Dissertation Topics Radiography Jobs

Free Radiology Dissertation Topics

John | January 25, 2012

WritePass - Essay Writing - Dissertation Topics [TOC]


This post was contributed by Casey Roberts, who is a student and also writes for Radiology Assistant. Radiology Assistant helps students find the right radiology degree.


1.0. Introduction to Radiology

Radiology is the branch of medicine that uses radiographs to produce images of the human body in order to diagnose and treat ailments.  Although radiology exclusively meant x-ray in the past, there are now many different types of radiology imaging used in medicine.  Radiology dissertation topics can discuss new areas of technology, why the old ones are still relevant, or even a pro and con list of two or more types of radiology imaging.  Below, we have more topics of interest to those writing a radiology dissertation.

2.0. Types of Radiology

2.1   X-ray

2.1.1 The history and evolution of the x-ray since its first inception in 1895.
2.1.2 To what extent are x-rays still useful today, and will there ever be a day when they are no longer needed.
2.1.3 Madam Curie and the x-ray.  Her curiosity to see how the beams worked in conjunction with radiation led to some amazing discoveries along with her death.  Is the scientific venture worth sacrificing your own life for?
2.1.4 Use of x-rays for diagnosing conditions in the skull.
2.1.5 Use of x-rays to diagnose chest illnesses such as lung cancer, heart issues, and others.
2.1.6 How new developments in x-ray technology could effect the future, such as x-ray use in nanospectroscopy.
2.1.7  Application of x-ray technology beyond medicine, such as the use of the Chandra X-ray by NASA used to take images of space.

2.2 Fluoroscopy and Angiography

2.2.1How is the use of fluoroscopy and angiography superior/inferior to the use of x-ray?
2.2.2 What are the advantages and diseases that can be best treated by fluoroscopy and angiography along with their outcomes.
2.2.3 What are the dangers of iodine use in fluoroscopy and angiography.

2.3 Computerized tomography (CT)

2.3.1 Production of human organ systems from use of computerized tomography and their applications.
2.3.2 Production of three dimensional maps of human organs through the use of CT scans.
2.3.3 Use of CT scans to discern brain patterns for analysis, such as those in the mentally ill or who have dementia.
2.3.4 Growth of single-photon emission computed tomography to map blood flow and its uses in various diseases and conditions.
2.3.5 Use of CT technology beyond medicine in areas such as the environment, veterinary health, and even the geophysical.

2.4 Magnetic Resonance Imaging (MRI)

2.4.1 How the use of MRI contrast agents can be improved to better develop images.
2.4.2 Use of MRI to diagnose intracranial hemorrhage for better patient outcomes.
2.4.3 Use of MRI to map out cardio functions to better diagnose conditions and plan surgeries.
2.4.4 Cost vs. effectiveness of use of MRI scanning vs. a cheaper but more limited imaging such as ultrasound.
2.4.5 The rise of MRI guided procedures as well as the benefits and shortfalls
2.4.6 Size of MRI machines, why they need to be so big, how they could be reduced in size, or increased in opening to accommodate larger patients.
2.4.7 Claustrophobia and the MRI machine: which patients should and should not be forced into one.

2.5 Nuclear Medicine

2.5.1 Use of radiopharmaceuticals in nuclear medicine and their dangers.
2.5.2 Analysis and comparison of agents used in nuclear medicine such as Iodine-123, Iodine-131, Gallium-67, Technetium-99m,  and Thallium-201.
2.5.3 How nuclear medicine and CT scans can be used in tandem to produce better results.
2.5.4 Advantages and disadvantages of using positron emission tomography for use in detecting cancer.
2.5.5 Benefits and risks of nuclear medicine on items such as diagnosing, patient safety, and cost.
2.5.6 Disposal of nuclear medicine waste: the proper ways to be done, ways it can be recycled, and danger to the environment.
2.5.7 Cost of producing nuclear medicine agents and technology vs. the benefits

3.0. Other Radiology Topics

3.1 Difference between careers in radiology from doctor of radiology, radiology technician, radiology assistant, nurse, etc.
3.2 Use of radiology beyond diagnosing diseases and into items such as delivering drugs, guiding surgeries, etc.
3.3 How radiology can be used in the diagnosis and treatment of stroke.
3.4 Why hasn’t imaging technology in radiology kept up with imaging technology in personal photography with features such as digital images instead of film, smaller machines, lower costs, better results, etc.


Category: Free Dissertation Topics and Ideas

Top 20 Radiography Dissertation Topics You Can Explore

The first step towards passing your final university exam is to ensure that you choose a good thesis topic. This is why this is one of the reason why you must make a good choice of a topic. Ensure that you select a topic that is neither too narrow nor too broad. You should also select a topic that you feel you are knowledgeable enough on. If you don’t pick something interesting, it will be difficult for you to give it your best.

Introduction to radiography

Radiology is the branch of medicine that makes use of radiographs to create images in our bodies so as diagnose and treat sicknesses. While there was a time when radiology was a term that stood for X-ray, today we have different radiology imaging types that are used in medicine. Radiography on the other hand is the area of medicine that specializes with the reading of images from the human body. In case you are finding it difficult to choose a radiography dissertation topic, here are few examples that you can explore.

  1. History of the X-ray and how it has been improved over the years

  2. How X-rays are still important today and will there be a point in time when they will no longer be necessary?

  3. How X-rays can be used to diagnose the conditions of the skull

  4. How X-ray technology can be used beyond medicine like taking images on space

  5. Is the use of angiograph and fluoroscopy more inferior or superior to X-ray use?

  6. What condition can angiography and fluoroscopy be used to treat?

  7. How x-ray can be used to diagnose illnesses of the chest like heart issues, lung cancer and others

  8. How the new x-rays development can affect the future such as the use of X-ray in nanospectroscopy

  9. How the use of iodine in angiography and fluoroscopy are dangerous

  10. How CT scans can be used to discern patterns of the brain such as in mentally ill patients

  11. How CT scans can be used beyond medicine like in areas of veterinary health, environment and geophysical

  12. How MRI can be used in the diagnosis of intracranial hemorrhage to produce some better outcomes

  13. How MRI can be used to map out cardio functions to provide better diagnosis and for plan surgeries

  14. How MRI guided procedures has grown

  15. MRI machine size: Do they need to be too big or can be reduced?

  16. How radiopharmaceuticals can be used in nuclear medicine

  17. The risk of radiopharmaceuticals when used in nuclear medicines

  18. Pros and cons of positron emission tomography in cancer detection

  19. The proper disposal of wastes used in nuclear medicine

  20. How radiology can be used to treat stroke

0 Replies to “Dissertation Topics Radiography Jobs”

Lascia un Commento

L'indirizzo email non verrà pubblicato. I campi obbligatori sono contrassegnati *