Essentials of Dental Radiography 9th Edition By Evelyn Thomson,Orlen Johnson -Test Bank
1. d. Wilhelm Conrad Roentgen discovered the x-ray on November 8, 1895, when he noted that a fluorescent screen near a Crookes vacuum tube began to glow when an electric current was passed through the tube.
2. b. Howard Riley Raper wrote the first dental radiology textbook, Elementary and Dental Radiology, and introduced bitewing radiographs in 1925.
3. a. William David Coolidge developed the shockproof hot cathode tube while working for the General Electric Company in 1913.
4. c. William Herbert Rollins was one of the first to alert the profession to the need for radiation hygiene and protection, and is considered by many to be the first advocate for the science of radiation protection.
5. d. C. Edmund Kells took the first dental radiograph on a living subject in the United States. He was the first to put the radiograph to practical use in dentistry. Dr. Kells made numerous presentations to organized dental groups and was instrumental in convincing many dentists that they should use oral radiography as a diagnostic tool.
6. a. Because x-rays are invisible, scientists and researchers working in the field of radiography were not aware that continued exposure produced accumulations of radiation effects in the body and therefore could be dangerous to both patient and radiographer.
7. d. The introduction of the Coolidge tube allowed for an x-ray output that could be predetermined and accurately controlled.
8. d. Dr. Otto Walkhoff, a German physicist, was the first to expose a prototype of a dental radiograph. This was accomplished by covering a small, glass photographic plate with black paper to protect it from light and then wrapping it in a sheath of thin rubber to prevent moisture damage during the 25 minutes that he held the film in his mouth.
9. c. A rectangular position indicating device (PID) limits the size of the x-ray beam that strikes the patient to the actual size of the image receptor.
10. d. Panoramic radiography became popular in the 1960s with the introduction of the panoramic x-ray machine.
11. c. While cone beam volumetric imaging dedicated to dental applications produces less radiation doses than conventional CT scans, the dose is still 4 to 15 times that required for a panoramic radiograph.
12. b. Early film had emulsion on only one side and required long exposure times.
13. c. Pointed cones are no longer acceptable because x-rays are scattered through contact with the material of pointed cones.
14. b. The bisecting technique is based on the rule of isometry, but this is not the reason that it was the first and earliest radiographic technique for exposing intraoral radiographs.
15. a. Because the newer technique of paralleling improved on the older bisecting technique, it is the technique of choice and taught in all dental assisting, dental hygiene, and dental schools.
16. a. In 1907, A. Cieszyński, a Polish engineer, applied the “rule of isometry” to dental radiology and is credited for suggesting the bisecting technique.
17. d. Home care is best determined during a visual clinical examination that would assess the presence of biofilms and the condition of the gingival tissues.
Holding the film in the patient’s mouth exposes the radiographer to unnecessary radiation.
18. e. Radiography is defined as the making of radiographs by exposing and processing x-ray film.
19. d. Dentists have the authority and responsibility for prescribing and diagnosing conditions from dental radiographs. Dentists, dental assistants, and dental hygienists can expose, process, mount, and interpret (read) dental radiographs.
20. a. Because cones were used for so many years, many still refer to the open cylinders or rectangular tubes as cones.
1. False. William Conrad Roentgen was awarded the first Nobel Prize for physics in 1901 for the discovery of the x-ray.
2. True. C. Edmund Kells took the first dental radiograph on a living subject in the United States. He made many presentations to organized dentistry advocating the use of dental radiographs as a diagnostic tool.
3. False. Continued exposure results in the accumulation of radiation effects in the body that can be dangerous to the radiographer.
4. True. It was customary to send the patient to a hospital or physician’s office on those rare occasions when dental radiographs were prescribed.
5. True. Dental x-ray machines manufactured before 1920 were an electrical hazard because of open, uninsulated, high-voltage supply wires.
6. False. Pointed cones allow x-ray scatter to reach the patient through contact with the material of the cone.
7. True. Early x-ray films were single emulsion only and required long exposure times. Today’s films are double emulsion and require much shorter exposure times.
8. False. The paralleling technique is less complicated and produces better radiographs more consistently than the bisecting technique.
9. True. Many conditions may go undetected without radiographic examination.
10. True. Digital sensors that replace film are more sensitive to x-rays, allowing for a reduction in radiation dose, one of the biggest advantages of digital imaging over film-based radiographs.
11. True. The definition of radiograph is an image produced on photosensitive film by exposure to x-rays.
12. False. Computed tomography or CT scans deliver high radiation doses, sometimes up to 600 times more than a panoramic radiograph.
13. False. In digital radiography a sensor replaces film. The conventional dental x-ray machine is used for both digital and film-based imaging.
14. False. The bisecting technique is based on the rule of isometry.
15. True. PID stands for position indicating device, which means that the PID is used to direct the useful beam of radiation toward the patient and the image receptor.
16. True. Roentgen discovered x-radiation while working with a Crookes tube (named after William Crookes, an English chemist). The Coolidge tube is named after William David Coolidge who, while working for the General Electric Company, introduced the hot cathode tube that allowed x-ray output to be predetermined and accurately controlled.
17. False. Roentgen reported his finding at a scientific meeting, he spoke of it as an x-ray because the symbol x represented the unknown. After his findings were reported and published, fellow scientists honored him by calling the invisible ray the roentgen ray.
18. False. The x-ray output of the Coolidge tube could be predetermined and accurately controlled.
19. True. Because x-rays are invisible, scientists and researchers working in the field of radiography were not aware that continued exposure produced accumulations of radiation effects in the body, and therefore could be dangerous to both patient and radiographer.
20. True. When radiography was in its infancy, it was common practice for the dentist or dental assistant to help the patient hold the film in place while making the exposure.
1. Dr. Otto Walkhoff. Dr. Walkhoff held a small photographic plate in his mouth for a 25-minute exposure to demonstrate that radiographs of the teeth could be made.
2. Dr. William Herbert Rollins. Dr. Rollins was one of the first to alert the profession to the need for radiation hygiene and protection.
3. In 1913, William David Coolidge, working for the General Electric Company, designed the hot cathode tube in which the tube and high-voltage transformer were placed in an oil-filled compartment that acted as a radiation shield and electrical insulator.
4. A panoramic radiograph displays a broad area of the mandible and maxilla on a single image receptor.
5. The paralleling technique is the technique of choice because it is less complicated and more consistently produces better radiographs than the bisecting technique.
6. Sensors are comparable to film in dimensions and nearly comparable in radiographic quality.
7. A computed tomography (CT) scan images a single selected plane of tissues.
8. A position indicating device (PID) is used to direct the x-ray beam.
9. Through familiarity with the evolution of concepts and theories, investigators gain knowledge about current practices and appreciate future advancements. Radiography plays an important role in the diagnostic process in the modern oral health care practice. To appreciate the role of dental radiography in the diagnostic process, it is important to understand the nature of x-rays and how the early researchers supplied us with the fundamental concepts and techniques we use in practice today.
10. The bisecting technique, the first and earliest technique, and the par technique, the technique of choice that is taught in all dental assisting, dental hygiene, and dental schools.
1. b. Water is a form of matter. Heat, light, electricity, and x-radiation are forms of energy.
2. d. The innermost shell is the K shell, followed by the L shell, and so on, up to a maximum of seven shells.
3. c. Only radiation that produces ions is termed ionizing radiation.
4. a. Electromagnetic radiations have no electrical charge.
5. d. X-rays travel in divergent lines.
6. b. Roentgen is a traditional unit of measurement.
7. a. While the rad is the unit for measuring absorbed dose in traditional units, the gray is the unit used by the SI system.
8. d. Background radiation refers to that radiation which is always present in the environment. The sources of background radiation include cosmic rays from outer space, terrestrial radiations from the earth, and naturally occurring radionuclides which we inadvertently inhale or ingest.
9. b. Velocity is a measure of the speed of travel.
10. c. The majority of x-rays produced by dental x-ray machines are formed by general/bremsstrahlung radiation which is produced when electrons are accelerated across the tube head and abruptly stop against the tungsten target.
11.d. Radiation is defined as the emission and movement of energy through space in the form of electromagnetic radiation (x- and gamma rays) or particulate radiation (alpha and beta particles).
12. d. A molecule is the smallest particle of a substance that retains the properties of that substance.
13. b. Radiation is defined as the emission and movement of energy through space in the form of electromagnetic radiation (x- and gamma rays) or particulate radiation (alpha and beta particles).
14. c. Frequency is a measure of the number of waves that pass a given point per unit of time.
15. c. The Compton effect causes x-rays to be scattered in all directions.
16. b. Absorbed dose is the traditional unit of measure referring to the amount of energy deposited in tissues by any type of radiation.
17. b. Sievert is the Système International unit for measuring dose equivalent.
18. c. The sievert is the Système International unit and the rem is the traditional unit of measurement for the comparison of biological effects.
19. b. “Dose equivalent” is defined as the product of the absorbed dose multiplied by a biological-effect qualifying or weighting factor. The Système International unit for measuring the dose equivalent is the sievert (Sv).
20. a. Wavelength is the distance between two similar points on two successive waves. The shorter the wavelength, the more penetrating the radiation.