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CANCER DISEASE - Saving Lives with Ionizing Radiations



Cancer involves a pathological breakdown in the processes which control cell proliferation, differentiation and death of particular cells. As I, many medical physicists work in the fight against cancer, using tools of medical imaging and radiotherapy (radiation therapy). While medical imaging deals with diagnosis (CT scanner, radiography (X-rays), mammography,... echography (ultrasounds), nuclear medicine, MRI, etc.), radiation therapy uses radiation’s cell-killing properties to kill cancer while sparing healthy tissues. This is connected to the practice of treatment planning and dosimetry, the calculation and assessment of how much radiation dose is absorbed by the human body. In radiation oncology. medical physicists treat a wide range of patients, from skin cancer to total body irradiation, breast, lung, liver and prostate patients applying sophisticated technology.



Welcometo my website, the world of Medical Radiation Physics!


My name is BOGMIS Aaron Innocent.

- I am a Medical Radiation Physicist.

- I am also a Laboratory Quality Management Engineer.


This website is my personal expression area which will be serving as

  • a platform for consultancy in medical radiation physics (images analysis and processing, radiation therapy, radiation protection, nuclear medicine).
  • a platform from which I can share useful information in scientific areas such as scientific computation, etc.

I will not in general focus on the theory that interested readers can find in books of many sources, instead, I will be presenting the practical aspects:

  • how to code (write programs) in physics in particular atomic, nuclear, particles and medical physics using C/C++; ROOT/cern; MATLAB; FORTRAN; PYTHON.
  • how to simulate in physics using Matlab; Origin (e.g. ESR spectra), Monte Carlo: Fluka, GEANT4,
  • how to write scientific publications, reports, thesis, etc. using LaTeX. In particular,
  • how to write mathematics and equations in LateX.
  • how to program in R when clinical studies for example are involved, etc.

All these aspects and much more will be progressively developed in this website.


Above all, this website is dedicated to RADIOTHERAPY also called RADIATION THERAPY. It is my ambition to contribute in the improve-ment of radiation therapy treatment, in making sure that each patient is provided with the highest quality treatment possible. Radiotherapy is one of the main treatments for cancer, used in 50% of cancer treat-ments. It is also a multi-disciplinary field of research, mostly involving medicine, physics, mathematics, and computer science.



Maybe the most important thing to add here is that when creating this website, my first thoughts were for MEDICAL PHYSICS students.


I remembered all types of difficulties graduate students of Medical Physics face for example in solving problems related to Particles Physics; Quantum Physics; Interaction of Ionizing Radiations with matter; Dosimetry; Nuclear Medicine; Physics of Medical Imaging; etc. and all the Mathematics behind it.


So, I decided to share my experience and skills that graduate students need to tackle problems and exercises of Medical Radiation Physics. All these subjects and much more are presented by section and I do present step by step ways and methodologies to solve problems (analytically = by hand) and where necessary, I do show how to solve these problems numerically (e.g. using a programming language such as C++; MATLAB; PYTHON; R).



I am wishing graduate students of Medical Physics to find useful information here that might help them to progress in their studies. I would have loved to find such a website when I was an MSc' student in Medical Physics, but I have not been so lucky.



To emphasize this by an example: many reference books solve 1000s problems and exercises in say interaction of ionizing radiations with matter: when dealing with stopping power or Bethe Bloch equation, methods and solutions are presented in a very simplest way (without using integrals for example) while integrals are presented in the course / lectures and books. It is the same situation for nuclear medicine, etc. I have faced that situation like many other students. How come lectures and books are presented with very complex mathematics, but the selected solved problems are presented so simply without the use of the same complex mathematics? I have never been satisfied with that, so I decided to go through all that and to learn how to solve problems of physics in Medical Physics as a graduate student using all necessary advanced mathematics tools. That is the reason why I believe the content of this website could be extremely helpful for graduate students in Medical Physics. They will find here in one place methods and techniques that I missed when I was myself an MSc' student in Medical Physics.



On this website then, you will find



  • my CV,
  • background information on
    • radiotherapy,
    • medical imaging,
    • nuclear medicine,
    • radiation protection,
    • the mathematics involved in all these themes,​

All these themes and much more are presented in detail below.








  • the physics of all these themes,
  • radiobiology,
  • coding / programming,
  • modeling,
  • Monte Carlo /Geant4 simulation.
  • etc.


Cancer Treatment


This section presents the

  • cancer disease and its causes,
  • cancer diagnosis,
  • cancer treatment
    • the different types of cancer treatment

...

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Radiation Therapy



Radiotherapy is one of the main cancer treatment modalities that uses high doses of radiation to kill cancer cells and shrink tumors by making small breaks in the DNA preventing these cells from growing and dividing and leading to their death. …

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FLASH Radiotherapy



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Radiation Biology



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Quality Assurance in Radiotherapy



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Medical Radiation Physics



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Medical Imaging



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Physics of Medical Imaging



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Nuclear Medicine



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Physics of Nuclear Medicine



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Radiation Protection



Medical Radiation Physics is a vast and complex translational research topic that deals with radiation oncology physics, basic dosimetry, radiation detectors, ...


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Physics of Radiation Protection



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Monte Carlo Simulation



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Geant4-DNA



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Scientific Programming



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Artificial Neural Networks



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Medical Metrology



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Medical Electronics



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Bionics & Medical Prostheses



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Mathematics



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