Ultrasound

Question 1

rarefraction

Answer 1

low pressure and density

Question 2

compression

Answer 2

high pressure and density

Question 3

what is a wavelenght made up of

Answer 3

1 cycle = 1 compresion and 1 rarefraction

Question 4

frequency

Answer 4

1 cycle per second = 1Hz

Question 5

propagation

Answer 5

speed at which a wave moves through a medium
metres/second
in soft tissue - approx 1540 m/s

Question 6

equation for propogation

Answer 6

propogation = frequency x wavelength

Question 7

what does propgation depend on

Answer 7

density
stiffness

gases - lower propagation speed
solids - higher propagation speed

Question 8

why can you not constantly put sound wave into tissue

Answer 8

will cause tissue to heat up

Question 9

why does reflection occur

Answer 9

because of various densities and stiffness = impedence between tissues
similar impedance = weak echo
identical impedance = no echo
different impedance = stong echo

Question 10

what is the range equation

Answer 10

t = 2d/c

t = echo time 
d = distance to reflective 
c = speed of sound

Question 11

what is impedance

Answer 11

relates acoustic pressure and speed of particle vibration

Question 12

impedance calculation

Answer 12

impedance = density of medium x propagation speed w

Question 13

what is intenisty transmission coefficient T

Answer 13

the fraction of the sound which is transmitted

Question 14

what is intensity reflection coefficient R

Answer 14

the fraction of the sound intensity which is reflected

Question 15

how are the sound waves generated

Answer 15

the probe (transducer) converts electrical signal to sound waves and vice versa
uses piezoelectric crystals

Question 16

what material is used in ultrasound probes

Answer 16

man made ceramin material PLT

lead Zirconate titante

Question 17

how do piezoelectric crystals work

Answer 17

electrodes on opposites sides
dioples aligned obliqely
change in current create pressure changes around the crystals causing them to rotate to create compression and rarefraction

Question 18

what is a dipole

Answer 18

closely spaced pair of electric charges

Question 19

describe the process of the transmitter

Answer 19

electrical drive signal
apply an electrical field
crystals change in physical dimesions
generates an ossiciating acoustic pressure

Question 20

desribe the process of the reciever

Answer 20

osicilating acoustic pressure
change in physical dimesions of the crystal
generates an electrical field
electrical signal to display electrons

Question 21

connections in the transducer

Answer 21

coacial cables deliver voltage pulses which drive the crystals
two faces of the crystlas are coated with thin conducting films which contact the cable terminations
front electrode is earthed to prevent patient from electric shock

Question 22

what is the baking block

Answer 22

absorbs ultrasound from back face

limits crystal vibrations to allow short pulse duration

Question 23

what is the role of gel

Answer 23

elimates layer of air between patient and probe to prevent reflection
prevents an impedance mismatch

Question 24

requirements of an image test

Answer 24

define normal anantomy 
detect variations from normal 
charactise abnormaility 
stage of the disease 
guide interventions
monitor effects of treatment 
screening 
risk vs benefit

Question 25

requirements of an ultrasound

Answer 25

compact and portable
cheap
department based but can be moved
range of appliactions

Question 26

describe a low frequency curvilinar imaging probe

Answer 26

able to penetrate deep into the tissues of image internal organs, sector shaped image suitable for imaging large areas but still not enough to image whole organ such as liver
curved face

Question 27

describe a high frequency linear imaging probe

Answer 27

suitable for imaging surface structures only.
rectanglar shaped image so limited field of view
improves resolution but limits depth of penetration

Question 28

decribe a endo-cavaity/transaginal imaging probe

Answer 28

high frequency inserted into body cavity
close to area of interest so high fequency can improve resolution
invasive and uncomfortable

Question 29

doppler ultrasound

Answer 29

3 types
colourflow
power doppler
pulsed wave

Question 30

what does a colour flow detect

Answer 30

presence of flow
morphology of vasculature
identification of flow abnormalities, turbulance

Question 31

what does a pulsed wave detect

Answer 31

quatitive flow information, velocity, pulsatility index, resistance index etc