The Postgraduate College

Clinical Sciences / Radiation Oncology

Overview

Degree awarded:

M.Sc Psycho-Oncology

PGD (Radiotheraphy Technology)

Programmes:

Not Available

Field of interest:

Not Applicable

Entry requirements:

How to apply:

Apply online

Our Radiation Oncology focuses on the use of ionizing radiation in the treatment of cancer. Our higher degree programs in Radiation Oncology provides advanced education and training for medical professionals interested in specializing in this field. Here is a general overview of the course content in Radiation Oncology:

Basic Medical Sciences:

Higher degree programs in Radiation Oncology typically start with a foundation in basic medical sciences. Students learn about anatomy, physiology, biochemistry, pharmacology, and other relevant subjects to develop a strong understanding of the human body and its functions.

Radiation Biology:

This course explores the biological effects of radiation on cells, tissues, and organs. Students study the principles of radiation biology, including DNA damage and repair mechanisms, radiation-induced cell death, and normal tissue responses to radiation.

Radiation Physics:

This course covers the principles of radiation physics and the use of radiation therapy equipment. Students learn about radiation sources, radiation measurement, treatment planning, and radiation delivery techniques such as external beam radiation therapy and brachytherapy.

Radiation Oncology Techniques:

This course focuses on the practical aspects of radiation therapy treatment. Students learn about treatment planning, image-guided radiation therapy, intensity-modulated radiation therapy (IMRT), stereotactic radiosurgery (SRS), and other advanced radiation techniques.

Radiation Oncology Patient Care:

This course emphasizes the holistic care of cancer patients undergoing radiation therapy. Students learn about patient assessment, management of treatment-related side effects, supportive care interventions, and communication skills for working with patients and their families.

Radiation Safety and Quality Assurance:

This course addresses radiation safety protocols and quality assurance measures in radiation oncology. Students learn about radiation safety practices, radiation protection guidelines, quality control procedures, and regulatory requirements.

Clinical Rotations:

Higher degree programs in Radiation Oncology often include clinical rotations, where students gain hands-on experience in radiation therapy departments. They observe and participate in patient consultations, treatment planning sessions, treatment delivery, and follow-up care under the supervision of experienced radiation oncologists.

Research and Scholarly Activities:

Many programs require students to engage in research and scholarly activities. Students may conduct research projects, participate in clinical trials, or contribute to publications and presentations in the field of Radiation Oncology.

Few/Some of the Course Content

Entry Requirement

INTERNATIONAL STUDENT ADMISSION REQUIREMENT

Candidate with recognized first degree or higher degree assessed to be at least equal or equivalent to the degree of Bachelor or Master of the University of Ibadan and as recognized by the University senate may be admitted to the Masters , M.Phil, M.Phil/Ph.D or Ph.D Programme on the recommendation of the appropriate Faculty Postgraduate Committee
All applicants for the Postgraduate Diploma, Degree of Masters and Professional Master are require to take Test of Proficiency in English Language. A. minimum score of 40 percent must be attained before applicants could be eligible to be shortlisted by the admitting Departments, Schools, or Institutes.

Facilities

Career Path

Graduates of higher degree programs in Radiation Oncology can pursue various career paths in clinical practice, research, teaching, and administration. Here are some common career options in Radiation Oncology:

Radiation Oncologist:

Many graduates go on to become radiation oncologists, working in hospitals, cancer centers, or private clinics. They are responsible for the comprehensive management of cancer patients, including the selection and delivery of radiation therapy treatments.

Clinical Researcher:

Some graduates choose to focus on research in the field of Radiation Oncology. They may work in academic institutions, research organizations, or pharmaceutical companies, conducting studies to advance knowledge in radiation therapy techniques, treatment outcomes, or radiobiology.

Academic and Teaching:

Graduates can pursue careers in academia, teaching and mentoring medical students, residents, and fellows. They may contribute to radiation oncology education, curriculum development, and clinical training programs.

Medical Physics:

Graduates with a background in Radiation Oncology can pursue careers in medical physics, specializing in the delivery of radiation therapy treatments. They work closely with radiation oncologists to ensure accurate treatment planning, dose calculations, and quality assurance in radiation therapy departments.

Administration and Leadership:

Some radiation oncology professionals move into management or leadership roles within healthcare organizations. They may take up positions as department heads, medical directors, or administrators, overseeing the operations of radiation oncology services.

Consultation and Collaboration:

Radiation oncologists may provide consultation services to other healthcare professionals or collaborate with multidisciplinary teams in cancer care settings. They contribute their expertise in treatment planning, radiation safety, and clinical decision-making.

It's important to note that the career paths in Radiation Oncology may require additional residency training and board certification specific to the field. The specific career trajectory may vary depending on the individual's interests, training, and geographic location.

Supervisor(s)

Fees

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