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Medical uses of Radiation
- Tracers in Medicine
- Radioactive isotopes are injected or swallowed
- External detector follows its progress around the body
- Computer processes readings
- This shows where the strongest reading is coming from
- This shows where the strongest reading is coming from
- Computer processes readings
- External detector follows its progress around the body
- E.g iodine-131
- Is absorbed by the Thyroid gland
- Emits radiation which can be detected
- Shows whether the Thyroid gland is taking in Iodine
- Shows whether the Thyroid gland is taking in Iodine
- Emits radiation which can be detected
- Is absorbed by the Thyroid gland
- Only isotopes which emit beta and gamma radiation are used
- These pass out of the body
- Reducing the damage
- Reducing the damage
- They have short half-lifes to reduce amount of radioactivity in the body
- Reducing the damage
- Reducing the damage
- These pass out of the body
- Radioactive isotopes are injected or swallowed
- PET Scanning
- Positron Emission Tomography
- Used to show Organ/Tissue functions
- Reveals
- Records the blood flow
- Can diagnose Epilepsy
- Can diagnose Epilepsy
- Damaged/Dead heart muscle
- Damaged tissue in the heart is shown by detecting decreased blood flow
- Damaged tissue in the heart is shown by detecting decreased blood flow
- Coronary Artery Disease
- Active Tumours
- By analysing metabolic activity of tissue
- Cancer cells have a higher metabolism
- Cancer cells have a higher metabolism
- By analysing metabolic activity of tissue
- Records the blood flow
- Reveals
- Method
- Inject a substance (e.g Glucose) with a
positron-emitting radioactive isotope
- This acts as a tracer which moves around the body
- Positrons meet electrons and annihilate
- Emitting high-energy gamma rays in opposite directions which are detected
- The distribution of the radioactivity matches the metabolic activity
- The distribution of the radioactivity matches the metabolic activity
- Emitting high-energy gamma rays in opposite directions which are detected
- Positrons meet electrons and annihilate
- This acts as a tracer which moves around the body
- Isotopes have a small half-life so are made on site
- Inject a substance (e.g Glucose) with a
positron-emitting radioactive isotope
- Positron Emission Tomography
- Tumour Treatment
- Internally
- Radioactive material is
inserted into/near the tumour
- By injecting/implanting
- This method gives a high dose of
radiation to a small part of the body
- Damage to surrounding tissues is limited
- Whole treatment is usually 6 weeks shorter
- Reduce the number of visits
- Allows to plan for further treatment
- May have to limit contact because
the radioactive source is inside the
patient before it is removed
- No side effects except discomfort
- No side effects except discomfort
- May have to limit contact because
the radioactive source is inside the
patient before it is removed
- Allows to plan for further treatment
- Reduce the number of visits
- Whole treatment is usually 6 weeks shorter
- Damage to surrounding tissues is limited
- This method gives a high dose of
radiation to a small part of the body
- By injecting/implanting
- Radioactive material is
inserted into/near the tumour
- Externally
- High energy x-rays or gamma
rays are aimed at the tumour
- Radiation is aimed carefully but normal
cells in the way will be damaged
- Sessions only last a few minutes
- Can have side effects (see below)
- Can have side effects (see below)
- Sessions only last a few minutes
- Radiation is aimed carefully but normal
cells in the way will be damaged
- High energy x-rays or gamma
rays are aimed at the tumour
- Internally
- Associated Problems
- Social and Ethical
- Radiation is useful and dangerous
- Using radiation to kill cells will
also kill normal ones
- Minor
- Radiotherapy can cause hair
loss, sickness & skin irritation
- Radiotherapy can cause hair
loss, sickness & skin irritation
- Major
- Can lead to bowel
damage & infertility
- Reduce quality of life
- In some cases a second cancer can evolve
- In some cases a second cancer can evolve
- Reduce quality of life
- Can lead to bowel
damage & infertility
- Minor
- Using radiation to kill cells will
also kill normal ones
- Radiation is useful and dangerous
- Physical
- Ionising radiation
- Can kill cells
- Can cause mutations
- Can cause cells to divide uncontrollably
- PET scans use small doses (7 mSv)
- Background radiation = 2.2 mSv
- Prevention
- Low doses
- Short exposure time
- Lead shielding
- Increase distance
- Low doses
- Can kill cells
- Any exposure increases risk
- Ionising radiation
- Radiation Intensity & Absorbtion
- Intensity of radiation depends on distance squared
Annotations:
- if you move twice as far from the source the radiation is being spread four times the area. So 1/x^2 =1/4 of the intensity
- Known as Inverse square relationship
- Thickness of materials affects absorbtion
- Lead and Concrete reduce such exposures because they absorb radiation
- Lead and Concrete reduce such exposures because they absorb radiation
- Intensity of radiation depends on distance squared
- Social and Ethical
- Treatment that reduces
suffering without curing
the illness is called
palliative care
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