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Nuclear Chemistry help:) (1 Viewer)

mac1996

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What are the Benefits and Problems associated with using the isotope technetium-99m and Cobalt-60 ?

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Newbit

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Colbalt-60 Can be used in medicine to treat cancer in patients. The infected area is irradiated with Colbalt-60 to kill cancerous cells. The problem associated with the use of Colbalt-60 is that it has potential to kill 'good' cells as well.
 

someth1ng

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Make sure you have one industrial and one medical use of radioisotopes - Cobalt-60 should be referred to as an industrial radioisotope.

Anyway, for Tc-99m:

Benefits
- Short half life (~6 hours) means that cells are exposed to less radiation and hence, lowered risk of damage.
- Quickly removed from the body (biological half life of 1 day), lowering the patient's radiation exposure.
- Does not react or interact with any bodily processes making it non-toxic.
Tc-99m binds to red blood cells as a tracer, allowing blood clots to be identified and hence, rectified by other means.
- Tc-99m can be added to other compounds to bind to different molecules. Tc-99m can be mixed with a tin compounds to bind to glucose, showing areas of the body with high or low glucose concentration.

Problems
- Although exposure is short and Tc-99m is quickly removed from the body, it is still radiation exposure in the form of gamma rays which are high-energy and highly ionising. This means that gamma ray exposure can ionise molecules in the body such as DNA, causing defects in cells that can thence, result in cancers.
- Tc-99m has a short half life meaning that it cannot be transported long distances but rather, must be synthesised on-site. This increases the cost of Tc-99m as it requires relevant equipment to produce Tc-99m. This limits the use of Tc-99m to larger, wealthier hospitals such as Royal Prince Alfred Hospital in Sydney.
 
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nightweaver066

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Cobalt-60 is also used in industry (automated thickness gauges, irradiation of food, sterilisation of medical equipment)

I focused on automated thickness gauges.

Benefits associated with its use:
- Promotes hygiene, minimizes contact with material
- Prevents the need for continuous replacements (long half life)
- Makes industrial equipment much more sensitive, accurate and reliable
- Cheaper as it reduces need for manual labour – cost effective for industry
- Ultimately decays in to non-radioactive nickel
Problems associated with its use:
- General risk for radiation exposure to industrial workers
- Exposure to radiation can cause tissue damage, increased risk of cancer and prolonged exposure can lead to death
- Exposure could also lead to deformation in potential offspring

When answering questions, you should always link properties with these.
 
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