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Department of Biophysics, Medical Faculty, Masaryk University in Brno
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Lectures on Medical Biophysics
X-ray Imaging (XRI) and CT
rontgen The original image of Roentgen's Wife's hand apr7xr1a hounsfield
Wilhelm Conrad Roentgen
1845 - 1923
Godfrey N. Hounsfield
1919  - 2004

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X-Ray Imaging
ØX-ray imaging (XRI) is still one of the most important diagnostic methods used in medicine. It
provides mainly morphological (anatomical) information - but may also provide some physiological
(functional) information.
ØIts physical basis is the different attenuation of X-rays in different body tissues.
Ø
ØWe have to keep in mind that X-rays may lead to serious health effects (e.g., cancer) for both
patients and healthcare professionals (HCP). Thus, strict legal radiation protection safety
measures exist to avoid any unnecessary harm to both patients and the HCP. We will deal with them
in a special lecture.

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Content of the Lecture
ØProjection XRI devices
ØImage formation
Ø
ØProjection X-ray devices for special purposes
ØCT
ØRadiation dose and health risk

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Projection XRI Devices
http://www.fnhk.cz/temp/paragraph_center_zoom_1188.jpg
http://www.hdtdental.cz/picture/large/280_intra.jpg
http://www.mephacentrum.cz/_data/section-1/bigs/78.jpg

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X-Ray Production – Low Power X-Ray Tube used in Dental Units
Scheme of an X-ray tube. K – hot filament cathode, W – tungsten plate.
Bez názvu5

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High-Power Rotating Anode Tube
Bez názvu6

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Production of X-rays
ØAn electron with an electric charge e (1.602·10-19 C) in an electrostatic field with potential
difference U (voltage, in this case it is the voltage across the anode and the cathode) has
potential energy Ep:
Ep = U·e
ØIn the moment just before impact of the electron onto the anode, its potential energy Ep is fully
transformed into its kinetic energy EK. Thus:
Ep = EK = U·e =  ½ m·v2
ØOn impact, the EK is transformed into x-ray photon energy (less than 1%) and heat energy (99%).
This heat can damage the tube.

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Photon Energy and Tube Voltage
ØIf ALL the kinetic energy of the accelerated electron is transformed into a SINGLE X-ray photon,
this photon will have energy:
E = h·f = U·e
ØThis is the maximum energy of the emitted photons. It is directly proportional to the voltage U
across the anode and cathode. h is the Planck constant.
Ø
ØHence if we want to increase the energy of the photons all we have to do is increase the voltage!
Ø
ØThe higher the energy of the photons the less they are attenuated by the body - the higher the
penetration. This is important when imaging thick body parts or fat patients!
,

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Photon Energy Histogram
E
x-rayspect
Number of photons with certain amount of energy

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Main Parts of the XRI Device
ØX-ray tube
ØVoltage-Current Generator:
-High Voltage Transformer – supplies high voltage (up to 150kV)
-Rectifier -  produces unidirectional tube electron current
-When increasing the magnitude of the electron beam current (by changing the cathode heating) the
photon fluence rate (i.e. number of photons per unit area per second) of the X-ray beam increases -
however the energy of individual photons does not.
-The energy of the individual photons can be increased by increasing the voltage between the anode
and cathode.
ØControl panel – today most parameters of the device (including voltage and current) are controlled
by means of a computer. It is located outside the examination room or behind a shield made of glass
containing lead (to protect the radiological assistant).
ØMain mechanical parts: tube stand, examination table, grid for removing scattered photons
(‘Bucky’),
ØX-ray detector: cassette with radiographic film and adjacent fluorescent screens (in radiography)
or image intensifier (both on the way out) or flat panel digital detector (in fluoroscopy or in
general).

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Passage of X-rays through Patient's Body
ØX-rays emitted from a small focal area of the anode propagate in all directions. In the tube
envelope, some low energy photons are absorbed. Further absorption of these photons occurs in the
primary filter, made of aluminium sheet. It absorbs low energy photons which would be absorbed by
surface tissues and do not contribute to the image formation (unnecessary patient dose). X-ray beam
is delimited by rectangular collimator plates made of lead.
ØThe rays then pass through the body where transmission or absorption or scattering may occur.
After that they pass through the grid, which is in front of the detector to remove scattered
photons as these would degrade the image.

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Image Formation
ØX-ray image is an analogy of a ‘shadow’ cast by a semitransparent and structured body illuminated
by light beam coming form an almost point source. The image is formed due to different attenuation
of the beam by the different body tissues and by projection of the structures on a film or an
electronic X-ray detector.
ØThe image can be visualised by means of
̶Radiographic film / screen and subsequent development
̶Digital plate and displaying image on a PC monitor
̶Image intensifier and digital CCD camera connected to a monitor

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Attenuation of Radiation
A beam of X-rays (any radiation) passes through a substance:
absorption + scattering = attenuation
A small decrease of radiation intensity -dI in a thin substance layer is proportional to its
thickness dx, intensity I  of radiation falling on the layer, and a specific constant m:
-dI = I.dx.m
After rewriting:
dI/I = -dx.m
After integration:
I = I0e-mx
I is intensity of radiation passed through the layer of thickness x, I0 is the intensity of
incoming radiation, m is linear coefficient of attenuation [m-1] depending on kind of radiation,
medium and its density.
The mass attenuation coefficient m/r does not depend on the density.
•
The symbol „d“ comes from differential calculus, we can imagine it as a very small change.

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Cassettes for Radiographic Films
FLUORESCENT screens reduce dose of radiation about 50-times

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Digital Imaging Plates
Matrix of amorphous silicon (aSi) photodiode light sensors
Large grid
Imaging plate consists of an array of very small sensors
Phosphorescent layer of CsI (necessary for patient dose reduction as aSi is not good absorber of
X-rays)
electronic signal
Detector_w120_h95 DigitalBucky_unit_w120_h95
„bucky“ – see slide 24

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Image Intensifier
ZESILOV
R – X-ray tube, P - patient, O1 – primary picture on a fluorescent screen, G – glass carrier, F –
fluorescent screen, FK - photocathode, FE – focussing electrodes (electron optics), A - anode, O2 –
secondary image on the anodic screen, V – video-camera. Individual parts are not proportionally
depicted.

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Different Ways how to Obtain DIGITAL Images (mammographic systems)
department7fig1
http://www.moffitt.org/moffittapps/ccj/v5n1/department7.html

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Blurring of the Image
No radiograph (an X-ray image) is absolutely sharp. Boundaries between tissues are depicted as a
gradual change of gray scale. This non-sharpness (blurring) has several reasons:
1)Movement blur – accidental, breathing, pulse waves, heart action etc. They can be reduced by
shorter exposure times with more intense X-ray radiation.
2)
2)Geometric blur is caused by finite focal area (focus is not a point). The rays fall on the
boundary of differently absorbing media under different angles – blurring of their contours appears
3)
3)The light emitted by fluorescent screens attached to the film or digital detector does not only
illuminate the corresponding part of the film or detector, but also spreads out to surrounding
areas.

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Geometric Blur (‘penumbra’)
Geometric penumbra can be reduced by:
-Choosing a small focal spot size (but it increases risk of damage to tube anode by heating)
- Decreasing the distance between the patient and the detector
- Increasing the distance between the X-ray tube and the patient
penumbra

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Interactions of X-ray Photons with Matter: ABSORPTION by Photoelectric Effect (PE)
ØPhoton disappears (‘is absorbed’) after hitting an atom and an electron is ejected from electron
shell of the atom (typically K-shell). Part of the photon energy h·f is necessary for ionisation.
Remaining part of the photon energy changes into kinetic energy (1/2m·v2) of the ejected electron.
The electron knocks electrons out of atoms of the body and produces ionization of these atoms. The
Einstein equation for photoelectric effect holds:
Ø
h·f = Eb + 1/2m·v2,
Eb is binding (ionisation) energy of the electron (called also work function).
Ø
ØThe probability for PE increases with proton number and decreases with increasing photon energy
(this is why lead is used for shielding and why higher energy beams are more penetrating).

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Photoelectric Effect
u3_18
Primary photon
Secondary electron

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Interactions of X-ray Photons with Matter: Compton Scatter (CS)
̶At higher energies of photons, the photon energy is not fully absorbed – a photon of lower energy
appears. The binding energy of the electron Eb is negligible in comparison with the photon energy.
We can write:
̶
h·f1 = (Eb) + h·f2 + 1/2m·v2,

̶where  f1 is frequency of incident photon and f2 is frequency of the scattered photon.
̶CS is more probable than PE for primary photon energies 0.5 - 5 MeV and does not depend on the the
proton number of interacting atom which explains why images at such energies would be practically
useless.

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Compton Scatter
U3_19
Primary photon
Secondary electron

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Principle of the Bucky Grid
pro-213b
•
http://www.cwm.co.kr/pro213.htm
The Bucky grid stops a substantial part of the scattered rays whilst allowing the useful photons to
pass through. However unfortunately grids also absorb part of the useful radiation. Hence a higher
amount of x-rays must be used to produce a good image – this increases the dose of radiation to the
patient. Hence for example grids are not used with thin children as the level of scatter is low
anyway.

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Use of the Contrast Agents
̶
ØThe soft tissues only slightly differ in their attenuation. Therefore they cannot be distinguished
in a common radiograph. That is the reason for the use of pharmaceuticals called contrast agents.
ØThe attenuation of certain tissues can be increased or lowered. Positive contrast is achieved by
substances having a high proton number as the probability of the photoelectric effect is increased.
A suspension of barium sulphate, “barium meal”, is used for imaging and functional examination of
GIT. In examinations of blood, biliary and urinary vessels etc. compounds with high content of
iodine are used.
ØHollow inner body organs can be visualised by negative contrast. Air or better CO2 can be used.
The cavities are filled by gas, inflated, so that they can be visualised as structures of very low
attenuation (pleural space, peritoneum, brain chambers in the past).

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Positive and Negative Contrast
ct215a1 ct199b2
Contrast image of the appendix – diverticulosis – combination with negative contrast
http://www.uhrad.com/ctarc/ct199b2.jpg
Horseshoe kidney – positive contrast – we can see renal pelvis, calyces and also urethers
http://www.uhrad.com/ctarc/ct215a2.jpg
k42
Pneumoencephalograph – negative contrast of brain chambers – history of medicine
http://anatomy.ym.edu.tw/Nevac/class/neuroanatomy/slide/k42.jpg

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Devices for Special Uses - Examples
ØDental X-ray devices
ØMammographic devices
ØAngiography (image subtraction systems, formerly image intensifier based; now increasingly digital
detector based)
Ø

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X-ray Devices in Dentistry
9000 control photo standard pan film 7651m.jpg (126516 bytes)
http://www.gendexxray.com/765dc.htm
Panoramic screening – orthopantomograpy
very useful in e.g. orthodontics
  http://www.gendexxray.com/orthoralix-9000.htm
3leftbott
X-ray image of a dental implant
[USEMAP]

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Mammography
Image:Mammogram.jpg
Mammography is the process of using low-dose X-rays (usually around 0.7 mSv) to examine the female
breast. It is used to look for different types of tumours and cysts.  In some countries routine
(annual to five-yearly) mammography of older women is encouraged as a screening method to diagnose
early breast cancer. It is normal to use low energy (soft) X-rays (molybdenum anode).

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Digital Subtraction Angiography
ia_dsa
http://zoot.radiology.wisc.edu/~block/Med_Gallery/ia_dsa.html
polystar

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Computerised Tomography - CT
ØThe first patient was examined by this method in London, 1971.
ØThe apparatus was invented by English physicist Hounsfield, (together with American Cormack, Nobel
award for medicine, 1979)
CT scannner and X-ray table. From http://www.picker.com

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Principle of CT
ØPrinciple: The CT scanner is a complex instrument for measuring the X-rays attenuation in
individual voxels (volume analogies of pixels) in narrow slices of tissues.
ØMethod of measurement: A narrow fan-beam of X-rays is passed through the body and the merging
radiation measured by an arc of detectors. This is repeated at different angles till enough
information is available to be able to calculate the attenuation coefficient in the patient voxels.
A „map“ of attenuation is calculated – a tomogram.

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Examples of CT Scans
Metastatic lesions in brain
http://www.mc.vanderbilt.edu/vumcdept/emergency/mayxr3.html
apr7xr1a
Extensive subcapsular haematoma of spleen in patient after car accident
http://www.mc.vanderbilt.edu/vumcdept/emergency/apr7xr1a.html
http://www.scielo.org.za/img/revistas/saoj/v13n2/02f02.jpg

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Advantages of CT over Projection XRI
ØMuch higher contrast than projection XRI - 0.5% difference in attenuation can be resolved because:
̶Almost total elimination of effects of scatter
̶X-ray measurements are taken from many angles

ØThus, we can see and examine different soft tissues.
Ø
ØNo overlapping of anatomical structures
Ø
ØLess distortion as measurements are taken from many angles

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Four Generations of CT
CT
1. Generation
2. Generation
3. Generation
4. Generation

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spiralCT2-eng
Principle of Spiral (3D) CT
              X-ray tube and detectors revolve around the shifting patient

Multislice CT and Cone beam CT
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https://miac.unibas.ch/BIA/08-Xray-media/figs/multislice_CT.png
Fast 3D reconstruction is possible
https://carestreamdentalblogdotcom1.files.wordpress.com/2014/02/ct-vs-cbct-graphic.jpg

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Hounsfield (CT) Units
In order to simplify calculations we use Hounsfield Scale units (HU) for amount of attenuation.
On this simplified scale water is 0 HU, air is -1000 HU, compact bone is about +1000 HU.
A scale of 2000 HU is available for CT examination of body tissues. In most cases, it is senseless
to attribute them to all of the grey scale levels (our eye is able to distinguish only about 250
levels of grey). Most of the soft tissue HU values range from 0 to +100. Thus we use only limited
„diagnostic window“ of these units in practice, e.g. from -100 to +100.
HU =
W – water
T – tissue
k = 1000

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„Diagnostic Window“ of HU

                                                                      <>
http://www.teaching-biomed.man.ac.uk/student_projects/2000/mmmr7gjw/technique8.htm
CTokno-english

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3D CT - Color Coding
Výsledek obrázku pro 3D CT gif
https://www.carestream.com/en/us/medical/products/carestream-onsight-3d-extremity-system

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Some Typical Doses
ØFrom natural sources: 2 mSv per year
Ø
ØChest X-ray: <1 mSv
Ø
ØFluoroscopy:  5 mSv
Ø
ØCT Scan:  10 mSv
Ø
ØMedical doses are increasing with ‘better be safe than sorry’ medicine and the ease of use of
modern imaging devices (e.g., spiral CT compared to conventional CT).

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Appendix: Dental Radiography Devices


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better digdentalintraoralccds
Direct Digital Dental Radiography
CDR2
Sensor consists of photodiode matrix covered with a scintillator layer. Wireless sensors now
available (using bluetooth or wifi).

Bluetooth and Wi-Fi are both wireless networking standards that provide connectivity via radio
waves. The main difference: Bluetooth's primary use is to replace local cables, while Wi-Fi is
largely used to provide wireless, high-speed access to the Internet or a local area network. First
developed in 1994, Bluetooth is a low-power, short-range (30 feet) networking specification with
moderately fast transmission speeds of 800 kilobits per second. Bluetooth provides a wireless,
point-to-point, "personal area network" for PDAs, notebooks, printers, mobile phones, audio
components, and other devices. The wireless technology can be used anywhere you have two or more
devices that are Bluetooth enabled. For example, you could send files from a notebook to a printer
without having to physically connect the two devices with a cable.

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Intra-Oral Image

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opgunitinuse opgdigital
Orthopantomographic (OPG) Unit

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Orthopantomographic (OPG) Image
opgimage
You can see the so-called braces here. Used in orthodontics.

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Extraoral Cephalometric Image
cephalometric X-ray cephattachment
Important for assessment of e.g. cranium development and before some orofacial surgery!

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Radiation Protection Considerations
̶Low individual dose but high collective dose technique, particularly since many young patients
̶Protect eye and thyroid (sometimes latter close to or exposed to direct beam)
̶As the dose, and therefore the risk to the developing fetus is so low there is no contraindication
to radiography of women who are or may be pregnant providing that it is clinically justified. Very
Good reference is:
̶RP136 European guidelines on radiation protection in dental radiology - The safe use of
radiographs in dental practice. 2004. EU publication.
̶

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Dose Optimisation for Intraoral
̶Devices
̶Constant power (CP) generator
̶filter: 1.5mm Al up to 70kV to reduce skin dose
̶Rectangular collimator recommended (if round-end collimator used, beam diameter <60mm at patient
end of cone)
̶Digital devices need lower dose than film
̶Protocol
̶use 60kV with CP generator
̶minimum SSD 200mm (cone should ensure this)
̶There is no need to use a lead protective apron (to protect gonads, except in rare cases) even in
cases of pregnant patients. However in the case of pregnant patients, the use of a lead apron
continues to be used in some states as it may reassure the patient
̶Some have suggested using thyroid collar for young patients (in CZ they use it even for adults)

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Converting Round Collimators to Rectangular
RINN Logo
The UK’s Ionising Radiation (Medical Exposure) Regulations 2000 recommend the use of rectangular
collimation to limit the radiation dose a patient receives during routine dental X-rays. DENTSPLY’s
Rinn Universal Collimator just clips onto any round-headed long-cone X-ray unit, converting it from
round to the recommended rectangular collimation, in one easy step.

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Dose Optimisation in OPG
̶Devices:
̶CP (constant power) generators
̶Automatic exposure control
̶Dead-man type switch
̶Protocol:
̶Proper patient positioning and immobilisation to avoid repeats (e.g., in case of OPG chin rests on
plastic support, head held by plastic earpieces, head surrounded by plastic guard)
̶Limit field size to area of interest
̶Thyroid collar inappropriate as it interferes with the beam in the case of OPG (note however often
necessary in the case of cephalometry)
̶
̶

Authors:
Vojtěch Mornstein, Carmel J. Caruana
Content collaboration:
Ivo Hrazdira
Presentation design:
Lucie Mornsteinová
Last revision September 2021, soundtrack added September 2020
pro-213b k42 ia_dsa ct199b2