ionic.

16
X-ray parameters
  • Diagnostic X-ray.
  • 15 150 kV, recti?ed AC
  • 50 400mA anode current
  • tungsten wire (200 µm) cathode, heated to
    2200?C
  • anode rotates at 3000 rpm

17
Techniques
  • For all structures except the heart, the images
    are usually taken using a technique called
    digital subtraction angiography (DSA).

18
Digital subtraction angiography
19
Complications
  • Major complications
  • Cardiac arrhythmias , kidney damage,
    hypotension and pericardial effusion.
  • Minor complications
  • Bleeding , blood vessel damage and allergic
    reaction to the contrast.

20
Outlines
  • Introduction
  • X-ray aniography
  • CT angiography
  • Ultrasound angiography
  • MR angiography
  • Neuclear angiography

21
Intravascular Ultrasound angiography(IVUS)
22
Ultrasound basics
  • Ultrasound is based mainly on pulse echo
    technique
  • To get the source of echo---gtd c(dt)/2 ,
    c1540m/s

23
IVUS introducing the problem
  • What's problem with typical angiography ?

24
IVUS Basic idea
  • IVUS is a tomographic imaging technique

25
IVUS image
  • What is expected to be seen?
  • 1-the adventitia
  • 2-the media
  • 3-the intima
  • 4-the lumen

26
System's hardware
  • Catheter
  • sizes range between 2.6-3.5 French (0.87-1.17 mm)
    compatible with a 6F guiding catheter
  • Pullback device
  • console

27
how image is acquired?
28
IVUS image,cont.
  • Image modes
  • Typical 2-D image

29
IVUS image,cont.
  • Image modes
  • L-Mode image

30
Image artifacts
  • calcium shadow

31
Image artifacts ,cont.
  • Coronary pulsation (motion artifact)

32
Benefits and limitations
  • Benefits
  • Cross sectional view
  • non ionizing radiation
  • No contrast agent is needed
  • Limitations
  • invasive
  • Resolution (gt150 um)
  • Catheter size

33
Outlines
  • Introduction
  • X-ray aniography
  • CT angiography
  • Ultrasound angiography
  • MR angiography
  • Neuclear angiography

34
Magnetic resonance angiography(MRA)
35
MRA categories
  • Its divided into 2 categories
  • 1- flow dependant MRA
  • 2-flow independent MRA

36
Flow dependant MRA
  • A- TOF MRA
  • B- PC MRA

37
TOF MRA pulse sequence
38
TOF MRA image
39
PC MRA
40
Flow Independant MRA
  • CE MRA
  • Contrast enhanced MRA uses gd chalate as contrast
    decreases makes its transverse magnetization
    small which we will increase repetition time

41
Flow independent MRA image
42
Outlines
  • Introduction
  • X-ray aniography
  • CT angiography
  • Ultrasound angiography
  • MR angiography
  • Neuclear angiography

43
Neuclear angiography
44
Introduction
  • A Nuclear angiography  is a time-proven nuclear
    medicine test designed to evaluate the function
    of the right and left ventricles of the heart,
    thus allowing informed diagnostic intervention
    in heart failure.
  • Nuclear angiography is typically ordered for the
    following patients
  • Known or suspected coronary artery disease, to
    diagnose the disease and predict outcomes
  • With lesions in their heart valves
  • With congestive heart failure
  • Who have had a cardiac transplant

45
Introduction,cont.
  • Nuclear angiography involves two techniques
  • First pass radionuclide angiography (FPRNA)
  • Gated blood-pool imaging (GBPI)
  • GBPI is more widely used than FPRNA because
    multiple projections are possible and because the
    effects of various interventions can be assessed.
    Also, most laboratories have a single-crystal
    Anger camera, which is better suited to GBPI.

46
First pass radionuclide angiography (FPRNA)
  • radionuclide technetium 99m pertechnetate is used
    in FPRNA because it remains in the intravascular
    and extracellular spaces.
  • The camera is appropriately positioned against
    the chest and a bolus of radionuclide injected
    rapidly into a vein.
  • The bolus passes freely through the right side of
    the heart, lungs, left atrium and left ventricle
  • The changes in radioactivity with passage of the
    bolus through the heart can be stored in a
    computer, which can then be instructed to display
    a time-activity curve of the particular section
    of the heart under study.
  • Analysis of these time activity or recirculation
    curves facilitates detection of both
    left-to-right and right-to-left shunts

47
First pass radionuclide angiography (FPRNA),cont.
  • With FPRNA, pulmonary transit times can be
    measured by recording the time between the
    appearance of the bolus of radionuclide in the
    right ventricle and its appearance in the left
    ventricle.
  • FPRNA can also be used to determine right-left
    stroke-count ratios and ventricular volumes at
    different stages of the cardiac cycle.
  • On first pass the highest resolution for
    assessing regional wall motion is obtained with a
    multi crystal camera, which has a high temporal
    but a poor spatial resolution

48
Gated blood-pool imaging
  • Patients are injected first with a tin
    preparation that adheres to the red blood cells
    and then with 99mTc, which labels those cells.
  • Gated studies can be performed in conjunction
    with, but following, FPRNA.
  • A high count rate permits high spatial
    resolution.
  • Separation of the images of the cardiac chambers
    depends critically on the position of the patient
    and the camera.
  • In GBPI, data collection is "gated" to the R wave
    of the electrocardiogram, and the time from one R
    wave to the next is divided into a series of
    intervals or frames.
  • The main use of GBPI is in the evaluation of many
    facets of coronary artery disease, such as the
    detection of myocardial ischemia with stress.

49
Gated blood-pool imaging,cont.
  • The assessment of biventricular performance
    during exercise is one of the more exciting uses
    of nuclear cardiology. It can be performed with
    the patient either upright or supine on a bicycle
    and is the first technique to allow continuous
    assessment of ventricular function while many
    different interventions are made.
  • The patient exercises for 3 minutes at increasing
    workloads the first minute allows for
    stabilization of the heart rate the next 2
    minutes allows for data collection.

50
Advantages and drawbacks of Nuclear Angiography
  • Radionuclide techniques are useful alternatives
    or complements to conventional and invasive
    investigations of the heart.
  • One advantage of measurements from FPRNA is an
    acceptably low intrinsic variability (5) for
    sequential long-term evaluation of patients with
    cardiac diseases.
  • evaluation of many facets of coronary artery
    disease, such as the detection of myocardial
    ischemia with stress.
  • A major limitation of GBPI is the need for an
    appropriate correction for background activity,
    which can be up to 50 of the activity from
    regions of the left ventricle.
  • Serial studies require repeated injections, which
    increase background activity and the patient's
    exposure to radiation, thus limiting the ability
    to use multiple projections or multiple
    physiologic or pharmacologic interventions.

51
Thanks for listening
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