Name the process by which Kv X-ray photons are produced
Bremstrahlung
Give a brief description of the bremstrahlung process, mentioning an important property of the target material used in the process
Electrons are decelerated in the influence of the coulomb field of the nucleus. Breaking radiation. The electron loses energy and this is transferred to the photon. The target has a high Z value.
Charged and uncharged particles interact in different ways with tissue: mention 3 important general characteristics of each particle type
Uncharged particles (photons and neutrons) rarely interact with matter. They display exponential attenuation: a fraction of the incident particles interact with the material, being traversed and lost from the beam.
During interactions, charged particles are set in motion (electrons), which themselves cause ionization.
Charget particles undergo many interactions with matter. The continuously lose small amounts of energy at each interaction. They have a well-defined range, which no particles can travel beyond.
What reference is used to measure beam quality at ortho voltage energies? Name two materials used to do this
Half Value Layer (thickness) HVL - aluminium and copper used.
Explain why the attenuation factor of any pair of detectors in PET scanner is independant of the position of the source along the line joining the detectors.
The total attenuation factor for the line of response is given by AF1 x AF2. e(^-ux)x e^u(a-x) = e(-ua).
i.e. if the annihilation event takes place towards one side of the obect. The distance x between it and the closest surface is not relevent to the total attenuation for that line of response.
Describe the process by which a CT scan can be used to correct for the effect of attenuation in a PET image.
A CT scan acquired just before or after PET scan. CT is a map of density and therefore attenuation within a patient.
Bi-linear scaling is applied to the CT pixel values to account for the energy dependance of the attenuation (CT photons vs 511keV photons) to give an attenuation map which is incorperated into the PET reconstruction.
What causes the partial volume effect in a PET image? In what way does this effect the image
PVE, is caused by the finite spatial resolution of the scanner. It causes blurring that results in a reduction in apparent activities from hot objects that are smaller than twoce the spatial resolution of the image
IN MRI where do you experience the largest
1. translational force
2. Torque
- Edge of the bore. The product of the field strength and spatial gradient is greatest.
- In the centre of the bore, where field strength is greatest.
Why and in what circumstances might the control of noise at work regulations 2005 be of interest to a MRI physicist?
Gradient coils of MRI vibrate due to Lorentz forces and so generate a loud noise. If staff are inside the room during imaging they will be experienced to a noise loud enough to exceed the aloud threshold.
These activities would require a ris assessment and staff would be advised to wear hearing protection.
MR safety.
1. what are current loops?
2. Why do they present a hazard?
3. How do you minimise them from ocurring?
- RF field generate a loop of current in the body.
- Low magnitude currents - can receive burns to two parts of the body
- When the patient is being positioned on the scanner, avoid points of contact by using foam pads to seperate areas of the body from touching themselves or the scanner bore.
Name the different weighting factors required to convert absorbed dose into effective dose
Radiation weighting factor (Wr) and tissue weighting factor (Wt).
Describe 3 different possible outcomes after a cell is exposed to radiation. What type of damage does each outcome cause?
- No damage / cell repaird
- Cell death - Fatally damaged and cannot repair
- Mutation - Partially damaged, mutation occurs which may lead to cancer.
Cell death leads to deterministic effects e.g. skin erythema, wheras mutations can lead to stochastic effect e.g. cancer
Define lifetime additional risk of harm following a radiation exposure and state how this changes with age. and why?
Lifetime additional risk takes into account fatal and non-fatal cancers and heritable effects, and is weighted by life and lost severity. Lifetime additional risk is highest in children and decreases with age. This is because children’s cells are dividing more/more quickly, and because children are most likely to live long enough to survive the latency period for effects to take place.
What is the current average risk of lifetime additional harm ?
5% per Sv.
Why is it beneficial for an X-ray beam to be filtered?
Filtered means hardened because the lower energy X-rays have been removed. These energies would otherwise be absorbed by the patient therefore not contributing to the image but contributing heavily to the absorbed dose.
HVL is measure to be 1cm. QVL is to be done which is it likely to be
1. 2cm
2. <2cm
3. >2cm
> 2cm. HVL filtration hardens the beam increasing the average energy. therefore a greater thickness would be required to reduce beam intensity by another 50%.
Describe the process of annihilation
- Proton-rich nucleus in the radiopharmaceutical decays and emits a positron
- Positron travels a short distance
- Positron annihilates with an electron and two collinear 51kEv photons are emitted.
- Gamma photons exit the body with an electron and are detected in the PET ring.
Explain 3 physical processes that affect spatial resolution on a PET scanner.
- Positron range
- Acollinearity of the annihilation gammas
- Physical dimensions of the detector ring
How will TOF info improve SNR for PET
TOF is where the small difference in arrival time of collinear photons is measured. This helps to provide information about the distance each annihilation photon travelled to reach their responective detectors.
This helps to localise where along the line of response the event took place, thus reducing noise.
What property of PET crystals is essential for TOF imaging
Good temporal resolution / short decay time.
To what extent will the affects associated with
1. static mag field
2. switched field gradients
3. RF field
Affect the development of high field MRI. How might they be mitigated?
- -Increased projectile ris. –Magnetohaemodynamic effect of reducing blood flow / increasing blood pressure becomes significant at 10T.
- Some unknown effects including long term adverse effects.
- No real mitigation possible - Limitation of gradient performance to reduce impact of PNS. but this is not directly related to field strength.
- RF heating increases as the square of the static field strength, all else being equal. Mitigation includes using less RF-intensive sequences, using local transmit coils.
- Mitigated through RF shimming and parallel imaging.
Outline the decay mode of a radionuclide and how it is related to the moethod used for its production.
Radionuclides produced in a cyclotron tend to decay by B+ emission as the targets are bombarded with positively charged particles so the products have excess protons. e.g. 18O+1H = 18F+1n.
Radionuclides produced in a reactor tend to decay by B- emission because products of neutron activation and fission products have an excess of neutrons e.g. U235 + 1n = 137Cs+99Mo.
What does the line integral represent in
1. CT
2. PET
reconstruction
- In CT line integral represents the total attenuation of the X-ray beam as it travels through the scanned object.
- In PET it represents the sum of the radioactivity along the line of response.
Excessive blurring is usually observed in images resconstructed with simple back projection.
1. How does deconvolution
2. FBP
methods attempt to eliminate blurring
Blurring is assumed to be described by the 1/r function with r = disatance from the centre of the object of interest.
- Back-projected image can be described as the convolution of the original image with the blurring function 1/r. By deconvolving the blurred image, the de-blurred image is recovered.
- A high-pass filter (usually a ramp) is applied on the projection data in order to remove the low frequencies that correspond to background noise before back-projecting the data.
