Radiology is the specialty directing medical imaging technologies to diagnose and sometimes treat diseases. Medical imaging refers to the techniques and processes used to create Images of the human body (or parts thereof for clinical purposes ( Medical procedures seeking to Originally it was the aspect of medical science dealing with the medical use of electromagnetic energy emitted by X-ray machines or other such radiation devices for the purpose of obtaining visual information as part of medical imaging. Medicine is the art and science of healing It encompasses a range of Health care practices evolved to maintain and restore Human Health by the An X-ray machine is a device used by Radiographers to acquire an X-ray image Radiation, as in Physics, is Energy in the form of waves or moving Subatomic particles emitted by an atom or other body as it changes from a higher energy Radiology that involves use of x-ray is called roentgenology.

Wilhelm Conrad Roentgen first discovered x-radiation on 8 November 1895 at the Physical Institute of Wuerzburg University. Wilhelm Conrad Röntgen (27 March 1845 &ndash 10 February 1923 was a German physicist, who on 8 November 1895 produced and detected Electromagnetic Events 1519 - Hernán Cortés enters Tenochtitlán and Aztec ruler Moctezuma welcomes him with great a Celebration Year 1895 ( MDCCCXCV) was a Common year starting on Tuesday (link will display full calendar of the Gregorian calendar (or a Common year The University of Würzburg is a university in Würzburg, Germany, founded in 1402 ^[1] He named the radiation he had discovered "X-radiation". This term is still in use today in the Anglo-American region. His work was first published in a meeting protocol of the Wuerzburg Physical-Medical Society in the 1895 volume; the article was submitted by W. C. Roentgen on 28 December 1895.

Today, following extensive training, radiologists direct an array of imaging technologies (such as ultrasound, computed tomography (CT) nuclear medicine, and magnetic resonance imaging) to diagnose or treat disease. Not to be confused with Supersonic. Ultrasound is cyclic Sound pressure with a Frequency greater than the upper Computed tomography (CT is a Medical imaging method employing Tomography. Nuclear medicine is a branch of Medicine and Medical imaging that uses the nuclear properties of matter in diagnosis and therapy Interventional radiology is the performance of (usually minimally invasive) medical procedures with the guidance of imaging technologies. Interventional radiology (abbreviated IR or sometimes VIR for vascular and interventional radiology) is a subspecialty of Radiology in which Minimally invasive surgical procedures avoid open invasive surgery in favor of closed or local surgery with less trauma The acquisition of medical imaging is usually carried out by the radiographer or radiologic technologist. Medical imaging refers to the techniques and processes used to create Images of the human body (or parts thereof for clinical purposes ( Medical procedures seeking to A radiologic technologist, or radiographer, is a healthcare professional who creates medical images of the body to help health care providers diagnose and treat illness and injury Outside of the medical field, radiology also encompasses the examination of the inner structure of objects using X-rays or other penetrating radiation.

Contents 1 Subdivisions 2 Acquisition of radiological images 2.1 Projection (plain) radiography 2.2 Fluoroscopy 2.3 CT scanning 2.4 Ultrasound 2.5 MRI (Magnetic Resonance Imaging) 2.6 Nuclear Medicine 3 Teleradiology 4 Radiologist training 4.1 United States 4.2 Canada 5 References 6 See also 7 External links

Subdivisions

As a medical specialty, radiology can be classified broadly into Diagnostic radiology and Therapeutic radiology.

• Diagnostic radiology is the interpretation of images of the human body to aid in the diagnosis or prognosis of disease. Medical imaging refers to the techniques and processes used to create Images of the human body (or parts thereof for clinical purposes ( Medical procedures seeking to Diagnosis is the identification by Process of elimination, of the nature of anything Prognosis (older Greek πρόγνωσις modern Greek πρόγνωση - literally fore-knowing foreseeing) is a medical term denoting the It is divided into subfields by anatomic location and in some cases method:
  • Chest radiology.
  • Abdominal & Pelvic radiology. Sometimes together termed "Body Imaging. "
  • Interventional radiology uses imaging to guide therapeutic and angiographic procedures. Interventional radiology (abbreviated IR or sometimes VIR for vascular and interventional radiology) is a subspecialty of Radiology in which Also known as Vascular & Interventional radiology.
  • Neuroradiology is the sub-specialty in the field of central nervous system, i. Neuroradiology is a subspecialty of suspenseful radiology focusing on the diagnosis and characterization of abnormalites of the central and peripheral nervous system spine and head and e. brain and spinal cord, peripheral nervous system, osseous spine and its neural contents, and head and neck imaging.
    • Interventional Neuroradiology uses imaging to guide therapeutic and diagnostic angiographic procedures in the head, neck and spine. Neurointerventional Surgery (NIS/ Interventional Neuroradiology (INR is an Accreditation Council for Graduate Medical Education (ACGME accredited medical subspecialty specializing
  • Musculoskeletal radiology is the sub-specialty in the field of bone, joint, and muscular imaging.
  • Pediatric radiology.
  • Mammography Subdivision of radiology that images the breast tissue. Mammography is the process of using low-dose X-rays (usually around 0
  • Emergency radiology. Subdivision of radiology involved in the diagnosis and treatment of acutely ill or injured patients.
  • Nuclear Medicine is a subdivision of radiology that uses radioisotopes in the characterization of lesions and disease processes, and often yields functional information. Nuclear medicine is a branch of Medicine and Medical imaging that uses the nuclear properties of matter in diagnosis and therapy
• A Radiologist is a subspecialty physician trained in all areas of diagnostic radiology. Board certification is earned through the American Board of Radiology (ABR).
  • Nuclear Medicine, Interventional radiology, Neuroradiology and Pediatric radiology have optional subspecialty Board qualifications under the American Board of Radiology.
  • Certification in Nuclear Medicine alone can be earned as a non-radiologist physician through the American Board of Nuclear Medicine.
• Therapeutic radiology utilizes radiation (radiation therapy) for therapy of diseases such as cancer. Radiation therapy (or radiotherapy) is the medical use of Ionizing radiation as part of Cancer treatment to control Malignant Cancer (medical term Malignant Neoplasm) is a class of Diseases in which a group of cells display uncontrolled
  • While originally encompassed within radiology, radiation oncology is now a separate field. Radiation therapy (or radiotherapy) is the medical use of Ionizing radiation as part of Cancer treatment to control Malignant
  • Radiation Oncology specialty certification is earned through the American Board of Radiology.

Acquisition of radiological images

Patients have the following procedures to provide images for Radiological decisions to be made.

Projection (plain) radiography

Main article: Radiography

Radiographs (or Roentgenographs, named after the discoverer of X-rays, Wilhelm Conrad Roentgen (1845–1923) are often used for evaluation of bony structures and soft tissues. For medical radiography see Radiology Radiography is the use of X-rays to view unseen or hard-to-image objects For medical radiography see Radiology Radiography is the use of X-rays to view unseen or hard-to-image objects Wilhelm Conrad Röntgen (27 March 1845 &ndash 10 February 1923 was a German physicist, who on 8 November 1895 produced and detected Electromagnetic Bones are rigid organs that form part of the Endoskeleton of Vertebrates They function to move support and protect the various organs of the body produce An X-Ray machine directs electromagnetic radiation upon a specified region in the body. This radiation tends to pass through less dense matter (air, fat, muscle, and other tissues), but is absorbed or scattered by denser materials (bones, tumors, lungs affected by severe pneumonia). In Film-Screen Radiography, radiation which has passed through a patient then strikes a cassette containing a screen of fluorescent phosphors and exposes x-ray film. Areas of film exposed to higher amounts of radiation will appear as black or grey on X-ray film while areas exposed to less radiation will appear lighter or white. In Computed Radiography (CR), the x-rays passing through the patient strike a sensitized plate which is then read and digitized into a computer image by a separate machine. In Digital Radiography the x-rays strike a plate of x-ray sensors producing a digital computer image directly. While all three methods are currently in use, the trend in the U. S. is away from film and toward digital imaging.

Plain radiography was the only imaging modality available during the first 50 years of Radiology. It is still the first study ordered in evaluation of the lungs, heart and skeleton because of its wide availability, speed and relative low cost.

Fluoroscopy

Main article: Fluoroscopy

Fluoroscopy and angiography are special applications of X-ray imaging, in which a fluorescent screen or image intensifier tube is connected to a closed-circuit television system, which allows real-time imaging of structures in motion or augmented with a radiocontrast agent. Fluoroscopy is an imaging technique commonly used by Physicians to obtain real-time moving images of the internal structures of a patient through the use of a fluoroscope Fluoroscopy is an imaging technique commonly used by Physicians to obtain real-time moving images of the internal structures of a patient through the use of a fluoroscope Angiography or arteriography is a Medical imaging technique in which an X-ray image is taken to visualize the inside or lumen, of blood vessels X-radiation (composed of X-rays) is a form of Electromagnetic radiation. Contrast medium Radiocontrast agents (also simply contrast agents or contrast materials) are compounds used to improve the visibility of internal bodily structures Radiocontrast agents are administered, often swallowed or injected into the body of the patient, to delineate anatomy and functioning of the blood vessels, the genitourinary system or the gastrointestinal tract. Two radiocontrasts are presently in use. Barium (as BaSO4) may be given orally or rectally for evaluation of the GI tract. Iodine, in multiple proprietary forms, may be given by oral, rectal, intraarterial or intravenous routes. These radiocontrast agents strongly absorb or scatter X-ray radiation, and in conjunction with the real-time imaging allows demonstration of dynamic processes, such as peristalsis in the digestive tract or blood flow in arteries and veins. In the Esophagus After food is chewed into a bolus it is swallowed to move it into the esophagus Iodine contrast may also be concentrated in abnormal areas more or less than in normal tissues and make abnormalities (tumors, cysts, inflammation) more conspicuous. Additionally, in specific circumstances air can be used as a contrast agent for the gastrointestinal system and carbon dioxide can be used as a contrast agent in the venous system; in these cases, the contrast agent attenuates the X-ray radiation less than the surrounding tissues.

CT scanning

Main article: Computed tomography

CT imaging uses X-rays in conjunction with computing algorithms to image the body. Computed tomography (CT is a Medical imaging method employing Tomography. Computed tomography (CT is a Medical imaging method employing Tomography. In Mathematics, Computing, Linguistics and related subjects an algorithm is a sequence of finite instructions often used for Calculation In CT, an X-ray generating tube opposite an X-ray detector (or detectors) in a ring shaped apparatus rotate around a patient producing a computer generated cross-sectional image (tomogram). CT is acquired in the axial plane, while coronal and sagittal images can be rendered by computer reconstruction. In fields of Anatomy, anatomical terms of location are descriptive terms to help identify relative positions or directions within a species Radiocontrast agents are often used with CT for enhanced delineation of anatomy. Intravenous contrast can allow 3D reconstructions of arteries and veins. Although radiographs provide higher spatial resolution, CT can detect more subtle variations in attenuation of X-rays. CT exposes the patient to more ionizing radiation than a radiograph. Spiral Multi-detector CT utilizes 8,16 or 64 detectors during continuous motion of the patient through the radiation beam to obtain much finer detail images in a shorter exam time. With computer manipulation these images can be reconstructed into 3D images of carotid, cerebral and coronary arteries. Faster scanning times in modern equipment has been associated with increased utilization.

The first commercially viable CT scanner was invented by Sir Godfrey Hounsfield at EMI Central Research Labs, Great Britain in 1972. EMI owned the distribution rights to The Beatles music and it was their profits which funded the research. Sir Hounsfield and Alan McLeod McCormick shared the Nobel Prize for Medicine in 1979 for the invention of CT scanning. The first CT scanner in North America was installed at the Mayo Clinic in Rochester, MN in 1972.

Ultrasound

Main article: Ultrasound

Medical ultrasonography uses ultrasound (high-frequency sound waves) to visualize soft tissue structures in the body in real time. Not to be confused with Supersonic. Ultrasound is cyclic Sound pressure with a Frequency greater than the upper Not to be confused with Supersonic. Ultrasound is cyclic Sound pressure with a Frequency greater than the upper No ionizing radiation is involved, but the quality of the images obtained using ultrasound is highly dependent on the skill of the person (ultrasonographer) performing the exam. Image talkNew_radiation_symbol_ISO_21482svg for details --> Ionizing radiation Ultrasound is also limited by its inability to image through air (lungs, bowel loops) or bone. The use of ultrasound in medical imaging has developed mostly within the last 30 years. The first ultrasound images were static and two dimensional (2D), but with modern-day ultrasonography 3D reconstructions can be observed in real-time; effectively becoming 4D.

Because ultrasound does not utilize ionizing radiation, unlike radiography, CT scans, and nuclear medicine imaging techniques, it is generally considered safer. For this reason, this modality plays a vital role in obstetrical imaging. Obstetric sonography (ultrasonography is the application of Medical ultrasonography to Obstetrics, in which ultrasound is used to visualize the Embryo Fetal anatomic development can be thoroughly evaluated allowing early diagnosis of many fetal anomalies. Growth can be assessed over time, important in patients with chronic disease or gestation-induced disease, and in multiple gestations (twins, triplets etc. ). Color-Flow Doppler Ultrasound measures the severity of peripheral vascular disease and is used by Cardiology for dynamic evaluation of the heart, heart valves and major vessels. Peripheral vascular disease (PVD also known as peripheral artery disease (PAD or peripheral artery occlusive disease (PAOD is a collator for all Diseases Stenosis of the carotid arteries can presage cerebral infarcts (strokes). A stenosis ( Plural: stenoses; from Ancient Greek στένωσις "narrowing" is an abnormal narrowing in a Blood vessel In Human anatomy, the common carotid artery is an Artery that supplies the head and neck with Oxygenated blood; it divides in the neck to form the DVT in the legs can be found via ultrasound before it dislodges and travels to the lungs (pulmonary embolism), which can be fatal if left untreated. In Medicine, deep vein thrombosis (also known as deep-vein thrombosis or deep venous thrombosis and usually abbreviated as DVT) is the formation Pulmonary embolism (PE is a blockage of the Pulmonary artery or one of its branches usually occurring when a venous Thrombus (blood clot from a vein Ultrasound is useful for image-guided interventions like biopsies and drainages such as thoracentesis). A biopsy (in Greek: βίος life and όψη look/appearance is a Medical test involving the removal of cells or tissues Thoracentesis (also known as thoracocentesis or pleural tap) is an invasive procedure to remove fluid or air from the pleural space It is also used in the treatment of kidney stones (renal lithiasis) via lithotripsy. Kidney stones, also called renal calculi, are solid concretions (crystal aggregations of dissolved minerals in Urine; calculi typically form A lithotriptor is a Medical device used in the non-invasive treatment of Kidney stones (urinary calculosis and Biliary calculi (stones in the Small portable ultrasound devices now replace peritoneal lavage in the triage of trauma victims by directly assessing for the presence of hemorrhage in the peritoneum and the integrity of the major viscera including the liver, spleen and kidneys. Diagnostic peritoneal lavage ( DPL) is performed when intra-abdominal bleeding ( Hemoperitoneum) usually secondary to trauma is suspected Treatment of physical trauma is described here and in First aid. Bleeding, technically known as hemorrhaging / haemorrhaging (see American and British spelling differences) is the loss of Blood from In higher Vertebrates the peritoneum is the Serous membrane that forms the lining of the abdominal cavity &mdash it covers most of the intra-abdominal In Anatomy, a viscus (ˈvɪskəs ( Plural: viscera /ˈvɪsərə/ is an internal organ of an animal (including humans in particular an internal The liver is a vital organ in the human body and is present in Vertebrates and some other animals The spleen is an organ found in all Vertebrate animals In humans the spleen is located in the abdomen of the body where it functions in the destruction of redundant Red The kidneys are complicated organs that have numerous biological roles Extensive hemoperitoneum (bleeding inside the body cavity) or injury to the major organs may require emergent surgical exploration and repair.

MRI (Magnetic Resonance Imaging)

Main article: Magnetic resonance imaging

MRI uses strong magnetic fields to align spinning atomic nuclei (usually hydrogen protons) within body tissues, then uses a radio signal to disturb the axis of rotation of these nuclei and observes the radio frequency signal generated as the nuclei return to their baseline states plus all surounding areas. The nucleus of an Atom is the very dense region consisting of Nucleons ( Protons and Neutrons, at the center of an atom Hydrogen (ˈhaɪdrədʒən is the Chemical element with Atomic number 1 The proton ( Greek πρῶτον / proton "first" is a Subatomic particle with an Electric charge of one positive Radio frequency ( RF) is a Frequency or rate of Oscillation within the range of about 3 Hz to 300 GHz The radio signals are collected by small antennae, called coils, placed near the area of interest. An advantage of MRI is its ability to produce images in axial, coronal, sagittal and multiple oblique planes with equal ease. The transverse or axial plane (also often transaxial plane) is an imaginary plane that divides the body into superior and inferior parts A coronal plane (also known as the frontal plane) is any vertical plane that divides the body into Anterior and Posterior (belly and back sections A sagittal plane of the human body is an imaginary plane that travels from the top to the bottom of the body dividing it into left and right portions MRI scans give the best soft tissue contrast of all the imaging modalities. With advances in scanning speed and spatial resolution, and improvements in computer 3D algorithms and hardware, MRI has become an essential tool in musculoskeltal radiology and neuroradiology.

One disadvantage is that the patient has to hold still for long periods of time in a noisy, cramped space while the imaging is performed. Claustrophobia severe enough to terminate the MRI exam is reported in up to 5% of patients. Recent improvements in magnet design including stronger magnetic fields (3 teslas), shortening exam times, wider, shorter magnet bores and more open magnet designs, have brought some relief for claustrophobic patients. The tesla (symbol T) is the SI derived unit of Magnetic field B (which is also known as "magnetic flux density" and "magnetic However, in magnets of equal field strength there is often a trade-off between image quality and open design. MRI has great benefit in imaging the brain, spine, and musculoskeletal system. The modality is currently contraindicated for patients with pacemakers, cochlear implants, some indwelling medication pumps, certain types of cerebral aneurysm clips, metal fragments in the eyes and some metallic hardware due to the powerful magnetic fields and strong fluctuating radio signals the body is exposed to. Areas of potential advancement include functional imaging, cardiovascular MRI, as well as MR image guided therapy.

Nuclear Medicine

Main article: Nuclear medicine

Nuclear medicine imaging involves the administration into the patient of radiopharmaceuticals consisting of substances with affinity for certain body tissues labeled with radioactive tracer. Nuclear medicine is a branch of Medicine and Medical imaging that uses the nuclear properties of matter in diagnosis and therapy Nuclear medicine is a branch of Medicine and Medical imaging that uses the nuclear properties of matter in diagnosis and therapy The most commonly used tracers are Technetium-99m, Iodine-123, Iodine-131 and Thallium-201. The heart, lungs, thyroid, liver, gallbladder, and bones are commonly evaluated for particular conditions using these techniques. The heart is a muscular organ in all Vertebrates responsible for pumping Blood through the Blood vessels by repeated rhythmic lung is the essential Respiration organ in air-breathing Animals including most Tetrapods a few Fish and a few Snails The most primitive The thyroid is one of the largest Endocrine glands in the body The liver is a vital organ in the human body and is present in Vertebrates and some other animals The gallbladder (or cholecyst sometimes gall bladder is a small organ whose function in the body is to store Bile and aid in the digestive process While anatomical detail is limited in these studies, nuclear medicine is useful in displaying physiological function. Anatomy (from the Greek anatomia, from ana separate apart from and temnein, to cut up cut open is a branch of Biology that is the consideration Physiology (from Greek grc φύσις physis, "nature origin" and grc -λογία -logia) is the study of the mechanical physical The excretory function of the kidneys, iodine concentrating ability of the thyroid, blood flow to heart muscle, etc. can be measured. The principal imaging device is the gamma camera which detects the radiation emitted by the tracer in the body and displays it as an image. A gamma camera is a device used to image gamma radiation emitting radioisotopes a technique known as scintigraphy With computer processing, the information can be displayed as axial, coronal and sagittal images (SPECT images). In the most modern devices Nuclear Medicine images can be fused with a CT scan taken quasi-simultaneously so that the physiological information can be overlaid or co-registered with the anatomical structures to improve diagnostic accuracy. Physiology (from Greek grc φύσις physis, "nature origin" and grc -λογία -logia) is the study of the mechanical physical

PET scanning also falls under "nuclear medicine. Positron emission tomography ( PET) is a Nuclear medicine imaging technique which produces a three-dimensional image or map of functional processes in the " In PET scanning, a radioactive biologically-active substance, most often Fluorine-18 Fluorodeoxyglucose, is injected into a patient and the radiation emitted by the patient is detected to produce multi-planar images of the body. Fluorine, fluorum meaning "to flow" is the Chemical element with the symbol F and Atomic number 9 Fluorodeoxyglucose is a Glucose analog. Its full chemical name is 2-fluoro-2-deoxy-D-glucose, commonly abbreviated to FDG Metabolically more active tissues, such as cancer, concentrate the active substance more than normal tissues. PET images can be combined with CT images to improve diagnostic accuracy.

The applications of nuclear medicine can include bone scanning which traditionally has had a strong role in the work-up/staging of cancers. Bone imaging is a study to visually detect Bone abnormalities The stage of a cancer is a descriptor (usually numbers I to IV of how much the Cancer has spread Myocardial perfusion imaging is a sensitive and specific screening exam for reversible myocardial ischemia, which when present requires angiographic confirmation and potentially life-saving balloon angioplasty, stenting or cardiac bypass grafting. Single photon emission computed tomography (SPECT or less commonly SPET is a Nuclear medicine tomographic imaging technique using Gamma rays. Screening, in medicine is a strategy used in a Population to detect a Disease in individuals without signs or Symptoms of that disease Ischaemic or ischemic heart disease (IHD or myocardial ischaemia, is a Disease characterized by reduced blood supply to the heart muscle Angiography or arteriography is a Medical imaging technique in which an X-ray image is taken to visualize the inside or lumen, of blood vessels Angioplasty is the technique of mechanically widening a narrowed or totally obstructed Blood vessel; typically as a result of Atherosclerosis. In Medicine, a stent is a tube that is inserted into a natural conduit of the body to prevent or counteract a disease-induced localized flow constriction Coronary artery bypass surgery, also coronary artery bypass graft surgery, and colloquially heart bypass or bypass surgery is a surgical procedure Molecular Imaging is the new and exciting frontier in this field. Molecular imaging originated from the field of Radiopharmacology due to the need to better understand the fundamental molecular pathways inside organisms in a noninvasive manner

Teleradiology

Teleradiology is the transmission of radiographic images from one location to another for interpretaion by a radiologist. It is most often used to allow rapid interpretation of emergency room, ICU and other emergent examinations after hours of usual operation, at night and on weekends. In these cases the images are often sent across time zones,(Spain, Australia,India) with the receiving radiologist working his normal daylight hours. Teleradiology can also be utilized to obtain consultation with an expert or sub-specialist about a complicated or puzzling case.

Teleradiology requires a sending station, high speed Internet connection and high quality receiving station. At the sending station, plain radiographs are passed through a digitizing machine before transmission, while CT scans, MRIs, Ultrasounds and Nuclear Medicine scans can be sent directly as they are already a stream of digital data. The computer at the receiving end will need to have a high-quality display screen that has been tested and cleared for clinical purposes. Sometimes the receiving computer will have a printer so that images can be printed for convenience. The interpreting radiologist will then fax or e-mail the radiology report to the requesting physician.

The advantages of after-hours Teleradiology is the more expert and rapid examination of radiologic studies for the benefit of emergency room and hospitalized patients and their physicians. The disadvantages included limited contact between the ordering physician and the radiologist, uncertainty about the radilogists's abilities and the cost. Laws and regulations concerning the use of teleradiology vary among the states, with some states requiring a license to practise medicine in the state sending the radiologic exam while others just require an American license. Many states require the teleradiology report to be a only preliminary report and require a final report by a hospital staff radiologist.

Radiologist training

Template:World view

United States

Diagnostic radiologists must complete prerequisite undergraduate training, four years of medical school, and five years of post-graduate training. The first postgraduate year is usually a transitional year of various rotations, but is sometimes a preliminary internship in medicine or surgery. A four-year diagnostic radiology residency follows. During this residency, the radiology resident must pass a medical physics board exam covering the science and technology of ultrasounds, CTs, x-rays, nuclear medicine, and MRI. Core knowledge of the radiologist includes radiobiology which is the effects of ionizing radiation on the living organisms and specifically humans. Near the completion of their residency, the radiologist in training is eligible to take board examinations (written and oral) given by the American Board of Radiology.

Following completion of residency training, radiologists either begin their practice or enter into sub-speciality training programs known as fellowships. Examples of sub-speciality training in radiology include abdominal imaging, thoracic imaging, CT/Ultrasound, MRI, musculoskeletal imaging, interventional radiology, neuroradiology, interventional neuroradiology, pediatric radiology, mammography and women's imaging. The musculoskeletal system (also known as the locomotor system is an organ system that gives Animals the ability to physically move using the Muscles and Interventional radiology (abbreviated IR or sometimes VIR for vascular and interventional radiology) is a subspecialty of Radiology in which Neuroradiology is a subspecialty of suspenseful radiology focusing on the diagnosis and characterization of abnormalites of the central and peripheral nervous system spine and head and Neurointerventional Surgery (NIS/ Interventional Neuroradiology (INR is an Accreditation Council for Graduate Medical Education (ACGME accredited medical subspecialty specializing Paediatric radiology is a subspecialty of Radiology involving the imaging of fetuses infants children adolescents and young adults Fellowship training programs in radiology are usually 1 or 2 years in length.

Radiologists generally achieve a higher level of compensation than many medical specialties as well as a highly desirable regular work schedule that often does not involve many weekend or night hours. Remuneration is pay or salary typically Monetary payment for services rendered as in an Employment. The introduction of teleradiology has significantly improved the working environment and schedules of radiologists, essentially distributing the increasing workflow into shifts. Teleradiology of radiological patient images such as X-rays CTs and MRIs from one location to another for the purposes of interpretation and/or consultation Those seeking residency positions find that entry into this field of medicine is highly competitive. The field is rapidly expanding due to advances in computer technology which is closely linked to modern imaging.

The exams (radiography) are usually performed by radiologic technologists, (also known as diagnostic radiographers) who in the United States have a 2-year Associates Degree and the UK a 3 year Honours Degree. For medical radiography see Radiology Radiography is the use of X-rays to view unseen or hard-to-image objects A radiologic technologist, or radiographer, is a healthcare professional who creates medical images of the body to help health care providers diagnose and treat illness and injury

Veterinary radiologists are veterinarians that specialize in the use of X-rays, ultrasound, MRI and nuclear medicine for diagnostic imaging or treatment of disease in animals. Veterinary radiologists are certified in either diagnostic radiology or radiation oncology by the American College of Veterinary Radiology.

Canada

As in the United States, diagnostic radiologists usually have four years of undergraduate university, followed by three or four years of medical school and five years of residency training, one year of which can be in a field unrelated to medical imaging. Specialist examinations at the end of training are administered by the Royal College of Physicians and Surgeons of Canada. Graduates of Canadian residency programs are considered equivalent to their American counterparts, with many graduates opting to sit for American Board examinations as well. A majority of graduates from Canadian residency training programs go on to do an additional one or two years of post graduate fellowship training to allow for further subspecialization. Residency training in the United States is considered equivalent to training in Canada and US graduates are eligible to sit for the Canadian boards examinations with certain provisions related to basic medical training such as completing medical school in Canada or a year of general rotating internship in an accredited Canadian teaching hospital.

References

1. ^ P. Thurn, E. Bücheler: Einführung in die radiologische Diagnostik, Stuttgart: Thieme, 8. Aufl. 1986

See also

• Antoine Béclère
• C-Arm
• Medical radiography
• Positron emission tomography
• Radiobiology
• Radiography
• Radiosensitivity
• Teleradiology
• Interventional radiology

External links

• A Free Online Resource for Radiographers and Radiologists- www. Antoine Béclère ( March 17, 1856 Paris -1939 virologist immunologist was a pioneer in Radiology. An X-ray image intensifier (XRII sometimes referred to as a C-Arm or Fluoroscope in medical settings is a highly complex piece of equipment which uses Radiography is the use of ionising Electromagnetic radiation to view objects Positron emission tomography ( PET) is a Nuclear medicine imaging technique which produces a three-dimensional image or map of functional processes in the Radiobiology (or radiation biology) is the Interdisciplinary field of science that studies the biological effects of ionizing and non-ionizing For medical radiography see Radiology Radiography is the use of X-rays to view unseen or hard-to-image objects Radiosensitivity is the relative susceptibility of cells tissues organs or organisms to the harmful effect of Ionizing radiation. Teleradiology of radiological patient images such as X-rays CTs and MRIs from one location to another for the purposes of interpretation and/or consultation Interventional radiology (abbreviated IR or sometimes VIR for vascular and interventional radiology) is a subspecialty of Radiology in which mdct. com. au
• American College of Radiology - A national organization and lobby for radiologists
• American Registry of Radiologic Technologists - A national organization for certification of radiologic technologists and other imaging professionals
• American Society of Radiologic Technologists - A national society for radiologic technologists
• The American Board of Radiology - The organization responsible for Board Certification in Radiology, Radiation Oncology and Radiation Physics in the United States
• American Roentgen Ray Society - much information on radiology, including online American Journal of Roentgenology
• Cardiovascular and Interventional Radiological Society of Europe
• Dave's Places in Radiology Nice site for radiology related information.
• Diagnostic Radiology*
• European Congress of Radiology - the essential organization of radiologists in Europe and beyond.
• Iradix.in Exclusive Radiology Portal (based in India) which is managed and run by Radiologists. It includes features like Forum, Useful Links, Job Search, Conference listing, and Chat.
• Medicexchange - Medical Imaging Leading global Medical Imaging portal for Professionals, with breaking news, latest articles, and Radiology related products
• Curriculum In Radiology Reporting - Funded by RSNA WWW Education Grant
• MyPACS.net - NIH-sponsored site containing over 16,000 radiology cases
• [1] NY state society of Radiologic Technology
• Ontario Association of Radiologists Ontario, Canada
• PedRad Info - A pediatric radiology publication and communication platform
• PediatricRadiology.com - A pediatric radiology digital library
• Radiopaedia - A comprehensive radiology education resource.
• Radiology Exam Info for Patients - The radiology information resource for patients and other medical professionals.
• Radiology Search Engine A peer reviewed and user tailored Radiology specific search engine. Search for Radiology images, videos, teaching files, (also in) books, news, publications, journals, societies, Radiology vendors & products, CME offers and more. Create also your own search engine.
• radRounds Professional and social networking for radiologists.
• radswiki Education site for radiology - is a WIKI just like this site.
• Royal College of Radiologists United Kingdom Radiologist organization
• MedPix - MedPix Medical Image Database - the world's largest peer reviewed radiology teaching file - associated with the ACR, USUHS, AFIP and many smaller organizations.
• Radiology.org - The Radiology information resource. The website contains comprehensive listings of radiology journals and organizations worldwide. The custom Radiology Search, compiled from hundreds of peer-reviewed radiology sites, covers diagnostic radiology, radiation oncology, nuclear medicine, physics, engineering, computer science, and imaging technologies.
• Radiological Society of North America - huge amount of information on radiology, including links to the online journals Radiology and Radiographics
• Radiology Student Portal Radiology portal designed for use by radiology students and professionals.
• Radiology at UCSFThe University of California at San Francisco radiology web presence.
• Radiology-in-Focus.NET Online radiology resources and services for radiologists and related

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