Study of the internal structures of the body using various imaging techniques such as X-rays, CT scans and MRI.
Basic Human Anatomy: Understanding the overall structure of the human body and its organ systems.
Radiographic Imaging Techniques: Knowledge of X-ray, CT scans, MRI, and other imaging techniques used in radiology.
Medical Terminology: Understanding key terms used in radiology and medical professions.
Skeletal System: Knowledge of bones, joints, and cartilage in the human body.
Muscular System: Understanding the structure and function of muscles and their attachments.
Nervous System: Knowledge of the central and peripheral nervous systems, including the brain and spinal cord.
Cardiovascular System: Understanding the structure and function of the heart and blood vessels.
Respiratory System: Knowledge of the organs and tissues involved in breathing and gas exchange.
Digestive System: Understanding the organs and processes involved in the digestion and absorption of food.
Urinary System: Knowledge of the organs and processes involved in the formation and elimination of urine.
Reproductive System: Understanding the male and female reproductive systems and their structures.
Radiological Anatomy of the Head and Neck: Focusing on the structures and organs found in the head and neck region.
Radiological Anatomy of the Chest: Knowledge of the structures and organs found in the chest region.
Radiological Anatomy of the Abdomen and Pelvis: Understanding the organs and structures found in the abdominal and pelvic regions.
Radiological Anatomy of the Extremities: Knowledge of the bones, joints, muscles, and nerves of the arms and legs.
X-ray anatomy: X-ray uses high-energy radiation to produce images of bones and other tissues in the body.
Computed Tomography (CT) anatomy: CT scanning provides detailed images of internal organs, bones, soft tissues and blood vessels.
Magnetic Resonance Imaging (MRI) anatomy: Provides detailed images of internal organs, bones, soft tissues, and blood vessels using magnetic and radio waves.
Positron Emission Tomography (PET) anatomy: PET scanning provides metabolic activity images and is used for diagnosis of diseases.
Ultrasonography anatomy: Ultrasound uses high-frequency sound waves to produce images of structures in the body.
Nuclear Medicine anatomy: Nuclear medicine is a type of medical imaging that uses radioactive substances to diagnose and treat diseases.
Cardiovascular anatomy: Anatomy and physiology of the heart, vessels, and the circulatory system.
Neuroanatomy: Anatomy and physiology of the brain and the nervous system.
Skeletal anatomy: Anatomy and physiology of the bone structure.
Muscular anatomy: Anatomy and physiology of the muscle structure.
Digestive anatomy: Anatomy and physiology of the digestive system.
Respiratory anatomy: Anatomy and physiology of the respiratory system, including the lungs.
Reproductive anatomy: Anatomy and physiology of the reproductive organs and systems.
Endocrine anatomy: Anatomy and physiology of the endocrine glands and hormone systems.
Lymphatic anatomy: Anatomy and physiology of the lymphatic system.
Urinary anatomy: Anatomy and physiology of the urinary system.
Ophthalmologic anatomy: Anatomy and physiology of the eye and vision systems.
Dental anatomy: Anatomy and physiology of the teeth and oral cavity.
Oncologic anatomy: Anatomy and physiology of cancerous tissue and tumors.
Trauma anatomy: Anatomy and physiology of damage caused to the body by external forces.