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Radiology 3

Subjects : health-sciences, radiology

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Used to decrease voltage from the incoming 110- or 220-line voltage to the 3 to 5 volts used by the filament circuit.
Radiosensitive cells
Step-Down Transformer
Dose Rate
Tuberosity

2. Continues from ramus; radiopaque band
Density
Long-term effects
Radiosensitive cells
Internal Oblique Ridge

3. The x-ray photon is deflected from its path during its passage through matter
Compton Scatter
Septa within maxillary sinus
Latent Period
Lateral Fossa

4. Tubes within maxillary sinus that carry nerves - blood supply - radiolucent band with boundary of two radiopaque cortical bony lines
Zygomatic process of maxilla
Roentgen
Nutrient Canals
Step-Up Transformer

5. Coronal part of alveolar bone - between teeth - cortical bone - radiopaque
Somatic cells
Total (inherent + added) filtration
Alveolar Crest
Total dose

6. All cells except reproductive; effects are seen in person irradiated
Rectangular and round PID
Zygomatic process of maxilla
Amount of tissue irradiated
Somatic cells

7. Coulombs per kilogram
Roentgen
Radiosensitive cells
Foramen
Density

8. An x-ray photon that has its path altered by matter.
Coherent Scatter
Inherent filtration
Hamulus
Rad (Radiation absorbed dose)

9. The penetrating x-ray beam that is produced at the target of the anode
Somatic cells
Roentgen
The optimum temperature for manual processing?
Primary Radiation

10. Superior to internal oblique ridge; anterior border of ramus ends in external oblique ridge; radiopaque band
Hamulus
External Oblique Ridge
Genial Tubercles
Contrast

11. Effects seen years - decades - or generations later
Floor of Nasal Cavity
Cell sensitivity
Superior Foramina of incisive canal
Long-term effects

12. 68 Degrees F
Scatter Radiation
The optimum temperature for manual processing?
Rem (Roentgen equivalent (in) man)
Total dose

13. Gray
Inherent filtration
Rad (Radiation absorbed dose)
Added filtration
Alveolar Process

14. Pear shaped compartment - appears above maxillary incisors. Appears as a large radiolucent area above the maxilla.
Nasal Cavity/Fossa
Septum
Incisive (Nasopalatine) Foramen
Added filtration

15. Rate which exposure to radiation occurs and absorption occurs (more damage occurs with high dose due to rapid delivery and does not allow for repair)
Amount of tissue irradiated
Total dose
Canal
Dose Rate

16. Aluminum disks between collimator and tubehead seal. Aluminum disks filter long wavelength - low energy x-rays from x-ray beam. 0.5 mm increments
Indirect injury
Inherent filtration
Rectangular and round PID
Added filtration

17. Bump or nodule that appears radiopaque
Rad (Radiation absorbed dose)
Tubercle
Superior Foramina of incisive canal
Median palatine suture

18. Bony prominence posterior to maxillary third molar; radiopaque
Maxillary Tuberosity
Radioresistant cells
Lingual Foramen
Tubercle

19. 'Arranged like a lattice'->soft - spongy bone located between 2 layers of cortical bone; spaces are trabeculae that are filled with bone marrow.
Cancellous
Step-Down Transformer
Genetic cells
Septum

20. Rounded prominence that appears radiopaque
Tuberosity
Floor of Nasal Cavity
Dose Rate
Maxillary Tuberosity

21. Mostly seen in mandibular nerve/blood supply vertical radiolucent lines
Nutrient Canals
General Radiation
Inferior Nasal Conchae
Total (inherent + added) filtration

22. Extends from alveolar bone between maxillary centrals to posterior hard palate; seen as a radiolucent line
Anterior Nasal Spine
Mental Foramen
Fixer Solution
Median palatine suture

23. Opening/hole in bone that allows the passage of blood vessels/nerves and appears radiolucent
Foramen
Total (inherent + added) filtration
Direct Injury
Maxillary Tuberosity

24. Small lymphocyte - bone marrow - reproductive cells - immature bone
Radiosensitive cells
Maxillary Tuberosity
Septum
Hamulus

25. Hollow space - cavity that appears radiolucent
Rad (Radiation absorbed dose)
Total (inherent + added) filtration
Contrast
Sinus

26. A line of union between adjoining bones - found only in skull; appears as radiolucent line
Lateral Fossa
Internal Oblique Ridge
Septum
Suture

27. Occurs very little; most photons pass through cell with little or no damage
Density
Canal
Genetic cells
Direct Injury

28. Linear prominence that appears radiopaque.
Ridge
Nonthreshold dose-response curve
Milliamperage adjustment
Inherent filtration

29. Produced when an electron hits the nucleus of a tungsten atom or passes very close to the nucleus of a tungsten atom.
Voltage
General Radiation
Zygoma
Internal Oblique Ridge

30. Between canine and lateral incisor - depression is not always visible - radiolucent
Inherent filtration
Lateral Fossa
Step-Up Transformer
Lamina Dura

31. X-radiation created when the primary beam interacts with a matter
Secondary Radiation
Genetic cells
Developer Solution
Nonstochastic (deterministic) effects

32. Marked prominence that appears radiopaque.
General Radiation
Process
Alveolar Process
Superior Foramina of incisive canal

33. Suggest that no matter how small the amount of radiation received - some biologic damage occurs.
Somatic cells
Contrast
Roentgen
Nonthreshold dose-response curve

34. Reduces exposed silver halide crystals into black metallic silver a makes dark/black areas on film; unexposed silver halide crystals are unaffected by developer
Lamina Dura
Developer Solution
Inverted Y
Tubercle

35. Produced when a high-speed electron dislodges an inner-shell electron from a tungsten atom and causes ionization of that atom. Occurs only at 70 kVp and above.
Dose Rate
Genetic cells
Inverted Y
Characteristic Radiation

36. Within maxillary sinus; acts as a division - radiopaque lines sometimes not visible
Septa within maxillary sinus
Body of Mandible
Submandibular Fossa
Maxillary sinus

37. Can increase or decrease the number of electrons passing through the cathode filament
Milliamperage adjustment
Step-Down Transformer
Superior Foramina of incisive canal
Contrast

38. Thin - curved areas of bone - radiopacities within nasal cavity and septum
Radiosensitive cells
Fossa
Nasal Cavity/Fossa
Inferior Nasal Conchae

39. Space between root and the lamina dura - thin - radiolucent line - healthy PDL is uniform thickness
Periodontal Ligament Space
Roentgen
Canal
Ridge

40. The measurement of the number of electrons moving through a conductor. Measured in amperes (A) or milliamperes (mA)
Anterior Nasal Spine
Density
Amperage
Periodontal Ligament Space

41. Time between exposure to ionizing radiation and the appearance of observable clinical signs.
Maxillary sinus
Nonthreshold dose-response curve
Step-Up Transformer
Latent Period

42. Closed - pointed cone-high production of scatter - not used any longer.
Added filtration
Conical PID
Density
Tubercle

43. Surrounded by genial tubercle - hole in bone near mandibular midline - radiolucent
Superior Foramina of incisive canal
Short-term effects
Kilovoltage peak adjustment
Lingual Foramen

44. Cortical bone; J or U shaped radiopacity
Septum
Sinus
Mandibular Canal
Zygomatic process of maxilla

45. Internal ridge of mandible muscle attachment - continuous with internal oblique ridge; radiopaque line
Amount of tissue irradiated
Mylohyoid Ridge
Collimation
Sinus

46. A direct function of the dose. No dose threshold; effects do not depend on the magnitude of the absorbed dose (Examples: cancer and genetic mutations)
Stochastic effects
Median palatine suture
General Radiation
Submandibular Fossa

47. V-shaped radiopacity at intersection of floor of nasal cavity and septum
Anterior Nasal Spine
Cancellous
Nutrient Canals
Radioresistant cells

48. Do not occur in dentistry
Short-term effects
Maxillary Tuberosity
Suture
Kilovoltage peak adjustment

49. Cell damage occurs through formation of 'free radicals'. Free radicals are formed when an x-ray photon ionizes water.
Maxillary sinus
Step-Up Transformer
Genial Tubercles
Free Radical Formation

50. The measurement of electrical force that causes electrons to move from a negative pole to a positive one. Measured in volts (V) or kilovolts (kV)
Cancellous
Voltage
Radioresistant cells
Amperage