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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. Tube that passes through bone - contains nerve canals/blood vessels/and appears radiolucent
Conical PID
Ridge
Canal
Fossa

2. Gray
Nutrient Canals
Rad (Radiation absorbed dose)
Cancellous
Characteristic Radiation

3. Can control the current passing from the cathode to the anode.
Rad (Radiation absorbed dose)
Free Radical Formation
Kilovoltage peak adjustment
Ramus

4. Pear shaped compartment - appears above maxillary incisors. Appears as a large radiolucent area above the maxilla.
Hamulus
Nasal Cavity/Fossa
Process
Lateral Fossa

5. Marked prominence that appears radiopaque.
Process
Secondary Radiation
The optimum temperature for manual processing?
Alveolar Crest

6. Removes unexposed silver halide crystals and creates white/clear areas on film; black metallic silver remains on film.
Fixer Solution
Internal Oblique Ridge
Direct Injury
Nutrient Canals

7. A form of secondary radiation - the result of x-rays that has been deflected from its path by an interaction with matter.
Process
Alveolar Process
Milliamperage adjustment
Scatter Radiation

8. 'Cheekbone'; cortical bone; radiopaque band extending from zygomatic process.
Zygoma
Suture
Maxillary sinus
Body of Mandible

9. Opening/hole in bone that allows the passage of blood vessels/nerves and appears radiolucent
Voltage
Scatter Radiation
Foramen
Hamulus

10. Small lymphocyte - bone marrow - reproductive cells - immature bone
Secondary Radiation
Total dose
Radiosensitive cells
Somatic cells

11. Somatic effects that have a threshold; effects increase in severity with increasing absorbed dose. (Examples: Erythema - loss of hair - cataracts - and decreased fertility)
Ramus
Nonstochastic (deterministic) effects
Coherent Scatter
Maxillary Tuberosity

12. Hole in bone below mandibular premolars - blood supply to lower lip exits here; radiolucent; often misdiagnosed for periapical pathology
Lingual Foramen
Mental Foramen
Zygoma
Mandibular Canal

13. Tubes within maxillary sinus that carry nerves - blood supply - radiolucent band with boundary of two radiopaque cortical bony lines
Nutrient Canals
Ridge
Sinus
Floor of Nasal Cavity

14. The penetrating x-ray beam that is produced at the target of the anode
Primary Radiation
Ridge
Coherent Scatter
Tubercle

15. The measurement of the number of electrons moving through a conductor. Measured in amperes (A) or milliamperes (mA)
Somatic cells
Radioresistant cells
Lingual Foramen
Amperage

16. Closed - pointed cone-high production of scatter - not used any longer.
Lingual Foramen
Collimation
Stochastic effects
Conical PID

17. 68 Degrees F
The optimum temperature for manual processing?
Coherent Scatter
Long-term effects
Lingual Foramen

18. Internal ridge of mandible muscle attachment - continuous with internal oblique ridge; radiopaque line
Mylohyoid Ridge
Inverted Y
Genetic cells
Zygomatic process of maxilla

19. Effects seen years - decades - or generations later
Cortical Bone
Long-term effects
Coherent Scatter
Density

20. Mostly seen in mandibular nerve/blood supply vertical radiolucent lines
Stochastic effects
Fixer Solution
Cell sensitivity
Nutrient Canals

21. Posterior to mandibular third molar
Added filtration
Ramus
Submandibular Fossa
Tubercle

22. Linear prominence that appears radiopaque.
Milliamperage adjustment
Floor of Nasal Cavity
Ridge
Mandibular Canal

23. Mature bone - muscle - nerve
Roentgen
Characteristic Radiation
Radioresistant cells
Rectangular and round PID

24. 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)
Direct Injury
Dose Rate
Suture
Inferior Nasal Conchae

25. Intersection of maxillary sinus and nasal cavity - radiopaque - cortical bone; above maxillary canine.
Radioresistant cells
Inverted Y
The optimum temperature for manual processing?
Alveolar Process

26. Primary beam passes through glass window - insulating oil - tubehead seal. 0.5 to 1.0 mm of aluminum
Compton Scatter
Sinus
Inferior Nasal Conchae
Inherent filtration

27. X-radiation created when the primary beam interacts with a matter
Fossa
Submandibular Fossa
Septa within maxillary sinus
Secondary Radiation

28. Two small openings (radiolucent) found on floor of nasal cavity->common exit is incisive foramen
Dose Rate
Process
Superior Foramina of incisive canal
Developer Solution

29. Cortical bone - radiopaque band above maxillary incisors
Median palatine suture
Tuberosity
Internal Oblique Ridge
Floor of Nasal Cavity

30. Space between root and the lamina dura - thin - radiolucent line - healthy PDL is uniform thickness
Indirect injury
Maxillary sinus
The conditions required for the darkroom
Periodontal Ligament Space

31. 'hooklike' - posterior to maxillary tuberosity; extension of medial pterygoid plate of sphenoid bone; radiopaque
Periodontal Ligament Space
Lamina Dura
Sinus
Hamulus

32. 'Arranged like a lattice'->soft - spongy bone located between 2 layers of cortical bone; spaces are trabeculae that are filled with bone marrow.
Amperage
General Radiation
Density
Cancellous

33. All cells except reproductive; effects are seen in person irradiated
Somatic cells
The conditions required for the darkroom
Roentgen
Lingual Foramen

34. Bump or nodule that appears radiopaque
Lingual Foramen
Genetic cells
Cortical Bone
Tubercle

35. 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)
Scatter Radiation
General Radiation
Short-term effects
Stochastic effects

36. Reduces exposed silver halide crystals into black metallic silver a makes dark/black areas on film; unexposed silver halide crystals are unaffected by developer
Developer Solution
Primary Radiation
Mandibular Canal
Ramus

37. An x-ray photon that has its path altered by matter.
Tubercle
Coherent Scatter
Radiosensitive cells
Conical PID

38. Cortical bone; J or U shaped radiopacity
External Oblique Ridge
Milliamperage adjustment
Zygomatic process of maxilla
Zygoma

39. Reproductive (ova - sperm). Effects are passed on to generations. Genetic damage cannot be repaired
Internal Oblique Ridge
Genetic cells
Long-term effects
Zygoma

40. Time between exposure to ionizing radiation and the appearance of observable clinical signs.
Fixer Solution
Body of Mandible
Floor of Nasal Cavity
Latent Period

41. Tube that travels length of mandible - radiolucent; has cortical walls - houses inferior alveolar nerve
Nonthreshold dose-response curve
Mandibular Canal
Sinus
Conical PID

42. Occurs frequently due to the high concentration of water in cells.
Coherent Scatter
Indirect injury
Contrast
Direct Injury

43. 8 inch and 16 inch; longer are preferred due to less divergence of beam - open ended and lead lined.
Dose Rate
Cell sensitivity
Floor of Nasal Cavity
Rectangular and round PID

44. Hollow space - cavity that appears radiolucent
Amperage
The conditions required for the darkroom
Foramen
Sinus

45. 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.
Characteristic Radiation
Secondary Radiation
Nutrient Canals
Ridge

46. Area of body exposed total body produced more adverse effects
Amount of tissue irradiated
Body of Mandible
Cancellous
Alveolar Crest

47. Surrounds root - cortical bone - radiopaque
Total (inherent + added) filtration
Anterior Nasal Spine
Lamina Dura
Cell sensitivity

48. Do not occur in dentistry
Short-term effects
Inferior Nasal Conchae
Genial Tubercles
Ramus

49. The x-ray photon is deflected from its path during its passage through matter
Radioresistant cells
Latent Period
Compton Scatter
Nasal Cavity/Fossa

50. Cell damage occurs through formation of 'free radicals'. Free radicals are formed when an x-ray photon ionizes water.
Added filtration
Maxillary Tuberosity
Free Radical Formation
Amperage